Spatial distribution patterns of cover vegetation

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2nd International Conference on Arid Lands Studies
Innovations for sustainability and
food security in arid and semiarid lands
10-14 September, 2014
Samarkand, Uzbekistan
ABSTRACT BOOK
2014

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FOREWORDS
We are pleased to welcome you to the Second International Conference on Arid Land Studies
(ICAL2) “Innovations for Sustainability and Food Security in Arid and Semi arid areas”
that is supported by the government of Uzbekistan and hosted by Samarkand State University
10-14 September 2014. This meeting is a logical follow-on to the recent Global Forum on “Vital
Reserves in the Realization of Food Program in Uzbekistan” organized at the initiative of our
country’s President Islam A. Karimov that was held 05-06 June this year in Uzbekistan.
Dryland salinity, deforestation, decreasing productivity of rangelands and reduction of soil
productivity are widespread phenomena and primary causes of desertification in the Central
Asian region. The government of Uzbekistan is currently implementing effective measures to
step up the production of food, draw foreign investments into the sphere, introduce cutting edge
technologies, and boost export potential. These activities will ensure food security as a
component of socio-economic development and create needed conditions for the dynamic
development of a domestic agricultural industry complex that has an enormous production
potential, and thus facilitate steadfast enhancement of the well-being, stability and prosperity of
the country.
To further the effectiveness of these activities, the ICAL2 conference is bringing together a
group of internationally recognized experts, senior scientists from international research
organizations, industry representatives, international development aid agencies, governmental
leaders, policymakers and other stakeholders to share novel knowledge and experience in
combating desertification and innovations in agriculture for ensuring food security and
ecosystem resilience in arid and semi-arid regions. The participants will also address a number of
research and development opportunities for marginal water resources and lands to prevent
salinization and promote sustainable management of natural resources, including conservation of
indigenous traditions of the desert and semi-desert zones. It is anticipated that the conference
will highlight novel tools for evaluation and utilization of phytogenetic resources of saline
dryland ecosystems and suggesting biological approaches and strategies for soil/water
reclamation and sustainable use for improving food security and livelihood of people in these
less favourable areas around the world.
The overall expected outcome of the ICAL2 conference is increased awareness of the major
challenges for agriculture and food security posed by climate change and the establishment of a
platform for future international research collaborations in the area of combating desertification
and degradation of natural and cultural environments in the desert and semidesert areas.
It is our great pleasure to thank the International Center for Biosaline Agriculture (ICBA),
Islamic Development Bank (IDB), International Center for Agriculture Research in Dry Areas
(ICARDA), the Food and Agriculture Organization of the United Nations (FAO), the Eurasian
Center for Food Security (ECSF), the Eurasian Soils Partnerships (ESP), Japanese organizations
and institutions, USAID, UNESCO office in Tashkent, UNDP, as well as chiefs of diplomatic
missions, leading experts and scientists from 22 countries of the world for their kind support.
Without their contribution, this memorable global event may not have happened.
This Book of Abstracts documents how our improved understanding of drylands provides insight
into the health and future prospects of these precious ecosystems that will ensure that dryland
communities enjoy a sustainable future.
.
Professor Ulugbek Tashkenbaev,
Rector, Samarkand State University

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Productive and fertile soils are becoming scarce in arid and hyper-arid desert environments
globally. These areas usually suffer from fresh water resources, which threaten the region food
and water securities. Such complex situations necessitates to understand the ecosystem of arid
and semi arid lands and to look at both mitigation and adaptation processes carefully, both from
environmental and economical perspectives.
The process of land degradation, specifically because of salinization has spread over 1 billion
hectares in more than 100 countries globally. This has encouraged the scientists and researchers
to work more on the plant genetics, agronomical management practices and innovations in
agriculture to improve food and water securities. The ICAL2 conference is an initiative by the
Government of Uzbekistan and the Samarkand State University. The International Center for
Biosaline Agriculture (ICBA) being an active international R4D organization is honored to be
the co-organizer of the conference. This Forum is built on the outcomes of the research
achievements, meetings, workshops and other conferences held in the region in partnership with
many national and international organizations, including, USAID, FAO, UNESCO, UNDP,
ICARDA and others.The conference is expected to cover different topics related to innovations
for food security and will bring many national and international expertise at the event. I wish to
sincerely thank Mr. Alisher Vakhobov from the Ministry of High and Secondary Specialized
Education of the Republic of Uzbekistan,; Mr Zoir Mirzaev, Khokim of the Samarkand region
and Prof. Ulugbek Tshkenbaev from Samarkand State University for their inspiration and
respective endeavors to ensure the success of the conference.
Dr. Ismahane A.Elouafi
Director General
International Center for Biosaline Agriculture
Dubai, United Arab Emirates


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Agriculture development under arid conditions through wide introduction of innovative
technologies is an important factor of ensuring food security of population in many regions
including Central Asia. Today the problems of natural resources utilization are of special
urgency as they enable to maintain sustainable development of territories including rational use
of agro- ecosystems of arid areas providing their protection as a paramount issue. Organization
of the conference once again indicates the importance of solution of these problems at the
international level.
It is known, that now, owing to the necessity to intensify agricultural production to provide
increasing population with sufficient food, considerable changes in the land tenure system are
taking place; therefore, many ecosystems including natural ecosystems of arid territories are
subject to degradation. Extremely adverse consequences of unreasonable management of natural
resources are changes in floristic structure and disappearance of natural vegetation. It is obvious
that the adverse changes occurring due to application of one-sided approaches in management of
land-and-water resources ignoring ecological principles have a negative impact on the natural
habitat of live organisms, deteriorate the quality and decrease the quantity of soil of the
inundated rivers, lakes and wetland ecosystems. Thereupon, at the present stage of development,
world-wide studying the mechanisms of the prevention of negative changes in environment,
assistance to protection and rational use of natural resources with biodiversity preservation get
the increasing value.
Currently, the issues of ensuring stability of agricultural production in arid and semi-arid
territories dramatically lack both fundamental and applied scientific research in which ecological
aspects are considered along with biological, physical, economic and social problems. Only an
integrated and universal approach can create a basis for long-term stability of development of
agriculture reflecting interrelation of local and regional eco-systems in arid territories.
Certainly, the conference will give the participants a chance to present scientific results and
practical application of the research projects, to take part in discussions concerning the ways to
meet the environment requirements. This activity will trigger wide acquaintance with innovative
approaches in the domain of conducting agriculture necessary for ensuring food security of the
population and sustainable development of arid territories.
On behalf of environmentalists of Uzbekistan, we wish the participants to enjoy the success of
the conference work which will undoubtedly render a powerful impetus to further development
of the international cooperation of researchers and experts, to strengthen their interaction with
the international organizations and foreign research centers, with a view of joint advancement of
innovative technologies in agriculture meeting the principles of environment protection and
rational use of natural resources.
Boriy Alikhanov and Dilorom Fayzieva
Ecological Movement of Uzbekistan

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INTERNATIONAL ADVISORY COMMITTEE:
Ismahane Elouafi, ICBA, UAE
Shoaib Ismail, ICBA, UAE
Josef Turok, ICARDA PFU, Uzbekistan
Hiroko Isoda, University of Tsukuba, Japan
Masa Iwanaga, JIRCAS, Japan
Toshinori Kojima, Seikei University, Japan
Yoshiko Kawabata, Tokyo University of Agriculture and Technology, Japan
Ken Yoshikawa, Okayama University, Japan
Raafat Misak, Kuwait Institute for Scientific Research, Kuwait
Robert S. Nowak, University of Nevada, Reno, USA
Munir Ozturk, Izmir University, Turkey
Hiromichi Toyoda, Tokyo University of Agriculture, Japan
Toshinobu Usuyama, University of Tsukuba, Japan
Kenji Tanaka, Kyoto University, Japan
Taichi Maki, JIRCAS, Japan
Tim Davis, Texas University, USA
Bill Payne, University of Nevada, USA
Laurel Saito, University of Nevada, USA
Malgorzata Suska-Malawska, Warsaw University, Poland
Michael Rosen, United States Geological Survey (USGS), USA
Pavel Krasilnikov, Eurasian Center for Food Security, Russia
Iskandar Abdullaev, Regional Environment Centre for Central Asia (CAREC)
Sayora Rashidova, Academy of Science, Uzbekistan
LOCAL ORGANIZING COMMITTEE:
Alisher Vakhobov, Ministry of Higher and Secondary Education, Uzbekistan
Ulugbek Tashkenbaev, Samarkand State University, Uzbekistan
Sherali Nurmatov, Ministry of Agriculture and Water Resources, Uzbekistan
Boriy Alikhanov, Ecological Movement of Uzbekistan, Uzbekistan
Dilorom Fayzieva, Ecological Movement of Uzbekistan
Kristina Toderich, International Center for Biosaline Agriculture for Central Asia and Caucasus,
(ICBA-CAC), Uzbekistan
Toshtemir Astanakulov, Samarkand Institute of Agriculture, Uzbekistan
Mumin Kodirov, Samarkand State University, Uzbekistan
Mukhtar Nasyrov, Samarkand State University, Uzbekistan
Rustam Pulatov, ICARDA , Tashhkent , Uzbekistan
LOCAL TECHNICAL SECRETARIAT:
Natalya Akinshina, ICBA-CAC, Uzbekistan
Natalya Shulgina, Hydrometerological Research Institute , Uzbekistan
Akmal Yarmukhamedov, Samarkand State University
Nargiza Abduvakhidova, Samarkand State University
Muzzafar Aliev, ICARDA-CAC, Tashkent, Uzbekistan
Farhod Hamroev, ICARDA-CAC, Tashkent, Uzbekistan
Albina Bekmetova, ICARDA-CAC, Tashkent, Uzbekistan
Shakhodat Bobokulova, ICARDA-CAC, Tashkent, Uzbekistan
Sherzod Qosymov, ICARDA-CAC, Tashkent, Uzbekistan
Toshpulot Rajabov, Samarkand State University
Nigora Mardonova, Samarkand State University

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CONTENTS
FOREWARDS
i
INTERNATIONAL ADVISORY COMMITTEE
iv
LOCAL ORGANIZING COMMITTEE
iv
LOCAL TECHNICAL SECRETARIAT
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I. ABDULLAEV, Sh. RAKHMATULLAEV
Impact of climate change on water infrastructure in Central Asia
1
O. ABDURAIMOV, H.SHOMURODOV
Biometrical indexes of the Tulipa michaeliana Hoog in different cenopopulations
2
N.ABLAKULOVA, Kh. KUSHIEV
Regulation of biotic and abiotic factors of growth and wheat development
3
M.ABU-ZREIG
Control of soil erosion of agricultural land in Jordan with polyacrylamide
4
B.A. ADILOV, T.RAKHIMOVA, N.K. RAKHIMOVA
Restoration and conservation of in Artemisia grassland of Central Kyzylkum desert
5
H. AHMADOV
Soil salinization in Tajikistan: modern status and methods for prevention
6
I. AIDAROV, E. PANKOVA
Salinization of irrigated soils of the Aral Sea basin and its environmental and socio-
economic impacts
7
A. AKHMEDOV, S. BASHIROVA
Ontogenetic structure of the cenopopulation of Lagochilus vvedenskyi R. Kam et
Zucker (Lamiaceae) in Kyzylkum (Uzbekistan)
8
N. AKINSHINA, K. TODERICH, N. VERESHAGINA, B. NISHONOV
Salt-tolerant plants for soil salinity control, sustainable fodder and bioenergy
production in Central Kyzylkum
9
I. Al TAMIMI, M. ABU ZREIG, M. IRIE
Sedimentation and storage reduction of flood water reservoirs in Jordan
10
E. ALTUNDAG, O. YILDIZ
Potential usage of some of the ground-cover vegetation for ecosystem restoration
practices in central Anatolia region of Turkey
11
V.ANDROHANOV
Transformation of the ecological functions of the soil in coal mining regions
of the Kuzbass
12

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V.APARIN, Yo. KAWABATA, M. NAGAI, Yo. FUJII, Yo. KATAYAMA
Major and trace elements in transboundary river of Uzbekistan
13
D. ARALOVA, K. TODERICH
Spatial distribution patterns of cover vegetation in Central Kyzylkum desert related
to soil salinity and temperature
14
D.ARIFKHANOVA, T. RAKHIMOVA, S. ILIAKHUNOVA
Ecological optimization of degraded arid ecosystems by means of surface
improvement of annual halophytes
15
S. BALIUK, Е. DROZD, M.ZAKHAROVA
Scientific approaches to the rational use and management of saline soils fertility in
Ukraine
16
Ch.BIRADAR, X.XIAO, G.ZHANG, P.WAGLE, C. JIN, J. DONG, B. DOSOV
Satellite-based observation and modeling of grasslands and croplands in dry areas
17
N.BOBOKULOV, A.RABBIMOV, T.MUKIMOV, T.RAJABOV
Conservation of biodiversity of desert rangeland ecosystems in Uzbekistan
18
E.BULSKA
Measurements facilities at the Biological and Chemical Research Center at the
University of Warsaw in Poland: study case on the analytical possibilities of modern
instrumental techniques for the investigation of metabolism of selected elements in
plants
19
T.BULSKI
On the quality of measurements results: the role of the proficiency testing and
interlaboratory comparison in assuring of the accuracy of the date provided by the
testing laboratory
20
A.BUTNIK, T.MATYUNINA, G.DUSCHANOVA, D.YUSUPOVA
Biological and ecological diversity of halophytes flora of Uzbekistan
21
F.CANDAN, M. ÖZTÜRK,V.ALTAY, S. GÜCEL, G.AY
Studies on the grasslands of Manэsa-Turkey
22
D.CHEREMISIN
Rock art of Altai within context of archaeological monuments forming the cultural
landscape
23
S.CHRISTMANN, A.AW-HASSAN, T.RAJABOV, H.KHALILOV
Climate-change information days for tourists as a value chain for landscape
restoration; the example of Mahalla Kadok (Nurata, Uzbekistan)
24
K. CLIFTON, M. LOUHAICHI
Natural resource usage of migratory sheep herders and indicators for migration in
Rajasthan, India
25

vii
A. DAKHEEL, Sh.ISMAIL
Enhancing food security for small holder farmers’ in arid environments through
scaling-up of adapted resilient crop-livestock models: ICBA’s achievements and
lesson learnt
26
G.T.DJALILOVA, L.A.GAFUROVA
Development of new recommendations for soil erosion control in arid zones of
Uzbekistan
27
G. DJUMANIYAZOVA, S. ZAKIRYAEVA, Sh.SULTANOVA, R.ZARIPOV
New environmentally safe resource-saving biotechnology of improving the fertility of
saline soils and productivity of wheat
28
Yu.DJUMANIYAZOVA, N. IBRAGIMOV, R.SOMMER
Simulating water use and N response of winter wheat in the irrigated soil of
Khorezm
29
A.K.DOLOTBAKOV, T.К.MAMBETOV
Jerusalem artichoke (Helianthus tuberosus L.) as a new source for reclamation and
improvement of food security from waterlogged and saline soils in Chuy Valley in
Kyrgyzstan
30
B. DOSOV
Investing in land reclamations to improve agricultural productivity and rural
livelihoods in Central Asia
31
D.EŞEN, İ.BELEN
Arid lands and combating aridity in Turkey
32
H.M. EL SHAER, A. J. AL DAKHEEL
Sustainable diversity of salt tolerant fodder crop - livestock production system
through utilization of saline natural resources: a case study from Egypt
33
A.P. FACIOLA, E. MAROSTEGAN DE PAULA, L. GALORO DA SILVA, T. SHENKORU,
Y. YEH, J. BUNKERS
Nutritional evaluation of forage kochia (Kochia prostrata) as alternative forage for
cattle using a dual-flow continuous culture system
34
V.FARZALIYEV, A.AFONIN
Prediction of introduction capabilities of Pinus eldarica Medw. by using of
geographical information technology
35
H.FUGO, M.OOSAWA, M.IIKUBO, Y.KAWABATA, B.NASIRLLAEV, Sh. UMAROV
Technical cooperation project for promotion of the Silk-Road industry in
Uzbekistan
36
Z.FURUKAWA, N.YASUFUKU, K.MINE, A MARUI, R.KAMEOKA,
I.TUVSHINTOGTOKH, B. MANDAKH
Settings and geo-environmental conditions of developing greening soil materials
(GSM) for cultivating licorice (Glycyrrhiza uralensis) in Mongolian arid region
37

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Yu.GAFFOROV
Biodiversity and occurrence of the parasitic microfungi on walnut trees (Juglans
regia L.) in Western Tien-Shan
38
Z.GAFUROV, A.KARIMOV
Evapotranspiration and Land use Land cover (LULC) change analyses in Karshi
steppe, Uzbekistan for water requirement analysis
39
M.GLAZIRINA, R.SOMMER, D.TURNER, T.YULDASHEV
Crop modeling as a tool for assessment of climate change impact on crop
development and productivity
40
M.GLAZIRINA, S. R. JAT, A.KUMAWAT, R.KUMAR, V.NANGIA, V. S. RATHORE,
M.L. SONI, N. D. YADAVA
Crop modeling as a tool for improving crop and water productivity in Indira
Gandhi Canal Command Area
41
M.HASANOV, I. ERGASHE
Agrobiological features of the organization of seed farming of potatoes in Uzbekistan
42
T.HIRANO, T.TSUMURA, F.INAGAKI, Yo.KAWABATA
Project finding research on renewal of coal boilers in heat supply stations in
Kyrgyzstan
43
M.IIKUBO, Yo.KAWABATA, M.YAMADA, Sh.UMAROV, T.ARIE
Rural reconstruction through introduction of the Japanese lines of silkworm
bombyx mori l. in Fergana province in the Republic of Uzbekistan
44
M.IRIE, B.A.OULD AHMEDOU, Sh.KOMATSU
Numerical simulation of the inundation on theflood plain of Senegal River for the
improvement of the agricultural productivity in Mauritania
45
Sh.ISMAIL
Social and economic impacts of salinization – mitigation and adaptation strategies
46
Z.F.ISMAILOV, S.O.HUJJIEV, I.Z.BAKHRAMOV
Usage of certain plants for agro ecological enhancement in Mining Industry dumps
47
K.ISMOILOVA, Kh.KUSHIEV
Adaptation of wheat in the conditions of salinity
48
H.ISODA, H.CHAO, K.MURAKAMI, H.NAJJA, H.MOTOJIMA, M. O. VILLAREAL,
M.NEFFATI
Anti-allergy and melanogenesis regulatory effects of semi-arid and arid land plants
49
K.IVUSHKIN
Soil salinity assessment using Remote Sensing and GIS techniques in Syrdarya
province of Uzbekistan
50
A.JAFAROVA, T.SHIRVANI, E.ALIRZAYEVA
Evaluation of some adapted plants species in the degraded lands of Azerbaijan
51

ix
G. JIANG, Meizhen LIU, M.A. MUMINOV
Sustainable management of the restored grassland: effect of chicken farming on
environmental sustainability
52
F.KABULOVA, M.TURDIEVA
Conservation of sea-buckthorn (Hippophae rhamnoides L.) populations in the
Zarafshan river valley
53
F.KADIRKHODJAEVA
Prospects of wastewater reuse for irrigation in Uzbekistan
54
R. KAMEOKA, N.YASUFUKU, K.OMINE, A.MARUI, Z.FURUKAWA,
I.TUVSHINTOGTOK, B MANDAKH
Cultural experiment of licorice in Mongolian arid land focused on the water
condition of greening soil materials
55
E.KAN, A.KHAMZINA, J.LAMERS
Marginal lands for afforestation: Farmers’ perceptions on land degradation and
alternative land use options in Uzbekistan
56
T.KANDA, K.TAMURA, M.ASANO, WYUNNA, A.TSUNEKAWA, T.NAKAMURA
The 13C and 15N natural abundances to characterize soil organic matter associated
with clay minerals in Eurasian steppe soils
57
Yo.KAWABATA, V.APARIN, M.NAGAI, Yo.FUJII, Yo.KATAYAMA
Changes in water quality of Amudarya River and ground water in Karakalpakstan,
Uzbekistan
58
K.KAWADA, K.SUZUKI, H.SUGANUMA, A.SMAOUI, H.ISODA
Protective effects of vegetation in Chambi National Park in Tunisia
59
A.KENJAEV, Kh.KUSHIEV
Ecological remediation of abandoned saline soils using Glycyrrhiza glabra
60
A.KHALMANOV, N.ESHKABILOV
Physical methods for studying the environment object
61
D.KHAMRAEVA
Impact of saline environments on the structure of bracts and bracteoles
Climacoptera longistylosa (Chenopodiaceae)
62
G.KHASANKHANOVA, T.KHAMZINA, N.SHULGINA, R.TARYANNIKOVA
An overview of DLDD assessment technology and SLM practices for agriculture and
rural livelihoods in Uzbekistan drylands – learning from CACILM-I partnership
program
63
Kh.KHAYDAROV
Adaptive evolution of species of family Elaeagnaceae Juss
64
M.KHUJANAZAROV, F. BRUNET, J.-D. VIGNE
Reconstruction of ancient fauna and flora from Ajakagytma (Uzbekistan,
Kel’teminar, 7th-5th millennia cal BC)
65

x
M.KHUJANAZAROV
Conservation of cultural and natural heritage of Sarmishsay
66
T.KHUJANAZAROV, K.TANAKA, R.NAMURA, Y. TOUGE, Sh. TANAKA
Multi-factor objective modeling for water resources management
in Zeravshan River
67
M.KIM, J.VORONOVA
Prerequisites for using SWAP model to calculate the optimal cycle irrigation of
cotton in the delta of the Amudarya (Karakalpakstan)
68
T.KITAGAWA, K.KASHIWAGI, H.ISODA
Transformation of olive related customs and olive-growing farms in North Africa
69
T.KOJIMA, O.YOKOHAGI, H.SUGANUMA
Site selection and environmental effect evaluation of large scale plantation using arid
area run off model
70
M.KONYUSHKOVA, B.ABATUROV, M.LEBEDEVA
The regularities in the formation of solonetzic complexes in the northern part of the
Caspian Lowland
71
Y.KOVALEVSKAYA, L.SHARDAKOVA, N.VERESCHAGINA
Analysis of long-term changes mineralization of precipitation on the territory of
Uzbekistan
72
O.KOZAN
The interaction between land use and regional climate in Central Asia
73
P.KRASILNIKOV
Eurasian Soil Partnership: challenges for action
74
A.E. KUCHBOEV, J.KRUCKEN, R.R.KARIMOVA,B.K. RUZIEV,
G.von SAMSON-HIMMELSTJERNA
Molecular identification of species of the family Protostrongylidae from Caprinae in
Uzbekistan
75
T.KULIEV, B.ADILOV
Haloaccumulation effect and salt tolerance of pearl millet introduced firstly on salt
affected soils in Syrdarya River basin
76
B.KUSHIMOV
Mechanization preseeding preparation seeds for improvement of deserted pastures
77
M.LEBEDEVA, E.SHUYSKAYA, K.TODERICH, N.AKINSHINA, A.SAFAROVA
Diversity of soils chemistry under Tamarix-stands on marginal lands and its
feasibility for biomass energy production in the downstream of Amudarya River
region
78

xi
W.LIU
Plant diversity and management practice of traditional Uygur home-garden in arid
area of Xinjiang, China
79
T.MAKI, O.MORITA, Yo.SUZUKI, K.NISHIYAMA, K.WAKIMIZU
Application of artificial rainfall by the aircraft seeding of liquid carbon dioxide for
utilization of water resources and prevention of desertification
80
I.MASSINO, A.MASSINO, K.TODERICH, F.BOBOEV, К.AZIZOV
Nutritional value of forage biomass of sorghum and pearl millet under dry climatic
condition of Uzbekistan
81
Sh.MATSUI, M.TERASHIMA, H.YASUI, K.TODERICH, N.AKINSHINA
A feasibility study on the anaerobic fermentation of salt-accumulating plants after
phyto-remediation of arid land in Uzbekistan
82
R.MISAK
Managing human and natural threats to the productive soils in Kuwait, the case of
Al Wafra Agricultural Area, southern part of Kuwait
83
M.MIYAKE, H.FUJIMAKI, H.SAITO
Evaluation of an artificial capillary barrier as a means to control infiltration and
capillary rise to improve root zone condition
84
B.MOHR
Prospects for payment for ecosystem services in the context of integrated pest
management of the Baluchistan melon fly in arid and semi-arid regions of Central
Asia
85
T.MORIO
Contribution to business human resource development in Africa: new challenge for
Japanese Universities
87
N.MUKHAMEDOVA, K.WEGERICH
The rising challenge of water resources management at the urban fringes – evidence
from Ferghana District of Uzbekistan
88
M.MUMINOV, M.NOSIROV, T.MUKIMOV, G. JIANG
Monitoring and assessment of land desertification in Aktau semi-arid rangelands
using remote sensing and geographical information systems
89
O.MYACHINA, A.ALIEV, R. KIM
Activity of extracellular enzymes hydrolyzing the carbohydrate in irrigated soil
90
G.M.NABIEVA, L.GAFUROVA, А.ASADOV
Some aspects of bioindication of the degraded soils of pastures of the Nurata district,
Navoiy region
91
I.DAMMAK, M.NAKAJIMA, S.SAYADI and H.ISODA
Integrated membrane system for polyphenols recovery from olive mill water
93

xii
A.NAKASHIMA1, Yo.KODO, K.MATSUMURA, I.YISHIMORI, N.MATSUO, H.NAWATA,
K.YOSHIKAWA, A. K. GAIBALLA
Effects of camel browsing on the growth of Avicennia marina (Forssk.) Vierh. in
coastal dry climate mangroves
94
R. NAMURA, K.TANAKA, Sh.TANAKA, Yo.TOUGE, T.KHUJANAZAROV
Projection of the impact of climate change on irrigation water requirement in the
downstream of Zeravshan River
95
K. NARBAEVA, A.BABINA
New bioagrotechnology of cultivating cotton plant on saline and arid lands
96
M.NASYROV, A.SAFAROV, S. van PELT, A.XOLIKULOV, Sh.XUSHMURODOV,
T.MUMINOV
Soil erosion and sedimentation studies at south-western spurs of Zarafshan Range
using gamma-spectrometric technique
97
H. NAWATA
How does Japanese people image and understand deserts: Based on questionnaire
survey results at National Museum of Nature and Science, Tokyo
98
G.NEKUSHOEVA, H.AHMADOV
Desertification and knowledge management for sustainable land management in
Tajikistan
99
M. NEPESOV
Measures for improvement of rangelands productivity in the Karakum desert under
ongoing climate change conditions
100
E.NIKITINA, M.TURG’UNOV
Introduction and micropropagation of some Juno species and their preservation in
vitro collection
101
M.NOSIROV, A.RAKHMATULLAEV, O. ODILOVA
Desertification in foothill territories of Uzbekistan and the measures to combat it
using alternative sources of energy (in case of Nurata mountains)
102
R. S. NOWAK, A. DE SOYZA
Litter production as a proxy for aboveground productivity under elevated
atmospheric CO2 at the Nevada Desert FACE Facility
103
N.NURGALIYEV, S.UMIRZAKOV, I.TAUTENOV
Effective use of the salted lands of rice systems of Kazakh Priaralya
104
K.OGUMA, K.TAMURA, T.KAMIJO, K.KAWADA,U. JAMSRAN
Characteristics of soil under the forest steppe in Mongolia
105
Yu. OKUDA, J. ONISHI, K.OMORI, T. OYA, A. FUKUO, R.KURVANTAEV,
Yu.SHIROKOVA, V.NASONOV
Current status and problems of drainage system in Uzbekistan
106

xiii
S.ONWONA-AGYEMAN, F.MITSUTOSHI, Y.KAWABATA, M.YAMAD, M. TANAHASHI
Compressed biomass as mulches in no-till farming
107
T.ORTIKOV
Content of soil organic matter in various soils of Zerafshan valley in Uzbekistan and
its agrotechnological efficiency
108
A. B.OULD AHMEDOU, A. S. MOHAME, M.IRIE
Groundwater recharge and salinity problem in south-western Mauritania
109
T.OYA, SAURETI, ERZATI, A.UEHARA
Effects of rhizobium inoculation on nodulation and yield of soybean in the arid area
of China
110
M. ÖZTÜRK, V.ALTAY, Z. SEVEROĞLU, S. GÜCEL, A.AKSOY
Plant diversity of the drylands in upper Mesopoptamia (Turkiye) and their role in
food security
111
A.PARIKH
Inter-country comparison of food security schemes: lessons learnt
112
B.PERRYMAN, M.DURIKOV, P.ESENOV, R.NOWAK
Chenopod cultivation increases the forage base for domestic grazing animals in
Turkmenistan
113
A.PLATONOV, M.IBRAKHIMOV
Using satellite images for multi-annual soil salinity mapping in the irrigated areas of
Syrdarya province, Uzbekistan
114
V.POPOVA, N.BOBOKULOV, K.TODERICH, Sh.ISMAIL, B.RAFIEV
Sorghum and pearl millet for crop diversification and improving livestock feeding
system in Central Asia
115
Kh.QASIMOVA, V.FARZALIYEV, V.ALI-ZADE
Potential of some plants for phytorehabilitation of marginal lands of Kur-Araz
lowland
116
T.RAJABOV, B.MARDONOV, M.NOSIROV
Integration of grazing gradient concept and remote sensing to detect rangeland
degradation in Uzbekistan
117
Z.RAKHMANKULOVA, E.SHUYSKAYA, A.SHERBAKOV, V.FEDYAEV,
G.BIKTIMEROVA, I.USMANOV
Role of the flavonoids in salt tolerance of Chenopodiaceae halophytes growing in
semi-arid zones of South Urals
118
A.RAMAZANOV, V.NASONOV
Regulating water-salt regime of irrigated soils under water short conditions
119
S.Sh.RASHIDOVA, D.K.RASHIDOVA, V.N.SHPILEVSKIY
Use of ecologically pure polymer preparations for cotton sowing in arid region of
Uzbekistan
120

xiv
R.RASULOV, A.MAHMATMURADOV, T.GOZIEV, N.NISHONOV
The role of weed plants in reduction of the grain harvest in irrigated lands of
Samarkand area
121
I. RUDENKO, B. RUZMETOV, M.SOLIKHOV
Strategies of the rural population in Uzbekistan towards improving livelihoods and
coping with degradation of land and water resources
122
H.SAITO, D. Q. THUYET, Y. KOHGO
Numerical evaluation of alternative ground source heat exchanger configuration and
operation
123
L.SAITO, T.DERUYTER, R.NOWAK, M.ROSEN, C.ROSSI, K.TODERICH
Modeling halophytic plants for sustainable agriculture and water resources
124
R.SAITO
Sustainable water management in Central Asia and the role of foreign donors: сase
study of JICA’s “Water management improvement project” in Uzbekistan
125
Y.SAKAI, H.MURATA, C.EBATO, D.LIU, Ch.WANG, H.NAGAMOTO, M.SADAKATA
Salt-affected soil amelioration with low-quality coalbio-briquette ash in northeastern
China
126
Kh.V. SALIMOV, N.Т. RUSTAMOV
Registered representatives of flora and fauna of Kyzylkum reserve
127
B.SCHULTZ, K.MCADOO, B.PERRYMAN, S.FOSTER, J.DAVISON
Nevada (USA) range management school – adapting an American, grazing
management curriculum, to other continents
128
K.SHALPYKOV
The ecology of halophytes of the Issyk-Kul region in Kyrgyz Republic
129
N.SHARAFUTDINOVA, G.PALUASHOVA, Yu.SHIROKOVA
Experience on control of matrix and osmotic soil moisture potential under
conditions of saline soils of Uzbekistan
130
G.SHARAN, A.K.ROY
Production of high quality potable water for sale from atmospheric moisture in
coastal areas of semi-arid north-west India
131
L.SHARDAKOVA, Yu.KOVALEVSKAYA, N.VERESCHAGINA, L.ORLOVSKY
Investigation of salt and dust transfer processes using passive dust traps in
Uzbekistan
132
M.SHAUMAROV, R.BIRNER, K.TODERICH
Institutional transition for sustainable management of dryland pastoral systems in
Uzbekistan
133

xv
T.SHENKORU, A.FACIOLA, B.SCHULTZ, B.PERRYMAN
Frothy bloat potential (primary ruminal tympany) and nutrient content of Forage
Kochia (Bassia prostrata L.)
134
S.G.SHERIMBETOV
Preliminary results of chemical analysis of the soil of dry seafloor of the Aral Sea
135
S.SHERIMBETOV
Salt-accumulating indicator plants on the dry seafloor of the Aral Sea
136
M.SHINTAKE, M.IRIE
Dam gate operation for turbid flood water venting in the reservoir in Tunisia
137
A.SHIOYA
Water conflict resolution in rural Central Asia: a historical perspective
138
Yu.SHIROKOVA, G.PALUASHOVA
Impact of reduced water supply for irrigation in dry years on hydrogeological
measures and soil salinization in the lower reaches of the Amudarya River
139
E.SHUYSKAYA, K.TODERICH
Genetic basis for the reintroduction of Haloxylon aphyllum (Chenopodiaceae) on
degraded pasturelands in Kyzylkum desert
140
U.ULYUMDZHIEV, M.KONYUSHKOVA, A.SOROKIN
Spatial distribution of salts in Solonetz complexes of arid zone of the Caspian, using
field data and remote spectral data
141
V.SQUIRES, H. el SHAER
Halophytic and Salt Tolerant Feedstuffs and livestock performance
142
N.SULAYMONOVA, O.BABUSHKIN, N.MAMAZHONOV
The availability of moisture as the indicator of pastures productivity of Kyzylkum
desert
143
Sh.SULAYMONOV, Y.GAFFOROV
Some data on wood decay fungi in Zarafshan Reserve of Uzbekistan
144
B.SULTONOV, Sh.NAMAZOV, B.ZAKIROV
Productive improvement of soil by the application of phosphoric fertilizers
145
M.SUSKA-MALAWSKA, M.METRAK, M.WILK,M.SULWINSKI, E.ROJAN
Response of wetland ecosystem developing to climate changes in the cold alpine and
dessert biomes of east Pamir region: a pilot study of multi proxy analysis
146
S.TAGA, M.IRIE
Production of water filter from reservoir sediment in Tunisia
147
F. K. TAHA
Restoration for ecological functioning of degraded terrestrial ecosystems: case
example from Kuwait
148

xvi
D.TAJETDINOVA, Q.KAIPOV, G.BEGDULLAEVA
New records for north-west Kyzylkum
149
D.TAJETDINOVA
The chemical elements of species of the genus Artemisia L. of Ustyurt
150
K.TANAKA, Sh.KOTSUKI
Projection of future change in aridity index and evaporation ratio in the arid and
semi-arid region
151
Yu.TASHPULATOV
Seasonal development of indicator-saprob in the middle flow of the Zarafshan River
152
Z.TILLYAKHODJAEVA
Risk assessment of health of the population relating to the pollution of
the environment
153
K.TODERICH, T.KHUJANAZAROV, E.SHUYSKAYA , Yo.TOUGE,
Crops diversification and agricultural use of marginal water adaptation measures to
climate change
154
Yo.TOUGE, K.TANAKA, K.TODERICH, T.KHUJANAZAROV , E.NAKAKITA
Developing water circulation model in the Aral Sea basin based on in situ
measurement in irrigated area
155
H.TOYODA, S.SHIMADA,T.HIROKANE, A.SEKIYAMA, F. A.MALOW, T.HOTTA,
M.MENJO, Sh.SUZUKI, F.WATANABE
Soil and hydrological survey for retrieving the characteristics of surface runoff on
Kourtimalei reservoir watershed in Djibouti
156
J. TUROK; B.DOSOV, T.ABDURAKHMANOV, C.CARLI, A.KARIMOV, M.GLAZIRINA,
M. R. JUNNA, R. MAVLYANOVA, Sh. MUKHAMEDJANOV, R.C. SHARMA,
K.TODERICH, M.TURDIEVA, K.WEGERICH
Integrated research approaches to increase resilience and improve well-being:
launching the CGIAR Research Program on Dryland Systems in Central Asia
157
A.UEHARA, E.AYUSH, O.GANBAATAR, S.YAMASAKI
Comparison of grazing behavior of sheep between different herders in steppe region
of Mongolia
158
S.USMANOV, Ya.MITANI, T.KUSUDA
Evaluation of interpolation methods for spatial modeling of reference
evapotranspiration using modified Hargreaves equation
159
P.VORONIN, E.SHUYSKAYA, K.TODERICH, T.RAJABOV, N.MATSUO
The spatial distribution of C4 chenopods of Kyzylkum Desert flora along a salinity
and relief gradients
160
H.WYES, N.MUSTAEVA
A methodology to assess the carbon sequestration potential of semiarid regions in
Central Asia
161

xvii
M.YAMADA, Yo.KAWABATA,M.OSAWA, M.IIKUBO, V.APARIN
Transfer and localization of sericulture technology for redeveloping silk industry in
Central Asia - an integrated effort of research, education and extension by Tokyo
University of Agriculture and Technology
163
I.YAMNOVA, D.GOLOVANOV
Soil salinity and gypsum content in soils of piedmont plain of Turkestan ridge
(Uzbekistan)
164
H. YASUDA, R. BERNDTSSON, N. BANZRAGCH, T. KAWAI, A.KAWAMURA,
M. SHINODA
Teleconnection of rainfall in inland Mongolia with global sea surface temperature
165
O.YAVUZ
National action plan on afforestation mobilisation in Turkey
166
O.YAVUZ
International training on land degradation in Turkey
167
O.YILDIZ, E. ALTUNDAĞ, B. ÇETİN, Ş. T. GÜNER, İ.GURSOY, M.SARGINCI,
B.TOPRAK, Ö.MUTLU
Preliminary results of experimental arid land afforestation in the Central Anatolia
region of Turkey
168
K.YODA, R.MIYAWAKI, T.SAITO, M.ELBASIT, A.ELDOMA, T.INOUE, H.NAWATA,
H.YASUDA, W.TUJI
Evaluation of the ecological role of seed gum in the germination of Prosopis under
drought stress conditions
169
D.YORMATOVA
Adaptation of soybean in the condition of continental climate of Uzbekistan
170
K.YOSHIKAWA, I.YOSHIMORI, A.ISHIHARA
Genetic diversity of Gray Mangrove (Avicennia marina (Forssk.) Vierh.) growing on
the Red Sea Coast
171
L. A. YOUSIF, E. H. BABIKER
Conservation agriculture: a sustainable system to improve sorghum yield in rainfed
areas Southern Gedarif State, Sudan
172
Z.S.SULTANOVA, E.P.SADIKOV, D.UTAMBETOV
Development and introduction of resource-saving technologies of winter wheat
cultivation in the conditions of the Republic of Karakalpakstan
173
B.WIŁKOMIRSKI, M.BRZEZIŃSKI, M.SUSKA-MALAWSKA
Aydarkul Arnasay Lake System (AALS) – ecological disaster or a new paradise
174
R.ZHAPAYEV, K.ISKANDAROVA, K.TODERICH, D.ANDYBAYEV,
A.J. AL-DAKHEEL, S.ISMAIL, S. R. PINNAMANENI, I.PARAMONOVA,
N. NEKRASOVA, D.BALPANOV, O.TEN, M.KARABAYEV
Sweet Sorghum in the North Kazakhstan
175

xviii
M. LEBEDEVA, N.CHIZHIKOVA
Mineralogical and micromorphological investigations of the salt accumulations in
Solonchak of Uzbekistan
176
B. A. KAMALOV, S. T. ABDURAHMANOV
About growing of vegetables in arid conditions without irrigation
177
Ye.I. PANKOVA
Anthropogenic desertification and remote monitoring over the salinity of irrigated
soils within the cotton-growing zone
178

1
Impact of climate change on water infrastructure in Central Asia
Iskandar ABDULLAEV 1*), Shavkat RAKHMATULLAEV2)
Author affiliations:
1) The Regional Environment Centre for Central Asia (CAREC)
2) United State Agency for International Development (USAID)
Contact details:
E-mail: iabdullaev@carec.kz
Abstract
The paper discusses impacts on irrigation management infrastructure capacities (from legal, institutional and
technological contexts) in arid Central Asia due to climate change projections. Water supply will be challenged
by demographics, hydrological alterations and environmental impacts. Two types of technical installations are
the main focus of this paper, i.e., electrical pump-lifted irrigation systems and man-made water reservoirs. In
Central Asia, approximately, 20-50% of irrigation water is power-lifted, yet the majority of pumped-lifted
structures are in very poor technical conditions coupled with ever increasing of electricity tariffs. Furthermore,
useful volume capacities of water reservoirs are being severely diminished due to bio-physical processes,
improper operational regimes and chronic financing for maintenance. Irrigation sector should internalize its
adaptation and mitigation efforts, i.e., integration of renewable energy technologies, energy audit programs and
lastly design comprehensive investment prioritization processes and programs. Otherwise, irrigation sector will
be at great risk for continued provision of fundamental services to the sustainable socio-economic development
of the region and its countries.
Climate change may disrupt/impact operation and maintenance of the hydraulic infrastructures. The
methodology for such an assessment is not developed or not fully applied in Central Asia context. To the best
knowledge of the authors, specific thematically wise assessment on pump-lifted irrigation and water reservoirs
of the Central Asian region in the light of potential climate change impacts have not been conducted. In order to
close this gap, this paper attempts to analyze legal, institutional and technical aspects of the impact of climate
change on operation and maintenance of two types of hydraulic infrastructure: (i) pump-lifted irrigation systems
and (ii) man-made water reservoirs.
The pump-lifted irrigation systems are strategic for delivering water to water users via pumps, diversion
structures, vertical drainage facilities and groundwater boreholes. The water reservoirs are storage facilities for
seasonal accumulation of water and supplying it to irrigation, generation of hydropower, recreation, industrial
and environment considerations.
The first objective of this paper is to briefly outline main transformation stages of water resources governance
and management in Central Asia in the process of sovereign state-building process in particular paying attention
to the ownership of such infrastructure. The second objective is to highlight important aspects related to
development of climate change policies in the region related to water matters. The next objective is to
comprehensively discuss institutional, legal and technical aspects most applicable to Central Asian context
related to two sets of hydraulic infrastructure, i.e., pump-lifted irrigation and water reservoirs. The last
objective to provide systematic analysis of climate change adaptation measures in the region.
Key words: water governance; climate change policy; irrigation infrastructure; Central Asia

2
Biometrical indexes of the Tulipa michaeliana Hoog in different cenopopulations
Ozodbek ABDURAIMOV *, Habibullo SHOMURODOV
Author affiliations:
Institute of the Gene Pool of Plants and Animals, Uzbek Academy of Sciences, Uzbekistan
Contact details:
E-mail: ozodbek88@bk.ru
Abstract
Central Asia is the centre of the origin and base of the aspectual variety of tulip species. Twenty nine different
tulips species and one subspecies grow in the desert and mountain landscapes of Uzbekistan.
One of them is Tulipa michaeliana Hoog. T. michaeliana is included in the Red Data Book of Uzbekistan.
T. michaeliana was identified in 1902 by Hoog at the behind of Caspian Sea under cultural samples and its
homeland was not shown at that time. This species is considered as sparse and it grows on the stony or clayey
slopes.
Four cenopopulations (CP) were studied in the sphere of biometrical indexes of the T. michaeliana.
The first CP is isolated from Baliqlitau mountain range (N 40' 19.208' E 067'38.457', h-523) and this area 20
plant species are registered. The second CP is around of Kokchatau mountain range (N 40'31.822' E
065'02.387', h-469) and 23 plant species are registered. The third CP is Djizzak province through Dashtobod-
Sarmich way (N 39'59.175' E 068'49.621', h-773), 14 plant species are registered. The fourth CP is recorded in
the surroundings of villages of Sarmich (N 39'52.475' E 068' 52.105', h-1130).
In each coenopopulation, T .michaeliana species was observed to develop four leaves. Those leaves are also
marked with violet spots. Flower solitary, bright red to dark crimson, very large, finely shaped, resembling
Tulipa greigi Regel, but differing clearly from the latter by the crimson color range and the conspicuous
wedge-shaped, light margined black blotch on the outside of the inner petals; scentless. T. michealiana blooms
in March-April and bears fruit in May.
The highest indexes of leaves were observed only in the IV CP in all studied territories and leaves were up to
197.7±8.09 mm long and 60.2±7.81 mm broad. The less indexes were identified in the II CP, their leaves are
up to 132±3.23 mm long and 31.4±0.74 mm broad. Among the plant’s stalk longs were studied. According this
research, the highest indexes showed in the IV CP (174.5±10.16 mm). The minimum indexes about stems was
T. michaeliana in the II CP (99.9±3.94 mm). This indexes were 135.8 mm in the I CP and 142.2±10.6 mm in
the III CP. Plant bulb showed 46.6±1.33 mm, weight of species was 62.2±5.13 g and reproduction effort (RE)
constituted 18.55 %. The RE was 22.17 % in the I CP, 24.8 % was in the IV CP.
The highest biometrical indexes of the T. michaeliana were registered in III and IV CPs in all tested CPs. This
situation depends on the soil fertility and characterized them to grow in adyrs. Geographical coordinates in all
studied CPs play important role in the future monitoring.
Key words. Tulipa michaeliana; cenopopulation; biometrical; weight of species

3
Regulation of biotic and abiotic factors of growth and wheat development
Nodira ABLAKULOVA, Khabibjon KUSHIEV
Author affiliations:
Gulistan State University, Uzbekistan
Contact details:
E-mail: kushiev@mail.ru
Abstract
The increase of stability of plants at growth and development stages to external stressful factors is one of the
major problems of modern biology. Thus, the essence of the carried out investigations consist on interrelation
definition between stability and ontogenetic development of plants. One of the main objectives of certain
investigations is to reveal of new physiologically active substances possessing biostimulating properties and
connected with increase of efficiency of plants.
Nowadays there are different considerable quantity of the chemical preparations used or carried out in
agriculture (stimulators, herbicides, retardants and others). It is known, that in the past few years preparations
of the steroid nature, capable to regulate physiological processes of growth and development of plants have
been used. Besides, on the basis of the studied research it was revealed, that a very small doses of these
substances stimulate growth and development of plants, raise their stability to stressful factors and promote
increase of productivity of plants. However, such investigations on wheat are carried out very little. Besides,
the questions and problems connected with studying the value of natural and synthetic physiologically active
substances in increasing of stability of plants, including wheat, to biotic and abiotic factors, in the conditions of
Uzbekistan are studied very little.
The purpose of the study: creation and working out technologies of stimulators of the growth of wheat from
the local raw materials possessing fungitoxic properties and revealing synergists from the synthesised five-
valency phosphorus for insecticides used against wheat crops pests.
On the basis of the results of investigation peculiarities of complexes glyccerizin acid of licorice as stimulation
of growth and development of wheat and effective influence on fungi diseases, it was created a new
experimental preparation– stimulator of growth and development of wheat and effective prophylactic
preparation against fungi diseases in the conditions of Uzbekistan.
In the result of extension of the preparation in the conditions of salinity, inoculation of fungi, in shoots of
wheat, it was revealed that increase of quantity of phenol connections and established one of the mechanisms
and their influence on growth and development of rust.
It was revealed that the action of preparation on wheat sorts infected with yellow rust is effective at present in
the production such as Tilt, Baileton and Titul.
New data received on the basis of studying of biostimulating properties of glyccirizine acid salts, is a basis
for the creation of new generations of growth factors of wheat possessing phytohormonal activities. New
preparation which was created on the basis of glyccirizine acid is recommended as a preparation stimulating
growth and development of wheat and protecting from fungoid diseases.
Key words: growth stimulators; fungy deseases; glyccirizine acid; wheat production; Syrdarya Basin,
Uzbekistan

4
Control of soil erosion of agricultural land in Jordan with polyacrylamide
Majed ABU-ZREIG
Author affiliations:
Department of Water and Environmental Engineering, German-Jordanian University
Contact details:
E-mail: drmajedo@gmail.com
Address: P.O.Box 3030, Amman, Jordan.
Abstract
Two types of polyacrylamide were used to test their influence on soil erosion and runoff of sloping land in
Jordan under natural rainfall conditions. The two PAM used in this study, commercially named as A836 and
A870, have different molecular weight ranging qualitatively from high to low and surface charge from 20% to
70%, respectively. Fourteen field plots with 2 m wide by 10 m long having a slope of 11% were constructed in
the field. A runoff collection barrels were installed at the end of plots to monitor the amount of runoff and
sediment loss after each storm. The PAMs were applied at 2 application rates of 10 and 30 kg/ha plus a control.
Experimental results showed that Both types of PAM caused large reduction in soil loss with an average value
of 22% compared to control and 70% compared to compacted plots. Application of A836 reduced runoff and
sediment loss by 23% and 35%, respectively compared to control. The corresponding average decreases in
runoff and soil loss for A870 were lower at 16% and 8%, respectively. Differences in runoff among PAM
treated plots at 10 and 30 kg/ha were negligible but soil loss was slightly lower in the 30 kg/ha PAM treated
plots.
Key words: PAM; field plots; soil loss; moisture conservation

5
Restoration and conservation of Artemisia grassland of Central Kyzylkum desert
B.A. ADILOV*, T.RAKHIMOVA, N.K. RAKHIMOVA
Author affiliations:
Institute of Gene pool of plants and animals, Uzbek Academy of Science, Uzbekistan
Contact details:
E-mail: bekhzod_a@mail.ru
Abstract
As a result of geo-botanical studies in different soil conditions we have identified four pasture varieties
involving three species of Artemisia L. – Artemisia diffusa, A. turanica and A. juncea – common fodder plants
in Central Kyzylkum.
Mixgraseta-iriseta-artemisieta diffusae, turanicae pasture variety formed in gray-brown soils in the south-
eastern part of Kukchatau; ephemereta-artemisieta diffusae, turanicae, junceae variety prevalent in gray-
brown stony gravelly soils in southern part of Kukchatau; ephemereta-ephemerideta-artemisieta diffusae,
turanicae variety is found in the northern and north-eastern parts of Kukchatau in gray-brown soils. The town-
village “Zafarobod” located not far from these pasture varieties – in the southern foothills of Kukchatau. On 25
km west of the village on sandy soils ephemereta-artemisieta-calligonumeta leucocladumae, microcarpae
pasture variety had been formed.
The performance of save and real loads all Artemisia grassland variety had been studied.
The results shows that the save load index (SLI) Artemisia grassland below the spring and is constantly
increasing to autumn at all pasture varieties. The lowest figure recorded SLI primarily in ephemereta-
artemisieta diffusae, turanicae, junceae (average seasonal livestock 0.6 per 1 ha) and mixgraseta-iriseta-
artemisieta diffusae, turanicae (0.9) and ephemereta-ephemerideta -artemisieta diffusae, turanicae (0.9)
pasture varieties. SLI up ephemereta-artemisieta-calligonumeta leucocladumae, microcarpae (1.2) with the
participation of Artemisia diffusa, formed on sandy soils.
Real load index (RLI) test results of Artemisia grassland in Central Kyzylkum confirmed the action of
anthropogenic factors on vegetation, as near settlements defined inexpedient of hold transhumance. In
particular, the rate of RLI above the permissible of pasture variety, which is located, closes to the village. It
was noted in ephemereta-artemisieta diffusae, turanicae, junceae (average seasonal livestock 1.2 per 1 ha) and
mixgraseta-iriseta-artemisieta diffusae, turanicae (1.3) and ephemereta-ephemerideta-artemisieta diffusae,
turanicae (1.3) pasture varieties. Especially on ephemereta-artemisieta diffusae, turanicae, junceae pasture
variety RLI is 2-3 times more of the permitted and it shows excessive overgrazing of vegetation in the region.
Only in sandy soils – ephemereta-artemisieta-calligonumeta leucocladumae, microcarpae, which is located far
away from the village, the RLI not exceed value was marked (1).
High index of RLI in Artemisia grassland of Central Kyzylkum is one of the reasons for the formation of
smaller biomass of Artemisia grasslands in the pasture variety. It is demonstrates the plant digression of
studied area.
Key words: antropogenic loads; Artemisia grassland; geobotany; Central Kyzylkum; Uzbekistan

6
Soil salinization in Tajikistan: modern status and methods for prevention
Hukmatullo AHMADOV
Author affiliation:
Soil Sciences Institute, Dushanbe
Contact details:
E-mail: ahmadov@yandex.ru
Address: Dushanbe, 734025, Rudaki avn, 21а
Abstract
Salinization of soils is a typical phenomenon and the major problem of irrigated agriculture under continental
dry climatic condition of Tajikistan. More than 15% of irrigated lands of Tajikistan are saline. It is a
significant damage for the country with small land area (there are only 0,11ha of irrigated lands per head in
Tajikistan).
According to the data of large-scale soil inspection of irrigated territory it was revealed that the territory with
low level of ground waters (less than 2.0 m with mineralization more than 2 g/l) in the summer-autumn period
is increased twice in comparison with the winter-spring period. It usually increases from 70-75 thousands ha in
early spring season up to 140-150 thousands ha in autumn respectively. Because of soil salinization Tajikistan
annually loses 100 thousand tons of cotton-fiber and a lot of other agricultural productions, raw materials; the
grade and quality of agricultural goods have been being decreased. The main causes of soil salinity in the
irrigated zones of Tajikistan increasing from foothill toward the plains are both natural and anthropogenical
factors.
Water-salt balance of the majority irrigated areas in Tajikistan had been changed in result of big-scale works
on hydromelioratory construction were made in 60-70th years.
In this respect Vakhsh valley is a classical example, it became a global standard on soils salinization process.
Today the total area covered by drainage is about 310 thousands ha, including 86.8 by closed and 52.8
thousand ha by vertical drainage. The extent of a collector-drainage network has been increased to 11.4
thousands km. However, anthropogenic transformation of natural massifs in complex with expansion of
irrigation on foothill and dynamical changes of natural-economic systems, radical alterations of water- and
land tenure require a new comprehension of formation and regulation of ecological and ameliorative measures.
Therefore the development of innovative technologies on improvement of irrigated agriculture practices is
crucially needed.
Key words: Salinity extend; drainage system; hydroameliorative measures; biosaline technologies, Tajikistan

7
Salinization of irrigated soils of the Aral Sea basin and its environmental
and socio-economic impacts
Ivan AIDAROV1), Evgenia PANKOVA2)
Author affiliations:
1) The Russian Academy of Agricultural Sciences
2) V.V. Dokuchaev Soil Science Institute
Contact details:
E-mail: m_verba@mail.ru
Abstract
This paper is focused on the discussion of the main reasons of environmental degradation in Central Asia and
suggests the possible ways of the transition to the sustainable development of this region. In the beginning of
the twentieth century, the wide development of irrigation in Central Asia was based on the concept of the
radical changes in hydrogeological, geochemical and soil conditions. This concept predetermined the extensive
transformation of automorphic hydrological regime of soils to hydromorphic regime and led to the belief that
salinization of irrigated lands was an inevitable result. The consequences of such strategy in irrigation
development were secondary salinization of irrigated lands and low effectiveness of the use of water and land
resources. At present, the per capita reserves of water resources in the countries of Central Asia are 2300 m3
that is much higher than those in India, Egypt, Syria and the countries of Middle East (800-1900 m3) where the
problem of water supply is not so serious if compared with Central Asia. Thus, the problem with water
resources in Central Asia mainly results from extremely inefficient use of water and not from its deficit. The
effectiveness of agricultural water use in Central Asia is 4-5 times lower than that in the developed countries.
The per capita area of irrigated land in Central Asia is 0.15 ha that is several times higher than that in the world
(0.035 ha). The data given in the paper allowed us to conclude that the countries in Central Asia have reserves
of fresh water sufficient for the solution of environmental, social and economic problems. The trouble is that
since independence during the last 20 years no efforts were undertaken to improve water economics and to
achieve the sustainable use of natural resources. As it was found out, drainage if used in combination with the
re-use of saline drainage water for irrigation, even under percolative regime, restricts the positive effect of
drainage and even becomes the main factor of ecological, social and economic crisis in the region. The closed
water and salt cycles at the irrigated lands result in the deterioration of surface water quality, progressive
salinization and decrease in fertility and productivity of irrigated soils. In this paper we suggest a possible
ways of the transition to the sustainable development using the modern concepts of environmental systems
functioning and relationship between environmental and socioeconomic factors. The empirical relationships
used for the assessment of such parameters as permissible anthropogenic loads on natural ecosystems,
ecological harm to the environments, environmentally adapted gross domestic product and standards of well-
being are given in this paper. A real opportunity of enhancement of environmental, social and economic
conditions up to the level providing for sustainable development of the countries in Central Asia is described
in this paper. The actions ensuring for the transition to the sustainable development include: termination of the
re-use of saline drainage water for irrigation, reconstruction of existing irrigation systems so that its
performance reaches 85%, the use of sprinkling and drip irrigation. The implementation of those actions can
lead to the increase in the production of raw materials and crops by several times as well as to recover the
environmental framework by 30-40%, including the river valleys and deltas. The level of the Aral Sea can rise
by 19-20 m and the area of the sea can reach 5-5.5 million ha. The decrease in the areas of irrigated lands
down to 4 million ha (0.074 ha per capita) and inadmissibility of the use of the saved water for the extension of
irrigated areas are the compulsory conditions for the effectiveness of the suggested measures.
Key words: anthropogenic loads; water re-use; saline soils; socio-economic impact; Aral Sea Basin

8
Ontogenetic structure of the cenopopulation of Lagochilus vvedenskyi R. Kam et Zucker
(Lamiaceae) in Kyzylkum (Uzbekistan)
Akbar AKHMEDOV*, Saida BASHIROVA
Author affiliation:
Department of Biology, Faculty of Natural Science, Samarkand State University
Contact details:
E-mail: rakbar@rambler.ru
Address: 15, University boulevard, Samarkand, 140104, Uzbekistan
Phone: +99891150284
Fax: +998662311586
Abstract
Lagochilus vvedenskyi (Lamiaceae Lindl. family) – semi-low shrub up to 20-25 cm high. It is narrow-local
endemic of Kyzyl-Kum inselbergs. It is entered into the Red List of the Republic of Uzbekistan with the status
2.
The aim of this work is studying of the cenopopulation structure of this species in the residual mountains of
Kyzylkum. Ontogenesis of a species is described as a part of ephemeroid-wormwood community in the
Sultonbibi region of central part Kuldzhuktau. The structure of the cenopopulation have studied by method of
laydown the transects. Transects 10 m length laydown along a slope, they shared on platforms on 1m2. In each
cenopopulation are put from 10 to 15 platforms on 1m2. At the characteristic of population structure relied on
ideas of a distinctive ontogenetic spectrum. The construction of ontogenetic spectrums was carried out by the
technique posed in work. The cenopopulations also were characterized on classification and "delta omega",
with use of the following demographic indicators: effective ecological density. Geobotanical descriptions are
executed by a standard technique on platforms of 100 m². The structure of cenopopulations (CP) of Lagochilus
vvedenskyi was studied in options of the petrophyte and gravelly-earthly matter gray-brown soils. The first
cenopopulation of L. vvedenskyi meets in structure of ephemeroid-wormwood (Artemisia diffusa, Artemisia
turanica, Poa bulbosa, Carex physodes), the second CP in the grassy-saltwort-wormwood (Artemisia diffusa,
Artemisia turanica, Salsola arbuscula, Scorsonera gageoides, Ferula foetida, Alhagi pseudalhagi) and the
third in ephemeral-wormwood communities (Artemisia diffusa, Ferula foetida, Tulipa lehmaniana,
Delphinium camptocarpum, Roemeria hybrida). The general projective covering of herbage fluctuated from 15
to 35%.
Key words: cenopopulation; Lagochilus vvedenskyi; ontogenetic spectrums

9
Salt-tolerant plants for soil salinity control, sustainable fodder and bioenergy production in
Central Kyzylkum
Natalya AKINSHINA1*), Kristina TODERICH1), Natalya VERESHAGINA2)and
Bakhriddin NISHONOV2)
Author affiliations:
1) International Center for Biosaline Agriculture (ICBA), Tashkent, Uzbekistan
2) Hydrometeorological Research Institute ( NIGMI) Tashkent, Uzbekistan
Contact details:
E-mail: n.akinshina@biosaline.org.ae
Address: P.O.Box 4375 Tashkent, 100000, Uzbekistan
Phone: +998712372130
Fax: +998711207125
Abstract
Currently observed expansion of salt-affected areas provokes profound concern by loss of the land
productivity. Actually the future of agricultural production will depend on capability to grow plants in saline
environment with low quality lands and mineralized water. Salt-tolerant plants like Salsola sclerantha,
Climacoptera lanata, Climacoptera brachiata, Suaeda paradoxa, Kochia scoparia, alfalfa, Glycyrrhiza
glabra, Atriplex nitens were cultivated in farmer plots with hot slightly mineralized irrigation water from
artesian well and sandy low fertile soils with medium sulphate-chloride type of salinity in Central Kyzylkum.
Growth and development of the plants were observed. It was shown that it is possible to get high yield of
halophytic biomass using hot mineralized water and low-fertile soils. Green biomass yield was about 18.95
t/ha for Salsola sclerantha ; 23.10 t/ha - Climacoptera lanata, 25.45 t/ha - Suaeda paradoxa, 44.10 t/ha -
Kochia scoparia, 13.84 t/ha - Glycyrrhiza glabra, and 42.05 t/ha - Atriplex nitens.
Chemical composition of the biomasses was analyzed; mineral and organic matter was evaluated. Highest total
salt accumulation among investigated plants was revealed for Salicornia europaea and Climacoptera lanata.
Plants grown in farm trial contained less mineral things as compared with the same species from solonchak
(for instance, 31.6% ash versus 46.9% for Climacoptera sp.). Suaeda paradoxa, Kochia scoparia and
Glycyrrhiza glabra accumulated very small amounts of mineral ions in biomass; ash contents in their
biomasses were 5.52; 6.39 and 10.45%DM accordingly.
It was revealed that Na+; Cl-; SO42- are mainly accumulated in aboveground biomass of halophytes, not in the
roots. It is applied to all real halophytes which accumulate sodium ions selectively to set up certain osmotic
pressure in their cells and pump mineralized water; and redundant amounts of Na+ are sequestered in cell
vacuoles in leaf tissues. Sodium and chloride ions are mostly accumulated by halophytes. Climacoptera
lanata, Karelinia caspia, Salsola sclerantha and Tamarix hispida accumulated biggest amounts of sulfates in
their biomasses. At the same time Climacoptera lanata, Salicornia europaea, Tamarix hispida and
Halostachys belongeriana contained biggest quantities of chlorides in biomass. Such salt tolerant plants as
alfalfa don’t accumulate mineral compounds in the biomass. Carry-over indices of main mineral salts from the
soil were calculated for some salt-tolerant plant under the investigation.
To assess fodder value of halophytic plants some nutritional compounds (crude fat, cellulose and protein
contents) were measured and hay feeding values were calculated. High nutritional value of salt tolerant plant’s
biomass was revealed. Possibility to use salt tolerant plants as forage/fodder or feed additions was verified by
the study. Halophytes contain a lot amounts of crude protein – from 5 to 13 mg/gDM; cellulose – from 10.38
to 20.54 mg/gDM; and fats – from 0.5 to 5.06 mg/gDM. Atriplex nitens, Suaeda paradoxa and Kochia
scoparia are recognized as the most nutritional valuable plants and promising fodder.
Biogas productions at anaerobic digestion of halophytic biomasses were studied in batch-test and continuous
mode experiments. It was revealed that 200-380 mL of biogas can be produced in anaerobic reactors from 1 g
of dry matter of halophytic biomasses at 35°C; and 300-480 mL - at 55°C. Taking into consideration current
and possible use of different salt-tolerant plants, their yield and value as fodder etc., it is recommended to use
Karelinia caspia as the most promising source of biogas.
Key words: salinization; salt-tolerant plants; salinity control; nutritional value; biogas

10
Sedimentation and storage reduction of flood water reservoirs in Jordan
Islam Al TAMIMI1*), Majed ABU_ZREIG2), Mitsuteru IRIE3)
Author affiliations:
1) Human Resources Department, Jordan University of Science and Technology
2) Department of Water and Environmental Engineering, German Jordanian University
3) Alliance for Research on North Africa (ARENA), University of Tsukuba
Contact details:
E-mail: tamimo1985@gmail.com
Address: P.O.Box 3030, Irbid 22110, Jordan
Phone: +96227201000
Fax: +96227201082
Abstract
Jordan is considered on the poorest countries in water resources in the world. With an annual budget of
approximately 1 BCM the water deficit my reach up 30% and being compensated by exploitation of
groundwater. Due to this reason, the government of Jordan has made wide efforts to use and optimize flood
water resources by constructing flood dams and reservoirs with various capacities in most of major wadies in
the country. However, sedimentation in dams and reservoirs is a serious problem due to the intense storm
nature and susceptibility of arid watershed to erosion that reduces dams’ storage capacity. The objective of this
paper is to summarize the sedimentation quantities of dams and its annual rates in Jordan and therefore the
reduction in surface water resources. There are ten major dams in Jordan with capacities ranging from 2 to 55
million cubic meter (MCM) and total capacity of 275 MCM. Tens of other dams are built in small wadies
located in the Eastern part of Jordan for flood water harvesting. Field studies show that the sedimentation of
Badia dams are more intense due to poor soil structure and rural nature of watersheds compared to other dams
located in urban watersheds. For example, the annual sedimentation in Wadi Alarab dam, having capacity of
20 MCM and located in a relatively urban watershed, was 0.3 MCM. However, a Badia dam named alGhadeer
Alabiad, constructed in 1966, had a sedimentation rate of 17000 CM/year and is already filled with sediments.
The characteristics of all other dams and their sedimentation rates will be presented.
Key words: sedimentation; flood water; dams; arid land; reservoir capacity

11
Potential usage of some of the ground-cover vegetation for ecosystem restoration practices
in central Anatolia region of Turkey
Ernaz ALTUNDAĞ1*) and Oktay YILDIZ2)
Author affiliations:
1) Duzce University, Faculty of Art and Sciences, Department of Biology, Turkey
2) Duzce University, Forestry Faculty, Department of Forest Engineering, Turkey
Contact details:
E-mail: ernazaltundag@duzce.edu.tr
Address: Duzce University, Department of Biology Konuralp, 81620, Duzce, Turkey
Phone: +903805412404/2142
Fax: +903805412403
Abstract
Long-term animal grazing and agricultural practices have disturbed the vegetation cover and rendered the sites
prone to erosion in Central Anatolia Region of Turkey. Soil protection, erosion control and greenbelt
plantation practices have been pursuit for about six decades in the region. However, tree-oriented plantation
practices did not showed significant success. Thus, experimental data gathered in the region using new
approaches with different species are urgently needed by practitioners. The aim of the current study is to
survey some of the ground-cover vegetation and to evaluate their potential usage for ecosystem restoration
practices in the region.
Seeds of local species, Atriplex, Peganum, Stachys, Teucrium, Silene, Salvia, Onobrychis, Reseda, Brassica
and Vicia were collected during extensive field surveys in summer and early fall of 2013. Five sites, Aksaray,
Incesu, Emirgazi, Sazlıpınar, Karapınar, scattered on about 3000 km2 of the basin and designated as
afforestation sites by General Directorate of Forestry were chosen as experimental blocks. This area covers the
driest part of the region with less than 300 mm annual precipitation and 11 C0 average temperature. Soil
texture for the first 20 cm soil depth in the experimental units were ranged from clay to sandy clay loam with
more than 30 % lime content. Soils of the experimental sites are not considered salty. Only Aksaray site has
shown about 2 dS m-1 EC. Soil has a hardpan at about 70-80 cm profile dept. Therefore, using ripper to
unconsolidated the hardpan is the main part of the site preparation practices for successful afforestation in the
region.
At the end of summer 2012, the sub-soil was ripper using a caterpillar tractor equipped with a three-shank
ripper. Then the top-soil was tilled with a 4 x 4 rubber-tired tractor to prepare seeding beds. In December
2012, for each species three 40 cm by 600 cm beds were leveled using agricultural rakes to expose moistured
mineral soil for seedbed. Folowing the dissemination of the seeds on the beds, seeds were covered manually.
In case of stratification problem, the same procedures for each species were repeated in adjacent beds on each
site in early spring of 2013.
In spring and summer 2013 sites were visited and germination rates and growth of the species were recorded.
Results of the experiment showed that all the species were germinated for both winter and spring sowing. The
weakest germination were on the Aksaray site which has higher soil EC than the rest of the experimental
blocks. However, with the exception of atriplex, germinated seeds on the sites did not performed well for the
growth comparing the wild ones on the area. It was speculated that seeds both in December and early spring
may need more time to root growth to explore deeper soil before summer drought stress expose them.
Therefore, sowing early fall after the first rain may allow to germinate and get some growing before winter
freeze and seedling can become ready for the proliferated spring conditions to accumulate enough
photosynthate before summer. To test our claim we sow Onobrychis and Vicia after the first rain in October of
2013. During field trip in December of 2013 seeds were germinated well and started growing.
Results of the experiment implies that Atriplex, Onobrychis, Stachys and Vicia are the most promising species
to use as ground-cover for ecosystem restoration practices in the region. Early fall sowing may result in better
germination and growth rate.
Key words: aridland, restoration, Turkey, ground-cover
Acknowledgements: The authors are grateful to Duzce University for financial support under Project number
2012.05.01.113.

12
Transformation of the ecological functions of the soil in coal mining regions of the Kuzbass
Vladimir ANDROHANOV
Author affiliation: Institute of Soil Science and Agrochemistry Siberian Branch of the RAS
Contact details:
E-mail: androhan@rambler.ru
Address: Pr. Ak. Lavrenteva, 8/2, Novosibirsk, Russia
Phone: +73833639023
Fax: +73833639025
Abstract
It is now found that the soil situated at the whole geospheres junction is a unique node of ecological links with
numerous global functions. Soil disturbance as an unlinking between geospheres leads to noticeable changing
of functioning of the native ecosystems.
It is especially noticeable in regions with intensive development of the mining. In these areas there is a
transformation of basic soil-ecological functions and replacing of the native landscapes natural for natural-
technogenic complexes. In addition technogenic desertification processes occur over large areas and it leads to
a radical transformation of the natural landscapes and ecosystem functioning regimes. Therefore, it is required
a very long period to rebuild disturbed functions without reclamation works at the disturbed areas. To restore
damaged ecosystems it is necessary to restore the soil, because soil is the basis of any terrestrial ecosystem.
Currently tendency to partially restoring economic and environmental damage caused by disturbance of the
natural soil takes a place at the practical reclamation. When developing remediation methods it is necessary to
provide such range of processing methods, which allows generating soil-like substrates, which have properties
as much as possible close to the properties of the undisturbed soil. Soil restoring with creating soil-like
substrates must be a general aim of the reclamation. Technogenic landscapes will forever save the technogenic
specificity of their functioning. And these landscapes will negatively impact on ecological situation in region
for a long time.
Key words: technogenic landscapes; coal mining; soil-ecological functions.

13
Major and trace elements in transboundary river of Uzbekistan
Vyacheslav APARIN1*), Yoshiko KAWABATA2), Masahiro NAGAI3),
Yoshikazu FUJII3) and Yokio KATAYAMA3)
Author affiliations:
1) Lab.”Geoecology”, SC “HYDROENGEO”, Republic of Uzbekistan
2) International Center, Tokyo University of Agriculture and Technology, Japan
3) Faculty of Human Environment, University of Human Environments, Japan
Contact details:
E-mail: aparin@inbox.ru
Abstract
Introduction
The territory of Uzbekistan is a part of a large region of Central Asia, and surface-stream flows are related to
the Aral Sea water basin. Problems of water quality and quantity are extremely important for this region, and
the problem of water scarcity causes the ecological crisis in a number of regions. The problem is complicated
by the fact that Aral Sea water basin is situated in the territory of five republics of Central Asia such as
Kyrgyzstan, Uzbekistan, Tajikistan and Turkmenistan as well as Southern Kazakhstan. Nowadays, the water
from these rivers almost doesn’t reach the Aral Sea, which has resulted in the environmental disaster such as
almost complete drying of the sea.
According to classification (Meybeck et al., 1992), the Amudarya and Syrdarya rivers are related to large
rivers as well as to the rivers such as the Zarafshan river, to small rivers such as Surkhandarya and to streams
such as Shakhimardansay, Mailoo-Soo, Sokhsay. The last ones have a small water flow rates but they are
important in environmental terms.
Materials and Methods
In 8 points were taken from surface-stream flows of tranboundary rivers in 2013-2014 for the analysis of
ecological conditions. Water samples were filtered by Millipore filter. In each point of sampling the following
work was done: establishing the coordinates of the sampling points (GARMIN Ltd.), determination of water
quality (pH, electric conductivity, turbidity and water salinity).
The concentration of major elements in the samples of surface-stream was measured by Brief chemical analysis
(Method Reznikov et al., 1970) and trace elements by ICP MS method using the equipment Agilent-7500cx
(Agilent Technologies).
Results and Discussion
The analysis of major and trace elements in the transboundary rivers of Uzbekistan in spring and autumn of
2013-2014 showed that the total mineralization of the water in large rivers (Syrdarya and Amudarya) is higher
in the spring.Sulfate magnesium and potassium ions prevail in the main rivers. The predominance of sodium
and calcium ions in water is typical for small mountain streams. The contents of trace elements in the analyzed
rivers of Uzbekistan don’t exceed MAC (maximum allowable concentration). The comparison of trace element
contents in the water of the rivers of Uzbekistan with the data on the average contents in the world has shown
that the excess in the amount of strontium and molybdenum in large rivers. Small water streams, which flow
down from the mountains, are more exposed to natural and anthropogenic impacts. Thus, the antimony content
is increased by 30 times in the Shakhimardansay and Zarafshan rivers as compared to other water streams of
Uzbekistan. It is connected with the presence of mining and processing of antimony ore and mercury ore in the
upper reaches of the rivers. The tendency to the increase in content of trace elements the water is observed in
almost all submontane areas where the sources of these rivers and ore mining enterprises are situated.
Key words: transboundary management; water quality; ions content; trace elements; Central Asian Rivers
References
M.MEYBECK, G.FRIEDRICH, R.THOMAS, D.CHAPMAN (1992). River. In:Assessment of the Quality of
the Aquatic Environment Through Water. Biota and Sediment. D. Chapman (ed). D. Chapman & Hall.
London, 239-316.
A.A.REZNIKOV, E.P.MULIKOVSKAYA, M.YU SOKOLOV (1970). Methods of Analysis of the Natural
Waters. M.. ‘NEDRA”. (In Russian).

14
Spatial distribution patterns of cover vegetation in Central Kyzylkum desert related to soil
salinity and temperature
Dildora ARALOVA 1*), Kristina TODERICH 2)
Author affiliations:
1) Samarkand State University
2) International Center for Biosaline Agriculture (ICBA), Tashkent, Uzbekistan
Contact details:
E-mail: aralovad@gmail.com
Address: 6a, Osiyo str., P.O.Box 4564, Tashkent 100000, Uzbekistan
Abstract
The main aim of this article was to understand the tends of spatial changes of vegetation cover related to soil
salinity and temperatures under different land use practices in Central Kyzylkum of Uzbekistan. For mapping
of spatial distribution of plant communities two main factors as soil salinity and soil surface temperature were
recorded to assess transect-ecological zones of cover vegetation in Central Kyzylkum, Uzbekistan. For
assessment of ongoing processes of degradation of vegetation cover and its changes were selected several
satellite images (Landsat TM, ETM) for wet and drought years within the period from 1990 to 2000. Analysis
has been done on large transect zone of about 150km along the topographical and soil salinity gradients
including different land use practices: starting from virgin Artemisia–ephemers and ephemeroids desert
community across artificial Haloxylon forest through an agricultural demo plot towards large solonchaks
covered with sparse halophytic plant communities in the Karakata salt depression in Central Kyzylkum.
Experimental data was collected during field expeditions mission aimed to understand the main ecological
factors of degradation of rangelands desert vegetation reflected in spatial distribution of plants communities;
botanic compositions, plant density and seasonal variation of aboveground biomass.
Vegetation Indices (VI), such as SAVI; TSAVI; PVI & NDVI were applied for the evaluation of vegetation
cover (VC) changes and biomass values of different plants communities in the target investigated zones. The
correlation coefficient indices of NDVI and PVI phytoindication were calculated and applied for each
ecological-transect zones. The results showed a good correlation between NDVI and plant fresh weight (r2 =
0.58) and plant green area (r2 = 0.55) during autumn period (NDVI < 1). Monitoring of seasonal variations of
vegetation (greenness), in particular, ecological scales of transect zones of vegetation have selected on the base
of various plant communities. Region of Interest (ROI) was design with concrete and random orientation of
plants interpreted for sample size of points (dots) was selected based on ground truth data collected during 10
years (2000-2010). Plants of these zones are typically manifest long periods of dormancy interspersed with
brief "greenings" associated with seasonal rainfall, expressed mostly during wet years. During these relatively
short productive periods, the characteristics of spectral features of desert plants changes calculated as per total
vegetation cover were completed. A computerizing regression for spring and autumn seasons for driving the
various factors influenced on plant biomass for different plant communities was analyzed. As results
phytoindication indicators for different ecological desert zones in Central Kyzylkum were elaborated.
Preliminarily recommendations for sustainable management and stability functioning of desert ecosystems
were developed.
Key words: Kyzylkum desert; phytoindication; soil salinity; land surface temperature; Vegetation Indices

15
Ecological optimization of degraded arid ecosystems by means of surface improvement of
annual halophytes
Dilafruz ARIFKHANOVA, Tura RAKHIMOVA, Sanobar ILIAKHUNOVA
Authors’ affiliation:
Faculty of Biology and Soil Sciences, National University of Uzbekistan named after Mirzo Ulugbek
Contact details:
E-mail: dilafruz0770@mail.ru
Address: 1, Al-Khorazmi str.,Tashkent, Uzbekistan, postcode:100169
Phone: +998909070409
+998712463252
Abstract
According to the concept of sustainable development of Uzbekistan much attention is paid to the protection of
desert ecosystems, the control of desertification and drought.
Currently in Uzbekistan by reason of global warming and salinity, problems of optimization of fragile desert
ecosystems are relevant. Questions on drought resistance and salt tolerance of desert plants have been studied
by several researchers in Uzbekistan:T. Rakhimova(1997), N. Akjigitova(1982), S. Kabulov (2000), D.
Arifhanova, T. Rakhimova, S.Iliakhunova(2013), etc.
The characteristic adaptation features of annual halophytes to droughty conditions of arid zones based on
system analysis have been identified by our researchers. Objects of our research: Climacoptera lanata
Pall.Botch.,Salsola paulsenii Yitv., Salsola sclerantha C.A.Mey.
Studied plants grow in the wild deserts and adyrs zone in Uzbekistan. They are representatives of one
ecobiomorphs ; spring -summer –autumn annual halophytes, due to the type of water supply- ombrophytes. By
adaptation to arid conditions - hiperxerophytes, to saline conditions - hiperhalophytes.
One of the main indicators of drought tolerance of annual halophytes is increasing of water-holding capacity
and the osmotic pressure to the summer dry period, that to be considered as a major factor to maintaining of
stable water balance in xerothermic period.
Studied plants are characterized by their salt accumulating feature that defines them as the desalination plants
on saline soils. In the Central Kyzyl Kum desert, Climacoptera lanata grows well on highly saline soils (salt
5.728% at 0 -20 cm soil horizon).
As a salt accumulation plant, Climacoptera lanata draws dissolved minerals from the soil, storing them in
itself. By removing these plants in the fall, a certain amount of salt (accumulated in plants) also goes along
with the biomass of these plants.
With an annual picked harvest of Climacoptera lanata, we can assume a gradual soil salinization. The crop
yield of annual halophytes is 3-15 t /ha depending on the meteorological conditions.
To optimize the depleted vegetation desert ecosystems, the studied annual halophytes are promising for
improving the soil surface, as well as for desalinization of desert soils. Their biomass can be used in
biotechnological processes.
Key words annual halophytes; Climacoptera lanata; ombrophytes; ecobiomorphs

16
Scientific approaches to the rational use and management of saline soils fertility in Ukraine
Sviatоslav BALIUK *), Еlena DROZD, Marina ZAKHAROVA
Author affiliations:
National Scientific Center «Institute for Soil Science and Agrochemistry Research named after O.N.
Sokolovsky»
Contact details:
E-mail: oroshenie@ukr.net
Address: 61024, Kharkiv, str. Chaikovska, 4
Phone: + 380577041669
Abstract
Saline soils of Ukraine can be conditionally divided into two types - naturally saline and secondary saline.
Secondary salinization is often an environmentally negative consequence of irrigation (during soil irrigation
with mineralized water and during the rise of saline groundwater above the critical level). Naturally saline and
secondary saline soils can be without morphologically indicated solonetzic horizon, their area is 1.92 million
ha and morphologically distinct solonetzic horizon (saline - alkaline) – 2.8 million ha. Furthermore, among
the irrigated lands 200 thousand ha of secondary saline of soils. The majority of saline soils in Ukraine are
ploughed excluding strongly saline types and salt marshes.
Data on areas of saline soils are in the land and reclamation cadasters. Alkaline soils are included in this group
of saline soils, but shall be separately accounted, because of the need for special reclamation measures for their
evolution and use.
On the basis of data on the area and the degree of soil salinity are planned measures to prevent and to reduce
soil salinity - the construction of drainage, saline soils flushing, selection of salt tolerant crops, reclamation,
chemical soil improvement, land reclamation plantage plowing. The State Agency for Land Resources of
Ukraine has developed and approved Procedure for land conservation.
Main research areas of saline soils in Ukraine: manifestations fixing and revealing patterns of salinization
processes dissemination and alkalinization depending on the structure of soil, ecological and ameliorative land
condition, irrigation water quality, existing farming technologies, etc.; spatial assessment of land condition and
direction for further development of salinity and alkalinity processes on the basis of their mapping and territory
typing; development of recommendations for the justification of measures to prevent or eliminate the salinity
and alkalinity, protection and restoration of soil fertility; formation of information supporting systems of
management solutions in the monitoring and advisory - deliberative service.
For today based on a long-term complex studying soil processes dynamics and regimes in saline soils there are
identified common landscape-zonal patterns and spatially differentiated features of orientation, prevalence and
rate of soil processes, it is developed differentiated system of agromeliorational measures to protect and
improve the fertility of saline soil.
For a more accurate spatial assessment of saline soils condition it is created a series of e-cards. This allows to
create a single system of information - mapping support for measures to control environmental and
agromeliorational condition of naturally saline and secondary saline and solonetzic soils, to develop principles
of their rational use based on technologies adaptability to soil-climatic and social conditions.
NSC ISSAR has created a regulatory framework for the monitoring of saline soils, developed agri-
environmental criteria, parameters and system of saline soils diagnostics (using thermodynamic parameters)
and irrigation water, which includes agronomic quality criteria on salinity risk, alkalinization, alkalinity and
soil contamination with heavy metals and fluorine considering their buffering properties and diagnostic criteria
of soil degradation on individual as well as on the composite index.
Key words: saline soils; areas; research; reclamation

17
Satellite-based observation and modeling of grasslands and croplands in dry areas
Chandrashekhar BIRADAR 1*), Xiangming XIAO 2), Geli ZHANG2), Pradeep WAGLE2),
Cui JIN2), Jinwei DONG2) and Botir DOSOV3)
Author affiliations:
1) International Center for Agricultural Research in the Dry Areas (ICADA), Amman, Jordan
2) Department of Microbiology and Plant Biology, Center for Spatial Analysis, University of Oklahoma
3) International Center for Agricultural Research in the Dry Areas (ICADA), Regional Program for
Sustainable Agricultural Development in Central Asia and the Caucasus, Tashkent, Uzbekistan
Contact details:
E-mail: C.Biradar@cgiar.org
Abstract
Grasslands and croplands in dry areas (semi-arid and arid regions) are sensitive to changes in climate and land
use. Accurate and updated information of grasslands and croplands are important for the studies of food
security and sustainability of socio-ecological systems as well as water resources and climate. In this
presentation, we provide an overview on satellite-based observation and modeling of grasslands and croplands
in the dry areas. First, we will highlight the recent progress in satellite-based mapping of croplands (cropping
intensity, cropping calendar, crop type). Second, we will present satellite-based modeling of gross and net
primary production of croplands and grasslands from the Vegetation Photosynthesis Model. Third, we will
introduce the new methods in satellite-based mapping of grassland degradation and desertification. Finally we
will discuss the role of community remote sensing and citizen science in monitoring grasslands and croplands
in the dry areas. We will showcase the data products at the Earth Observation and Modeling Facility,
University of Oklahoma (http://www.eomf.ou.edu), and ICARDA Geoinformatics (http://geoagro.icarda.org/)
including smartphone app “Field Photo”, Global Geo-Referenced Field Photo Library, MODIS data
visualization, and ODK based electronic field data collection kit
Key words: MODIS; Landsat; grasslands; croplands; soil moisture; crop types

18
Conservation of biodiversity of desert rangeland ecosystems in Uzbekistan
Nasillo BOBOKULOV1), Abdullo RABBIMOV1), Tolibjon MUKIMOV1),
and Toshpulot RAJABOV2)
Author affiliations:
1) Uzbek Research Institute of Karakul Sheep Breeding and Desert Ecology
2) Laboratory of Environmental Research, Samarkand State University
Contact details:
E-mail: uzkarakul30@mail.ru
Address: Uzbek Research Institute of Karakul Sheep Breeding and Desert Ecology. Mirzo Ulugbek Street 47,
Samarkand 140154, Uzbekistan
Phone: +998901915202
Abstract
In arid zones of Uzbekistan, occupying more than 52% of the total territory, the desert livestock, in particular
Karakul sheep breeding is widely developed. Significant part of desert zone is located in Kyzylkum desert. In
general, flora of the country is presented by more than 4000 species of higher plants including about 250
fodder plants from different plant families: Poaceae (75), Chenopodiaceae (40), Fabaceae (29), Brassicaceae
(25), Asteraceae (17), Polygonaceae (13), Apiaceae (10); other 22 families 50 species (Shamsutdinov, 1975).
The ecological conditions of deserts and semi-desert are promoted to the formation of the various
phytocoenosises – the community of xerophyte semi-bushes, bushes and psammophyte trees, xerophyte long
vegetated perennials and annuals, early maturing grasses. In sandy massive, vegetation types are presented by
psammophytic -33%, gypsophytic -53%, halophytic -13,9% and tugai -0,1%. The projective cover of soil by
such fodder plants does not exceed 25-30% (Gaevskaya, 1971). The eco-biological potential of fodder plants
determines the productivity of desert rangelands which ranges between 1800-3500 kg/ha.
The rangeland vegetation of desert zone is the main source of cheap fodder for livestock during whole year.
However, at present under the impact of various anthropogenic and climatic factors deterioration of vegetation
cover, explosion of soil surface, infringement of rangeland areas, the appearance of mobile sands are observed.
Kyzylkum rangelands can be as a bright example where the species composition is reduced by 4 times, shrubs
and semi-shrubs by 2 times, the palatable fodder plants by 2,5 times. Practically, only for the last 30 years 5
semi-shrubs species such as Kochia prostrata, Ceratoides ewersmanniana, Camphorosma Lessingii, Salsola
gemascens, Calligonum setosum, and 4 perennial grasses – Agropyron desertorum, Cousinia decurrens,
Onobrichis chorassanica, Astragalus alopecias are radically decreased in desert rangelands. Reduction the
number of A. alopecias and O. chorassanica in desert ecosystems appreciably decreases the nitrogen fixation
in the soil; desalinization of the soil by K. prostrata, S. gemmascens, C. Lessingi; sand fixation by C. setosum
and increase of laying for fuel of shrubs and semi-shrubs by C. decurrens. So, the disturbance of the vegetation
structure of desert ecosystems causes biodiversity loss of native rangelands and negatively influences on the
ecological situation. The conservation of ecologically important desert fodder plants is highly important to
sustain biodiversity in the region. In this connection conducting of the following work are essential: the
collection of seeds of disappearing fodder plants, the creation of nursery and formation of gene pool, the
selection of perspective varieties of fodder plants, development of agro-technical methods of plant introduction
and seed production of highly productive varieties.
Mobilization of vegetative resources of the arid zone and creation of their gene pool allow preserving the rare
disappearing species of plants and comparative estimation of different species, ecotypes and forms according
to economical-biological peculiarities which gives the opportunity to achieve restoration of the degraded desert
ecosystems.
Keywords: arid ecosystems; fodder plants; degradation; biodiversity loss; conservation

19
Measurements facilities at the Biological and Chemical Research Center at the University
of Warsaw in Poland: study case on the analytical possibilities of modern instrumental
techniques for the investigation of metabolism of selected elements in plants
Ewa BULSKA
Author affiliation: Biological and Chemical Research Center at the University of Warsaw
Contact details:
Address: Żwirki i Wigury 101, 02 089 Warsaw, Poland
E-mail: ebulska@chem.uw.edu.pl
Phone: +48225525523
Fax: +48228225996
Abstract
The analytical performance of modern analytical technique towards insight view of the metabolic processes
occurring in plants will be discussed. Especially the measurement facilities at the Biological and Chemical
Research Center at the University of Warsaw in Poland will be presented.
The influence of the composition of soil on the uptake of various substances by plants become a topic of
interest for chemist and biologist. It was found that the chemical form of the element of interest influence its
transport and biotransformation in plant’s cell. In order to understand the entire process the non-routine
analytical protocol should be design towards obtaining complementary information about the localization and
chemical structure of various compounds. In our laboratory such a protocol involve the use of atomic
spectroscopy for the elemental composition of plant tissues, elemental mass spectrometry for evaluation the
isotopic composition of elements of interest as well as molecular mass spectrometry for the evaluation of the
structure of unknown compounds. Moreover, various techniques which enable the determination of the
distribution of elements on surface and sub-surface domains (XRF, LA-ICPMS, TEM, SIMS) are used for
obtaining 3D mapping. Also several microscopic techniques are used, eg. confocal and light microcopy, for the
evaluation of mitotic activities of cells as well as localization of selected elements in various plants
compartments.
The use of above listed techniques and the advantages of the information obtained will be exemplified with
selected projects conducted in our laboratories.
Key words analytical techniques; plants; transport and biotransformation of elements

20
On the quality of measurements results: the role of the proficiency testing and
interlaboratory comparison in assuring of the accuracy of the date provided by the testing
laboratory
Tadeusz BULSKI
Author affiliation:
University of Ecology and Management in Warsaw, Faculty of Environmental Protection
Contact details:
E-mail: biuro@konslab.pl
Address: Olszewska 12, 00792 Warsaw, Poland
Phone: + 48601921071
Fax: + 48 22 6739521
Abstract
In order to evaluate various process undergoing in environment it is essential to characterize the composition
of various environmental compartment. The chemical characterization involve collecting data of the
determination of various substance being present at naturally occurring or elevated levels. The decision on the
status of environment is strongly based on the data of chemical measurements, thus the quality of obtained
results is of a great importance.
On the international scale, it is agreed that the requirements described in ISO/IEC 17025 standard should be
used as to assure the quality of the measurements results. Thus it is expected that the laboratory should have
the adequate procedures for monitoring the validity of the test results, using inside laboratory evaluation of the
results by regular use of certified reference materials as well as participating in proficiency testing (PT) or
interlaboratory comparison (ILC) programs.
In this presentation the advantages and limitation of participation in PT/ILC will be discussed. The example of
various scores used by the PT/ILC provided will be given, as well as statistical methods used for the evaluation
of the performance of the laboratory for given test.
Key words: quality of results; certified reference materials; proficiency tests; interlaboratory comparisons

21
Biological and ecological diversity of halophytes flora of Uzbekistan

Antonina BUTNIK, Tamara MATYUNINA, Guljan DUSCHANOVA, Dildora YUSUPOVA
Author affiliations:
Institute of Genepool of Flora & Fauna Academy of Sciences of the Republic of Uzbekistan
Contact details:
E-mail: butnikan@yandex.ru
Address: 232, Bogishamol street, Tashkent, Uzbekistan
Phone: +998712890465
Fax: ++99871289 10
Abstract
The biology of seed germination of hyperhalophytes, such as Salicornia europaea, Halocnemum strobilaceum,
Halostachys caspica and euhalophytes as Salsola dendroides, species of genus Kochia and Climacoptera pre-
treated with NaCl and Na2SO4 salt solutions of various concentrations 0.5%, 1%, 2%, 3%, 5% in pure or in
mixed composition was investigated. Rate of seed germination for these species ranged between 58-100%
both on distilled fresh water and saline solution substrates. Seeds of hyperhalophytes were less salt tolerant
than euhalophytes, which germinated even at 3-5% NaCl solution. Seeds sown on grey-brown soils at
Tashkent Botanical Garden have reveled high capacity of euhalophytes and hyperhalophytes to germinate on
non saline soils. Species of Salicornia europaea, Atriplex tatarica, Salsola dendroides, Suaeda altissima were
undergone full ontogenetic cycle, produced viable seeds and shown good self-seeding (regeneration) under
limited irrigation. These species have not experienced the need for salts, but for their successful growth and
development requires appropriate soil moisture, despite of in their natural habitats they could survive under 2-
3% concentration of soil salinity. These species belong to the stenohydrophyle euryhaline halophytes, i.e. they
are able to grow in a wide range of soil salinity, but feel the need in sufficient soil moisture. Perhaps the
historical ecology of these species might be associated with littoral marshes and saline wet depressions.
Species of the second group of halophytes like Halocnemum strobilaceum, Kalidium caspicum, Halostachis
caspica and Halimodendron ammodendron having the unique property of surviving extremely high salinity
didn’t survive on non saline soils. These species shown low seed germination in distilled water and raised it in
the 0.5-2% on salt solutions. These species can be attributed to evrigidrilnym stenohaline, i.e. they germinate
at wide range of soil moisture, but for their growing they require permanent high saline environments. Based
on these observations we concluded that ecological type of halophytes is quite heterogeneous not only by their
tolerance to salt by also in respect to soil moisture content.
Besides species of stenogidrilnoy Euryhaline group (Atriplex tatarica, Suaeda altissima) are distinguished by
their capacity to accumulate a certain amount of mineral ions, regardless of soil salinity, even on non saline
substrate through a combination of osmotic pressure and suction force. However, these species under similar
amount of mineral ions have differential response to the ratio of accumulated salts in their tissues both at fresh
and saline substrates.
Studies of anatomy of vegetative organs and flowers morphology of halophytes revealed a homogenous
(streamline) of their adaptation to halophafactor, while among others tissues of Kranz cells and vessels were
less diverse, that indicate on genetic stability in their phenotype .
Our data suggests that halophytes belong to patients strategic type, when plants growing under stressful saline
environments by enduring high salt content need appropriate soil moisture. Stability of species with Kranz
structure confirms that the C4 species are more halophytes than xerophytes. Resistance to halo (saline) and
xero –(dry) factors laid, apparently in the genome of species with Kranz structure of vegetative organs , which
provides wide ranges of seed germination for halophytes.
In this regard, the selection of plants for reclamation of saline land should be considered a sign of Kranz and
belonging to different ecological groups, based not only on soil salinity, but also on moisture content and soil
texture.
Key words: halophytes; vegetative organs; flower morphology; halofactor; C4 plants; Kyzylkum desert

22
Studies on the grasslands of Manısa-Turkey
Feyza CANDAN1*), Münir ÖZTÜRK2),Volkan ALTAY3), Salih GÜCEL4) and Güngör AY1)
Author affiliations:
1) Celal Bayar University, Science & Arts Faculty, Biology Department, Manisa, Turkey
2) Ege University, Science Faculty, Botany Department, Izmir, Turkey
3) Mustafa Kemal University, Science & Arts Faculty, Biology Dept., Antakya, Turkey
4) Near East Univ., Lefkoşa, Turkish Republic of the Northern Cyprus
Contact details:
E-mail: feyzacandan2002@yahoo.com
Address: 35100 Bornova, Izmir, Turkey
Phone: +905353098104
Abstract
The investigations carried out on the plant diversity on the grasslands of Manisa State has shown that these
habitats show diverse topography. The state is located in the Aegean Region of Turkey, between the elevations
of 50-850 m. Major agricultural products in the State are grapes, vegetables, cereals, olive and fruits. The
stock raising too is of importance. The climate is typically Mediterranean, with dry hot summers but mild, cold
and snowy winters with an average of 705.8 mm rainfall. In all 13 grasslands were evaluated. A total of 316
taxa of plants belonging to 49 families were collected. Out of these taxa only 34 are of good fodder value, 20
taxa belong to Fabaceae and 14 to Poaceae.
The studies on the above ground parts revealed that energy values range between 112-1360 gm during the first
season, in the second season between 144-1264 gm, in the third season between 192-1232 gm and in the fourth
season between 96-1232 gm in the unfenced and fenced plots. In the belowground parts the energy values
recorded in the first season ranged between 11.4-910 gm, in the second season between 144-640 gm, in the
third season between 96-560 gm and in the fourth season between 96-512 gm in the unfenced and fenced
plots.
The grasslands belonging to the state are main source of animal feed but have been exploited excessively and
unsustainably. There area is decreasing, so is the number of cattle, sheep, goats and horses. This produces a
negative impact on the animal husbandry in the region. This presentation therefore tries to put forth
information on the plant diversity, the biomass potential and energy values of grasslands in the state of Manisa
Key words: grasslands; Manisa; Turkey; plant diversity

23
Rock art of Altai within context of archaeological monuments forming the cultural
landscape
Dmitriy CHEREMISIN
Author affiliation:
Novosibirsk State University, Institute of Archaeology, Academy of Sciences of Russian Federation
Contact details:
E-mail: cheremis@archaeology.nsc.ru
Address: 6300090, Novosibirsk, Lavrentiev av., 17. Russia
Abstract
Rock drawings - petroglyphs - are among the most numerous archaeological monuments. In Eurasia mountain
and steppe area were discovered thousands of monuments of rock art belonging to different historical periods.
Currently at the territory of Russian Altai more than two hundred petroglyph complexes are known including a
large one, with up to several thousands of images from the Bronze Age to the present day.
Monumental "unmoving" monuments of rock art sites are valuable historical sources reflecting the results of
development and transformation of the cultural traditions of their ancient creators. The starting point for
assessing the historical and cultural significance of rock art sites is the determination of chronology of
petroglyphs. Determination of age of petroglyphs is the area of competence of professional archaeologists
though other specialists such as art historians, ethnographers, conservationists and others are engaged in rock
art studies.
Sites, where rocks with petroglyphs are found are among the most revered, sacred, forming special cultural
landscapes. They are considered as sanctuaries having diachronic nature, places of origin of ancient rituals,
storage of valuable information. Today methods of scientific research have been developed and action
algorithms were proposed by researchers for the preservation of these monuments. They came from the
scientific investigation, development of scientific documentation and measures were taken for the monitoring
and conservation of petroglyphs. Diverse methods are used to determine the age (chronology) of rock art.
Currently the main methods for such purpose are archaeological evidence. Primarily, it is stylistic analysis
which is based on the study of rock art iconography; research of the internal stratigraphy, i.e. cases of
overlapping patterns; typical picture reproduction techniques. Necessary part of the study is to compare the
rock drawings materials with artifacts from burial complexes.
Interpretive methods base on analysis of historical, cultural and ethnographic realities presented at the
petroglyphs (weapons, wheeled chariots transport), as well as studies of subjects, their themes and images.
Recently, methods of absolute and relative dating based on modern physico-chemical methods is being
actively developed and applied to determine the age of the rock art monuments. Many of archaeologists even
deem it possible to speak about the occurrence of "poststylistic" era in study of rock art, calling to consider as a
reliable merely dating, obtained by means of "direct dating" (i.e, by natural-scientific methods).
Analysis of subject and meaning of drawings, containing information about the household activities of
people/artist, who left the image on the rocks, allows carrying out cultural and chronological attribution of the
certain art traditions and believes. Traditions of Altai Rock Art have not been interrupted in modern era, but
continue to live to nowadays.
Key words: rock art; cultural landscape, chronology, semantic analysis, Altai

24
Climate-change information days for tourists as a value chain for landscape restoration;
the example of Mahalla Kadok (Nurata, Uzbekistan)

Stefanie CHRISTMANN1*), Aden AW-HASSAN2), Toshpulot RAJABOV3)
and Himoil KHALILOV4)

Author affiliations:
1) Environmental Governance, ICARDA-SEPRP
2) International Center for Agricultural Research in the Dry Areas (ICARDA)
3) Samarkand State University, Uzbekistan
4) Uzbek Research Institute of Karakul Sheep Breeding and Desert Ecology, Uzbekistan
Contact details:
E-mail: s.christmann@cgiar.org
Address: P.O. Box 4375, Tashkent 100 000, Uzbekistan

Abstract
Rapid population growth in remote foothill regions lacking good access to fuel caused high deforestation
during the last 80 years. Continuous and high load of grazing on slopes additionally reduced semi shrub and
grass vegetation and meantime mudflows originating on the degraded slopes endanger orchards, stables and
water reservoirs even after slight rains. Livestock production is hampered due to the shortage of forage in
degraded rangelands caused by overgrazing; crop production is limited by lack of water specifically in those
settlements relying entirely on small springs in the foothills. Villagers invest tremendous shares of their cash
income in higher education of their youth as support for a carrier in urban areas.
Years after literally the last tree was cut villagers of Kadok village participatory developed local climate
change scenarios. Within this social learning process, villagers originated a local climate change adaptation
strategy-identifying reforestation of foothills with native drought tolerant medicinal trees and forage shrubs as
highest priority to safeguard livelihoods from devastating mudflows. Besides the strong emphasis on
environmental restoration they focused on new income options such as eco-tourism and handicraft. The
scenarios showing consequences of inaction for the next generation and the feasibility of adaptation induced
overcoming apathy concerning ongoing degradation.
Based on the common purpose that the current generation should take action on climate change adaption a
group of reputed elders developed a local environmental governance scheme based on equal tasks and benefits
for each household, enforcement and a new system to manage livestock currently fueling degradation. The
scheme has landscape approach and also includes arrangements between villages. The scheme does not build
on protection by wire fence, but on social agreement. This makes it affordable and replicable by many
communities and in large foothill ridges. The village and meantime also other villages under the guidance of
the core team of Kadok overcame apathy concerning degradation and started substantial restoration work on
slopes within collective action.
On long-term, Kadok aims to gain income from tapchan-tourism (below the forest and from sustainable
harvest of medicinal plants (e.g. almond oil, Hawthorn and rose hip) and substantially more fodder from
drought resistant shrubs to sustain livestock production. To enable quick revenue the project linked the core
team with international tourist agencies, trained villagers to provide “Climate change information days for
tourists from abroad” travelling along the Silk Road and trained women in souvenir production. Currently
income from Climate change days funds further reforestation.
Key words: reforestation; collective action; climate change adaptation; tapchan-tourism; income generation

25
Natural resource usage of migratory sheep herders and indicators for migration
in Rajasthan, India
Kathrin CLIFTON*) and Mounir LOUHAICHI
Author affiliation:
International Center for Agricultural Research in the Dry Areas (ICARDA)
Contact details:
E-mail: K.Clifton@cgiar.org
Abstract
Climate change is altering the coping mechanisms of migratory pastoralists in Rajasthan, India. A review of
secondary information suggested greater variability in migratory patterns. The state of Rajasthan accounts for
40% of the total carpet wool production in India. To understand better what resources migratory pastoralists
depend on and what factors influence migration two sheep flocks were tracked with GPS units and household
surveys were conducted. Results suggest that pastoralists depend mainly on: scrubland, cropland, and fallow
land. The data indicates that pastoralists do not depend greatly on forest lands and that migration routes are
determined by access to water, markets, and forage. Grazing pressure can be reduced by developing new water
holes along the migratory routes. For the household survey, a total of 160 household surveys were conducted
for sheep herders to determine indicators for migration. The Raika (Dewasi/Rebari), Sindhi Muslim, Jat,
Rajputs, and Gujjar are common sheep herders and religious beliefs strongly influence management practices.
Household survey results suggest that herders with less education, who are younger, have larger flock sizes,
more adult family members, and smaller land holdings are significantly related to migration.
Key words: migratory pastoralists; household survey; sheep flocks migration; Rajasthan; India

26
Enhancing food security for small holder farmers’ in arid environments through scaling-up
of adapted resilient crop-livestock models: ICBA’s achievements and lesson learnt
Abdullah DAKHEEL and Shoaib ISMAIL
Author affiliation:
International Center for Biosaline Agrculture (ICBA), UAE
Contact details:
E-mail: a.dakheel@biosaline.org.ae
Address: The International Center for Biosaline Agriculture (ICBA), P.O. Box 14660, Dubai, United Arab
Emirates
Phone: +97143361100
Fax: +97143361155
Abstract
The West Asia and North Africa (WANA) region is one of the most water-scarce regions in the world with
agriculture consuming over 75 percent of freshwater resources. Renewable water resources are nearly fully
exploited, and non-renewable water resources are being rapidly depleted. Water scarcity will only worsen as
the growth of populations and economies result in further competition between industrial, agricultural and
domestic sectors. Recent changes in climate pattern, such as prolonged droughts, record temperatures,
increased rainfall irregularity, intensity and distribution, have all further negatively impacted the natural and
agro-ecosystems in the region and increased the vulnerability of the people dependent on such resources for
their livelihood.
Many of the groundwater based agro-ecosystems in WANA region and more than 25% of river based irrigated
agricultural lands are affected by salinity and waterlogging. Salinity is a major constraint to crop production,
especially in the arid and semi-arid agro-ecosystems of WANA. In the marginal areas of WANA the small
scale producers make up a high proportion of poor households. They are the most vulnerable to climate
changes given their dependency on marginal quality water and land resources, which are the first areas
affected by climate changes in arid environments. Poverty/vulnerability is caused mainly by lack of access to
productive land and water, aggravated by unpredictable rain, high temperatures and salinity. These agro-
ecosystems are also extremely vulnerable to climate change (in particular, drought and high temperatures), as
concluded by the Intergovernmental Panel on Climate Change (IPCC) reports (1997, 2001, 2007 and in the
recent fifth IPCC report in October 2013) As a consequence, there is wide-spread evidence of loss of
marginalized lands from production and the dislocation of poor farmers living throughout the region. To
prevent further degradation of such agro-ecosystems and sustain the livelihood of farmers living in marginal
conditions, it is necessary to develop and promote the adoption of alternative production and management
systems appropriate to the socioeconomic and environmental conditions in the region. Such systems are based
on integrated crop/forage-livestock feeding systems that can increase land and livestock productivity,
sustainability and resiliency of the farming systems against the impact of climate changes. Such systems will
help ameliorate feed scarcity in small scale crop-livestock farms in a sustainable manner and will contribute to
the diversifying of on-farm production, expansion of farm enterprises and securing farmers’ livelihoods
The International Center for Biosaline Agriculture (ICBA) in partnership with the NARS of at least eight
countries in WANA, and several NARS in Ventral Asia has carried out since 2003 several major projects that
have (1) targeted the improvement of livelihoods and productivity of poor farmers who only have access to
marginal (particularly saline water) resources, and (2) further developed the capacity of both NARS and
farmers in the sustainable use and management of such resources. Assessment showed that farm yield severely
reduced with increased salinity levels and yield of tolerant conventional crops diminishes at salinity levels of
15 dS/m. At the same time farm income declined by almost 30% at low salinity levels and up to 60% at high
levels (above 10 dS/m). The projects identified that the barriers to diversification in the farming system and
scaling out of results mainly result from the lack of supportive government policies; unavailability of, or
inaccessibility to, the seed sources of better adapted genotypes; irrigation with marginal quality water; and
limited extension and capacity building opportunities. Key outcomes have been the development of resilient
integrated plant/livestock production systems that are more productive and have enhanced farm intensification
and diversification leading to systems that are more stable and adapted to climate change impacts.
Key words: marginal environment; salinity; climate change; farm productivity; sustainable management

27
Development of new recommendations for soil erosion control in arid zones of Uzbekistan
G.T.DJALILOVA1), L.A.GAFUROVA2)
Author affiliations:
1) Tashkent Institute of Irrigation and Reclamation
2) National University of Uzbekistan, Tashkent, Uzbekistan
Contact details:
E-mail: gulnora_djalilova@rambler.ru
glazizakhon@yandex.ru
Abstract
When the high pastures and hayfields don’t have agrochemical support and don’t received necessary set of
measures for improving the botanical structure of grasses, soil erosion is one of the most hazardous processes
that are causing the degradation of fodder lands in arid zones and it is intensifying under low grass thickness,
soils’ deteriorating agrophysical condition and irrational land use. Determination of the major factors of soil
erosion in mountainous fodder lands is the economically and socially important measure under these
conditions, because it allows optimization of measures for prevention of development and rehabilitation of
deteriorated lands. Optimization of technological techniques is based on rational use of means and human
resources. In turn, in order to select the optimization means, it is important to determine the quantitative and
qualitative characteristics of erosion and factors that cause it and motivate its rapid development.
The issue of soil protection from erosion is becoming global issue all over the world, and, particularly, in
Uzbekistan. Previously conducted studies established heavy erosion of arid zones of Central Asia, and
especially those with previously destroyed both woods and bushes and grass vegetation were deteriorated most
seriously. They include, first of all, lands with practically washed out humus horizon.
As a result of erosion processes, the soils of arid zones get exhausted catastrophically, because the top, i.e. the
most fertile part of the soil degraded, and the erosion processes cause the sharp reduction in productivity of
areas covered. Heavily degraded out soils are practically excluded from the agricultural production.
Nature of vegetation also sharply deteriorates in degraded soils. In dispersed condition they are not capable to
strengthen the soil . Flow concentration under conditions of crossed relief leads to soil erosion. Surface is
covered with a network of forest ravines that grow into furrows and then into gullies, and acquires the heavily
slashed nature. Ravine formation deteriorates the hydrogeological regime of the slopes and seriously
complicates their further use.
Sharp changes in the hydrophysical properties of the degraded soils and areas even more exhaust the
vegetative cover. Heavy heating of areas free of vegetation causes the increased evaporation of moisture
residues that infiltrate the soil. Due to extremely unfavorable environmental conditions natural restoration of
woody vegetation in the washed out soils is complicated, desertification of the firm soil takes place. Artificial
forestry is also difficult in washed out soils. Forest crops here have low adaptation and poor growth.
Devastation of such areas is considered a difficult issue without drastic change of forestry conditions,
particularly the soil’s water regime.
With the view of studying the most effective factors that promote the erosion of soils of pastures and hayfields
in mountainous areas, and developing the measures for their prevention, the expedition and laboratory research
have been undertaken. As a result of expedition research, the scale, nature and degree of erosion of mountain
soils represented in various types of sediments - proluvium, eluvium and alluvium - have been established.
Depending on the exposition, type of sediments, steepness and capacity of soil forming rocks, the degree and
nature of erosion display, as well as its scale in relation to areas of lands exposed to erosion to total area of
lands.
Systematization of existing materials of research on erosion processes in Uzbekistan, organization of research
works in order to establish the nature of soil erosion and determine the meliorative effectiveness and erosion
control measures with the view of recommendation of the most perfect erosion control methods are the target
objectives of this issue.
Key words: soil erosion; ameliorative measures; pastures improvement; mountains mudflows; desertification;
Uzbekistan

28
New environmentally safe resource-saving biotechnology of improving the fertility of saline
soils and productivity of wheat
Gulnara DJUMANIYAZOVA*), Saida ZAKIRYAEVA, Shakhnoza SULTANOVA
and Rustam ZARIPOV
Author affiliation:
Institute of Microbiology, Academy Sciences Republic of Uzbekistan, Tashkent, Uzbekistan
Contact details:
E-mail: gulnara2559@mail.ru
Address: 100143, Mirzo Ulugbek district, Durmon yuli str. 30, Tashkent ,Uzbekistan
Phone: +998712621438
Fax: +998712419227, 2417129
Abstract
Wheat plants on saline soils are periodically exposed to stress factors that affect the yield and quality.
Increased concentration of salts, especially chlorides, can act as disconnector of oxidation and
phosphorylation and thereby violate the supply of plants with phosphorus. Phosphorus deficiency in the
nutrition of wheat leads to disruption of photosynthesis in plants, power transmission and hydrogen
(respiration), deterioration of root formation, reducing of yields, grain quality and plant resistance. There is a
relationship between salinity and mineral nutrition of plants - salinity limits the uptake and accumulation of
phosphate in the cultures. On saline soils large concentration of sodium prevents the accumulation of other
cations, including those necessary for plant life, such as potassium and calcium, which are responsible for
drought resistance, frost resistance, disease resistance, regulation of metabolic processes, water and
physiological balance of the cells and plants whole. However, in saline soils, these nutrients are not in the
available form. It is known that if phosphorus is poorly absorbed by plants, the nitrogen and potassium and too
poorly absorbed.
To eliminate the negative impact of stress factors (salinity, over phosphating, high and low temperature,
drought, wrong agricultural technology) on the development of wheat, prevent desertification, increasing the
fertility of saline soils and productivity of wheat, we have developed a new environmentally safe
biopreparations Rizokom-2 and Serhosil. Biopreparation Rizokom-2 on the basis of salt-tolerant wheat
phosphorus mobilizing rhizobacteria intended for pre-sowing treatment of wheat seeds. Biopreparation
Serhosil based on the green microalgae intended for foliar nutrition of wheat on phases of vegetation. New
biotechnology of partnering the 2 biopreparations for cultivation of wheat on middle saline soils provides the
following benefits: increasing of field germination of wheat to 98-99% (50-60% in the control), the
normalization of the alkaline pH of saline soils, the normalization of the balance of soil microflora and nutrient
elements, the stimulation of root development, growth and development of wheat plants during the growing
season due to improved plant nutrition root by macro-micronutrients, reducing the doses of applied mineral
fertilizers by 50%, reducing costs of irrigation water by 20-30%, increasing in plant immunity and
sustainability to stress conditions, decreasing the incidence of wheat, reducing the degree of soil salinity,
increasing fertility and environmental improvement of saline soils, increasing yield of wheat to 4-5 c/ha and
shortening of grain ripening for 15-20 days. New biotechnology produces environmentally friendly products.
Application of biopreparation Rizokom-2 and Serhosil enables transition to a system of bio-agriculture.
Key words: soil salinity; wheat; biopreparations; soil fertility; yield of grain

29
Simulating water use and N response of winter wheat in the irrigated soil of Khorezm
Yulduzoy DJUMANIYAZOVA*), Nazirbay IBRAGIMOV, Rolf SOMMER
Author affiliation:
Department of General biology, Faculty of Natural science and geography, Urgench State University
Contact details:
E-mail: yulduz.d@gmail.com
Address: 14 Alimjan St, Urgench 220100, Khorezm, Uzbekistan
Phone: +998904307623
Abstract
Crop simulation models are nowadays widely applied in agriculture to estimate agronomic, environmental and
economic interactions of crop management, soil and atmosphere. From an array of models, CropSyst has
recently been introduced in Uzbekistan for assessing cotton production. Like all other crop models, the
existing CropSyst crop-modules must be parameterized and calibrated for the different crops including winter
wheat before a more systematic use can be envisaged. The crop-soil simulation model CropSyst was used to
simulate growth, water and N-uptake of irrigated winter wheat (Triticum aestivum L.) cv. Kupava in Khorezm,
in the dry lands of northwest Uzbekistan. CropSyst was calibrated using findings of field experiments of first
two years data and validated for the third season results. A relative root mean squared error of 11% proved the
accuracy between simulated and observed aboveground biomass and grain yield in third season. Simulation
results indicated that despite the prevalence of a shallow groundwater table, full irrigation (580 mm) and
nitrogen (180 kg ha-1) supply according to crop demand are prerequisites to achieve high grain yields. An
exception may exist when the groundwater table is sufficiently high to overcome irrigation deficits (the case in
normal weather years) and N supply is sufficient to produce AGB and root growth that allow water uptake
from the water table. The potential N uptake of winter wheat was simulated to be 229 kg N ha-1, which
corresponded well with the empirical data. Scenario analyses showed that N-leaching was high and ranged
from 63 kg ha-1 to 106 kg ha-1 when irrigated between 749 to 869 mm during the first two cropping seasons.
The simulated N leaching was lowest and ranged from 7 kg ha-1 to 15 kg ha-1 when irrigation was only 148 to
395 mm during the validation year. The considerable N losses during leaching and high N-uptakes by wheat
together resulted in a negative N-balance even during applications of 180 and 240 kg ha-1 of N-fertilizer. N
scarcity in the N-balance was reduced with increasing N-fertilizer amounts and ranged from – 29 to -153 kg N
ha-1 in two years. Despite a common shallow groundwater table in the region during some time of the year,
scenario analysis revealed that only full irrigation-water (580 mm) and N supply according to crop demand
(180 kg ha-1) guaranteed high grain yields, unless the water table is permanently shallow to overcome
irrigation deficits. Limited irrigation and N application (40% and 55% of ‘optimal’, respectively) in
combination with a groundwater table below 3 m resulted in a 55% yield decline. The cropping system model
CropSyst has proven a robust tool for assessing the influence of water and N dynamics and predicting yield of
irrigated winter wheat under shallow groundwater tables in the Aral Sea basin of Uzbekistan. The model has a
good expansion potential for application in comparable Central Asian regions.
Key words: CropSyst; crop water demand; deficit irrigation; Khorezm

30
Jerusalem artichoke (Helianthus tuberosus L.) as a new source for reclamation and
improvement of food security from waterlogged and saline soils in Chuy Valley in
Kyrgyzstan
A.K.DOLOTBAKOV, T.К.MAMBETOV
Author affiliation:
Innovative Center of Phytotechnology, National Academy of Science of Kyrgyz Republic
Contact details:
E-mail: alhor6464@mail.ru
Since the spring of 2013 activities on introduction of six varieties of Jerusalem artichoke at water logged
(marginal lands) were started on the base of "Jany-Jer” experimental site. The research has shown the
advantages of “Interest” topinambur variety based on its biological productivity and nutrient quality of tubers
in comparing with other varieties. The studied varieties also differ by the transpiration intensity (TI) which is
one of the most important indicators of water regime of plants. At the beginning of the vegetation season
when air temperature is relatively low and humidity of top soil layers is high, TI has a range of 0.8 to 2.0 g/g
of wet weight per an hour. By the end of the vegetation season TI is reduced by 20-30%, which is primarily
caused by the leaves aging.
Water-holding capacity of leaves of majority investigated varieties rises by the summer months and reaches
up to 20-25% after three hours of exposure of cut leaves in the laboratory. Water deficit in the leaves varies
depending on the vegetation, climatic conditions and varieties. Maximum values were observed at midday at
the active phase of growth and development, reaching up to 30%. Probably for the Jerusalem artichoke is
characteristic a quick response to changing environmental conditions by means of restructuring the internal
mechanisms of physiological responses.
We have also analyzed the content of traces of heavy metals, macro and microelements in the tubers, (34
elements using ICP - spectrometry). Results have shown the specific varietals response. Moreover, the
analysis on the presence of first risk group heavy metals (Cd, Hg, Pb, Zn, Se, Ba, Ni, Cu) showed that the
values do not exceed the MPC standard.
Thus, Helianthis tuberosus due to its high salt and waterlogged tolerance may be recommended for the
reclamation and increasing food security from marginal lands in Kyrgystan by producing high quality tubers,
which are not affected by toxic salts or traces of metal pollution.
Key words: waterlogged, environmental pollution; transpiration intensity; tuber quality; heavy metals;
Kyrgyztan

31
Investing in land reclamations to improve agricultural productivity and rural livelihoods in
Central Asia
Botir DOSOV
Author affiliations:
Innovation Platform Coordinator, CGIAR Research Program on Dryland systems in Central Asia
Contact details:
E-mail: dosov.b@gmail.com
Address: 6, Osiyo Street, P.O. Box 4375, Tashkent, 100000, Uzbekistan
Phone: +998712372130/69
Fax: (+998 71) 1207125
Abstract
The consequences of climate change have a negative impact on agriculture in the CA region, which has
already been affected by the severe outcomes of the recent global economic crisis. In addition projected
population growth, particularly of the urban population, will increase demand for food and prices, which in
turn will result in even greater use of limited natural resources. Ultimately, these problems are a particular
threat to vulnerable groups, including to people with low incomes. Thus, the region faces the challenge of
solving these problems, and it is necessary to take action to ensure peaceful, sustainable development and food
security in the CA countries. Given these challenges, improving agricultural productivity, increase the quality
and quantity of food through intensification and diversification through sustainable land and water
management in context mitigating the negative impact of the consequences of climate change and land
degradation caused by anthropogenic factors on faming systems are considered as primary goal of the
development agenda in the agrarian sector. The agricultural sector is experiencing considerable difficulties in
the management of natural production factors, because of soil degradation and salinization.
To create on irrigated land the conditions favorable to agricultural producers in the countries of Central Asia, it
is necessary to ensure proper operation of all segments of irrigation and drainage networks, and this requires
the large-scale civil work on the reconstruction of the entire drainage system (main, inter-farm collectors and
farm drainage network). To implement all these works is practically difficult, as it requires significant
investments. However, efficiency and effectiveness of the investment to improve agricultural productivity and
increase farm incomes through improving water management and soil fertility, based on a programmatic and
systemic approach combining the out-scaling of conservation technologies, identifying and introducing of
stress tolerant, high-yielding and improved quality varieties, enhancing rural advisory services, post-harvest
technologies and processing throughout the value chain can measured and validated for justification and
advocacy of large public and private funds inflows in agrarian sector ensured by mid-term and long-term
agricultural development programs. The measuring impact of investments to support those integrated
interventions should be based on financial and economic analysis, considering different scenarios “with” and
“without” programmatic interventions combined with models to reduce the risk of inefficient utilization of
resources.
The paper will describe the approaches based on feasibility analysis of investment and models of investment
risk management, and methodological rationale for increasing public and private funds inflows in agrarian
sector through programmatic interventions on land reclamation in irrigated systems of Central Asia.
Key words: investments; productivity; risk analysis

32
Arid lands and combating aridity in Turkey
Derya EŞEN1*) and İsmail BELEN2)
Author affiliations:
1) Department of Forest Engineering, Faculty of Forestry, Düzce University, Düzce, TURKEY
2) General Directorate of Combating Desertification and Erosion, Ministry of Forestry and Water Affairs,
Ankara, TURKEY
Contact details:
E-mail: deryaesen@duzce.edu.tr
Address: D.Ü. Orman Fakültesi Konuralp Yerleşkesi Düzce, TURKEY
Phone: +00905421137
Fax: +00905421136
Abstract
With a total land of almost 784 thousand km2, Turkey lies between 36° 42° N and 26°-45° E, bridging Europe
and Asia. Aridity has been significance issue in the Turkish history: A prolonged arid period that occurred in
the Middle Asia in 375 BC have forced millions of Turks migrate to different parts of the world, one of which
is the Anatolia, an event called the Great Migration in the Turkish history. With 29 and 58% of its land
characterized as arid and semi-arid, respectively, aridity still poses a significant environmental and socio-
economical issue in Turkey. Most of arid and semi-arid land of the country is located in the Thrace, Inner
Anatolia, the inland of the Middle Black Sea, the eastern portion of the Easter Anatolian Regions.
Anatolia has had many different civilizations in its history. Many factors including inappropriate and intensive
land use and agricultural practices, disturbance of meadows and forests, and heterogeneous topography put
Turkey a sensitive place for erosion: At least half of agricultural, pasture, and forest land is prone erosion. In
the face of increasing effects of the climate change, this issue is climbing in the country’s priority list.
Accordingly, a separate body in the Turkish government – the General Directorate of Combating
Desertification and Erosion (ÇEM) - was established in Ministry of Forestry and Water Affairs in 2011 is
charged to directly address the issue. The efforts to deal with erosion and desertification in the country have
picked up pace with the Combating Desertification National Strategy. The five-year program generally aims
to prevent and/or decrease land degradation, to rehabilitate partially degraded lands, and to reclaim desert land
on almost 1.5 million ha between 2013-2017. An integrated approach addressing the ecologic, economic, and
social issues of desertification is adapted for the program. In this respect, with legal regulations, institutional
restructuring, and educational and awareness-promoting activities, institutional capacity was aimed to be
enhanced. In addition, many practices including afforestation, rehabilitation, erosion control, and protection of
existing forests, rehabilitation of degraded forest sites and pastures, water efficient practices, efficient
agricultural techniques, use of renewable energy sources were put in work. Various programs launched within
the framework of the Strategy include the rehabilitation of Konya Eregli Watershed, monitoring desertification
in partnership with Portugal and Italy, adopting functional forest management in place of that for wood
production, putting a soil conservation and land use policy in work, educational initiatives to create a
desertification-aware community. Efforts also included use of site preparation (i.e. terraces, plowing, ripping)
and growing drought-tolerant native tree species (i.e. Austrian pine, Lebanon cedar, cedar, oleaster, pear,
morus, almond, common hawthorn, tamarisk).
Key words: arid land; desertification; organization; rehabilitation

33
Sustainable diversity of salt tolerant fodder crop - livestock production system through
utilization of saline natural resources: a case study from Egypt
Hassan M. EL SHAER1*) & A. J. AL DAKHEEL2)
Author affiliation:
1) Desert Research Center, Mataria, Cairo, Egypt Gansu Agricultural University
2) International Center for Biosaline ( ICBA), Dubai,UAE
Contact details:
E-mail: a.dakheel@biosaline.org.ae
Abstract
Sinai Peninsula, Egypt, is considered one of the main development pillars at the national level. Its ecosystem is
fragile where water resources are slightly poor (saline ground water or mixed water) in addition to low fertility
soils with high level of salinity. Utilization of these resources in growing salt tolerant fodder crops, cereals and
oil plants may contribute to enhance the available natural resources and improve the standard of living of local
people. International Center for Biosaline ( ICBA), Dubai and Desert Research Center (DRC), Egypt have
been cooperating in joint projects to introduce the concept of saline agriculture - livestock system to the local
people in Sinai Peninsula since 2008. The paper aimed at introducing and evaluating environmentally and
economically feasible forage – livestock systems using brackish water in Sinai. In addition, assessing the
impact of technology development and adoption on forage – livestock productivity systems. The studies were
conducted at both research and smallholder farmers levels in two regions of Sinai: in South Sinai where
groundwater (4000 to 10000 ppm TDS) is the main source for irrigation and soil is calcareous (calcium
carbonate ranges from 30-80%). In North Sinai where a mixed water from El Salam canal is used for
irrigation and the soil is extremely saline with high water table.
The most important obtained results could be summarized in the following points:
1. Increased the degree of awareness among farmers for seed production technology of fodder crops and
selection improved varieties and ensure genotypes purity. Adopting integrated management package for seed
production. Adoption of the most salt tolerant genotypes for 3 forage crops (Pearl Millet, Sorghum and
Alfalfa), 2 cereal crops (Triticale and Barley) and two oil crops (Safflower, Rap). In addition to Fodder beet,
Panicum, Kokhia, Sudan grass, Ray grass, Medicago arborium and some nutritious fodder shrubs, e.g.,
Atriplex, Leucenia, Sesbania, acacia sp.
2. Active participation of farmers in development of improved management packages to improve
irrigation water use efficiency and to raise productivity of forage and cereal crops and improve livestock
production.
3. Improve the nutritive values and storage capacity of animal feeds through introducing new techniques
(silage and feed blocks production).
4. Economic evaluation of feeding animal on salt tolerant fodders at farmer's levels showed an increase
of about 60% in milk production ; reduced feeding costs about 40%. Accordingly, 70%.increament of family
income was achieved.
Key words: salinity, fodder crops, animal, farmer participation, Sinai, irrigation

34
Nutritional evaluation of forage kochia (Kochia prostrata) as alternative forage for cattle
using a dual-flow continuous culture system
A.P. FACIOLA*), E. MAROSTEGAN DE PAULA, L. GALORO DA SILVA, T. SHENKORU,
Y. YEH and J. BUNKERS
Author affiliation:
Department of Agriculture, Nutrition & Veterinary Sciences, University of Nevada, Reno, U.S.A.
Contact details:
E-mail: afaciola@cabnr.unr.edu
Address: University of Nevada, , 1664 North Virginia Street, Mail Stop 202, Room 112, Reno, NV 89557
Abstract
Forage kochia (FK; Kochia prostrata) has the potential to be used as forage for cattle due to its high nutritional
value and ability to grow well on arid lands. The objective of this experiment was to determine the nutritional
value and rumen fermentation characteristics of FK as compared to alfalfa hay (AH) and orchardgrass hay
(OH). Diets were randomly assigned to six dual-flow continuous culture fermenters in a replicated 3X3 Latin
square arrangement with three 10-d experimental periods consisted of 7-d for adaptation and 3-d for sampling.
Fermenters were fed 72 g of DM/d equally divided in 12 portions of 1 of 3 diets: Diets were (1) 100% AH, (2)
100% OH, and 100% FK. Liquid and solid dilution rates were adjusted to 10%/h and 5%/h, respectively. A
sample of 500mL from each fermenter was taken on d-8, 9, and 10. Two subsamples of 10ml were filtered
through two layers of cheesecloth, and were preserved with 0.2 mL of 50% H2SO4 and were centrifuged for
subsequent ruminal NH3-N and VFA analysis. Statistical analyses were performed using SAS. There were no
differences (P >0.05) among treatments for total VFA, molar proportion of acetate, propionate, butyrate, and
branched-chain VFA. However, there were differences (P=0.04) for NH3-N. Ruminal NH3-N observed was
higher for FK compared with AH and OH, indicating a higher N availability for microbial growth. These
results indicated that FK may be a viable alternative for cattle. This is especially important for arid lands such
as the U.S. Great Basin.
Key words: forage kochia; Alfalfa hay; in vitro fermentation

35
Prediction of introduction capabilities of Pinus eldarica Medw. by using of geographical
information technology
Vahid FARZALIYEV1) & Aleksandr AFONIN2)
Author affiliations:
1) Central Botanical Garden, Azerbaijan National Academy of Sciences, Azerbaijan
2) Saint-Petersburg State University
Contact details:
E-mail: v.farzaliyev@yahoo.co.uk
Address: Central Botanical Garden, Azerbaijan National Academy of Sciences, Baku AZ1073, Azerbaijan
Abstract
Pinus eldarica Medw. (Eldar pine) is a rare and endemic species of flora of Caucasus inscribed in the World
Red Book. This species has high adaptation potential as a drought, wind and salt tolerant able to grow on
alkaline low productive soils and other limited climatic variables that was developed during evolution natural
selection. These adaptive peculiarities make this species unique for introduction into culture for combat
desertification and improve productivity of degraded ecosystems. Our studies are focused on eco-geographical
analysis of Pinus eldarica and geographical mapping using GIS technologies to forecast optimal model for
long term cultivation of this rare species. Based on the data on the ecological limits of Pinus eldarica growing
in Azerbaijan, obtained by using GIS technology, the territory of introduction of this species is modeled.
Ecological amplitudes of this species are selected on the following limiting factors of the environment: the sum
of active temperatures, annual precipitation and temperature for January. According to the foregoing as
ecological limits of growth Eldar pine for the main limiting environmental factors were chosen: the sum of
active temperatures above 0° C from 4500 to 7000° C, annual precipitation from 270 to 1000 mm, the
temperature for the month of January> -3.5°, the Hydrothermal Coefficient (HTC) for the summer season is
not above 0.85. The data on the environmental limits and the presence of environmental maps allow simulating
the area of possible distribution or the introduction of Eldar pine. The obtained model allows pre-identifying
the possible areas of introduction and perspective territory for the re-introduction of Pinus eldarica under low
quality environments described in this article. It is revealed that the Eldar pine is characterized by wide limits
of the possible introduction for the growth in the Central and Minor Asia, some parts of Southern Europe,
Northern and Southern America, Australia etc.
Key words: GIS; Pinus eldarica; Azerbaijan; modeling; prognosis; habitat; introduction; planting

36
Technical cooperation project for promotion of the Silk-Road industry in Uzbekistan
Hajime FUGO*1), Mitsuo OOSAWA1), Makoto IIKUBO1), Yoshiko KAWABATA1),
BAHTIYAR Nasirllaev 2) and SHAVKAT Umarov 2)
Author affiliations:
1) Tokyo University of Agriculture and Technology
2) The Uzbek Scientific Research Institute of Silk Breeding
Contact details:
E-mail: fugoh@cc.tuat.ac.jp
Address: 3-5-8 Saiwai-Chou, Fuchu, Tokyo 183-8509, Japan
Phone: +998909002804
Fax: +998711207125
Abstract
Technical cooperation project for promotion of the Silk-Road industry in Uzbekistan started at 2013 between
The Uzbek Scientific Research Institute of Silk Breeding and Tokyo University of Agriculture and Technology
under the Japan International Cooperation Agency (JICA) partnership program. The main targets are the
Sericulture and Silk industry in west side of the Uzbekistan (Khorezm region) and the technological transfer
model to increase sideline income of remote villages. Silkworm eggs of Japanese races were introduced to the
Khorezm region. These animals (KinshuЧShowa and ShunreiЧHougetsu) were reared in farmers supported
with the JICA expert. Comparing with the Uzbekistan races, the excellent quantities and qualities of cocoons
obtained in spring and summer seasons. In Uzbekistan, silkworm-rearing in hot season did not because of 1)
qualities and quantities of the mulberry leaves are quit low 2) several labors for the cotton are hard. However,
prices of the cocoon both seasons increased about 20-30% and the farmers could obtain more income as
results. These results indicate there is a high level of the silkworm rearing techniques. To increase the silk
industry in Uzbekistan, many problems have to be solved. In our project, focusing following issues (1) the high
level of keeping techniques of mother races of silkworm (2) male and female separation techniques for
production of the silkworm hybrids (3) the planting and keeping the high quality of mulberry races (4) the
establishment of the systems for distribution of high qualities of “Silk-Road Bland Silk”, are the mile stones.
Key words: Silk industry; Bombyx mori; Uzbekistan; JICA partnership program

37
Settings and geo-environmental conditions of developing greening soil materials (GSM) for
cultivating licorice (Glycyrrhiza uralensis) in Mongolian arid region
Zentaro FURUKAWA*1), Noriyuki YASUFUKU1), Kiyoshi OMINE2), Atsushi MARUI3),
Ren KAMEOKA4), Indree TUVSHINTOGTOKH5) and Bayart MANDAKH5)
Author affiliations:
1) Faculty of engineering, Kyushu University, Fukuoka, Japan
2) Faculty of engineering, Nagasaki University, Nagasaki, Japan
3) Faculty of agriculture and life science, Hirosaki University, Aomori, Japan
4) Graduate student /Faculty of engineering, Kyushu University, Fukuoka, Japan
5) Institute of botany, Mongolian Academy of science, Mongolia
Contact details:
E-mail: z.furukawa@civil.kyushu-u.ac.jp
Address: 744 Moto-oka Nishi-ku, Fukuoka, Japan 819-0395
Phone/Fax: +81928023383
Abstract
Desertification is characterized as land degradation, and is one of the most critical geo-environmental
problems. The purpose of this research is developing the sustainable and high value-added anti-desertification
method, which can accomplish geo-environmental improvement, conservation and utilization of local
ecological resource.
In order to establish this method, we developed a pipe-shaped body of Greening Soil Material (GSM). GSM is
made of sand and compost which can be taken from Mongolian arid region. Moreover, it mischaracterized to
have high water and nutrient retention capacity to support growing plants. Therefore, it could be made and
installed in the ground easily and inexpensively, and it is identified as simple self-watering system without any
water supply.
As the suitable plant for greening, we selected licorice (Glycyrrhizauralensis). It is one of the most valuable
medicinal plants which natively grow in arid region, such as Mongolia and China. However, the distribution
area is decreasing due to human factor, which are over taking and over grazing and lowering of ground water
level caused by precarious precipitation. Due to these facts, it was picked up as “precious genetic resource” at
COP (Conference of the Parties, Convention on Biological Diversity) 10 because supply shortage as herbal
medicine occurs for following reasons. And as a result, land degradation is progressing. Therefore, planting
licorice by using GSM could be sustainable and high value-added greening.
Our previous research revealed that the place licorice lives natively had 5 % or more water content in the
ground, and non-habitat of licorice had water content less than 5 %. Moreover, habitat of licorice had high
saline compounds, especially CaCO3 contains 10 % in dry soil. Therefore, water and calcium condition in
GSM can be the most important factor for cultivating licorice.
In this paper, in order to grasp the effects and functions of GSM for protecting progress of desertification, field
cultural experiments were conducted in non-habitat of licorice without any irrigation except before setting for
nine months. Then we focused on soil water and calcium condition in the GSM before and after the
experiment, setting direction of GSM and outer layer processing. The alive ratio of licorice was researched
after nine month from the start of experiment in each condition, at the same time, water and saline content
were also researched in GSM before and after testing.
From the results of experiments, suitable geo-environmental conditions in GSM for growing licorice could be
suggested.
Key words: desertification; soil water environment; soil saline environment, licorice (Glycyrrhizauralensis)

38
Biodiversity and occurrence of the parasitic microfungi on walnut trees (Juglans regia L.)
in Western Tien-Shan
Yusufjon GAFFOROV
Author affiliation:
Laboratory of Mycology, Institute of the Gene Pool of Plants and Animals, Uzbekistan Academy of Sciences,
Tashkent, Uzbekistan
Contact details:
E-mail: gafforov@mail.ru
Abstract
Walnut forests of Bostanlyk district of Tashkent Region are located in the northern area of walnut forests in
Western Tien-Shan. They are located on slopes of Karjantau, Ugam, Pskem,Koksu, western part of Chatkal
and northwest slopes of Kuramin ranges at a height from 800 up to 2300 m above sea level. Forest stands with
walnut are widespread in Uzbekistan up to the area of about 4000 hectares. The walnuts arevery sensitive to
unfavourable environmental conditions (site factors, climatic factors) and also susceptible to diseases and
attacks by pests. Climate change causes changes in phenology and distribution of fungi, mainly, pathogenic
fungi. Some climate change research show that there are several scenarios of these changes such changing in
habitat of individual species and fungal biota; certain ecological adaptation to warming conditions, such as
prolongation of breeding cycles, shifts in time of dormancy and arousal, shorter cycles of quiescence foci of
particularly dangerous infections. Fungi are very frequent parasites on walnut trees. According the many
literature dates dealing with fungi parasites on walnut trees, which originate from generative reproduced
organs. Many of trees notice occurrence of the brown spots on the leaves of walnut. This disease - anthracnose
is caused by the parasitic fungus Gnomonia leptostyla (Fr.) Ces. et deNot.
During 2013-2014 the health condition of Juglans regia L. in the Bostanlyk District of Tashkent region was
evaluated in relation to the location of the trees and the assessment of occurrence, spread and harmfulness of
parasitic fungi. We detected on stem the following pathogens: Melanconium juglandinum Kunze, Cytospora
juglandina Sacc., Phoma juglandis (Preuss.) Sacc., Nectria cinnobarina (Tode ex Fr.) Fr. with conidial state
Tubercularia vulgaris Tode. On branches: Melanconium juglandinum (Kunze), Cytospora juglandina Sacc.,
Phoma juglandis (Preuss.) Sacc., Nectria cinnobarina (Tode ex Fr.) Fr. with conidial state Tubercularia
vulgaris Tode, Diplodina juglandina Hollós, Dothiorella gregaria Sacc. On leaves: Gnomonia leptostyla (Fr.)
Ces. et de Not. And anamorph Marssonina juglandis (Lieb.) Magn., Ascochyta juglandis Boltsh., Microstroma
juglandis (Bér.) Sacc., Microsphaera juglandis (Jacz.) Golov., Mycosphaerella juglandisK. J. Kessler,
anamorph Cylindrosporium juglandis F. A. Wolf, Diplodia juglandis., Steganosporium compactum Sacc. and
on fruits: Colletotrichum gloeosporioides (Penz.) Penz&Sacc. Teleomorph Glomerella cingulate Stoneman
(Spauld. & H. Schrenk). The degree of leaf damage was determined by Marssonina juglandis to Juglans regia
in Western Tien-Shan.
Key words: fungal diversity and occurrence; parasitic microfungi; walnut trees; Western Tien-Shan

39
Evapotranspiration and Land use Land cover (LULC) change analyses in Karshi steppe,
Uzbekistan for water requirement analysis
Zafar GAFUROV*), Akmal KARIMOV
Author affiliation:
International Water Management Institute (IWMI Central Asia)
Contact details:
E-mail: z.gafurov@cgiar.org
Address: Apt. 123, Bldg. 6, Osiyo street, Tashkent 100000, Republic of Uzbekistan
Phone: +998712370445
Fax: +998712370317
Abstract
Significant land use and land cover change is occurring with increasing demography all over the world.
Quantifying LULC change rate is important for improvement of land and water management system,
agricultural resources and environmental ecosystems. Today, Remote Sensing (RS) data and Geographic
Information System (GIS) is widely used anywhere else of the world to identify changes in LULC. These two
subjects are becoming very important also in Central Asia, one with its strength on spatial data analysis and the
other being a very good alternative data source in data limited regions such as Central Asia. Thereforethis
research focuses on estimating land use dynamics and land cover change in Karshi steppe using remotely
sensed information. Karshi steppe was selected as a study area located in thesouthern part of Uzbekistan
because huge extension of irrigated area (from 50.000 to about 350.000 ha)for mainly cotton production was
undertaken during Soviet Union which had increased water demand in this area. Land cover type analyses in
this study were done in two levels. In level one, analyses of land use area dynamics starting from 1972 to the
present time was carried out and land cover type classification was carried out in level two. In level 1 detection
of land use areas for the years of (1972, 1978, 1987, 1998, and 2010) was computed to get boundaries of
irrigated area for the purpose of computing crop type classification within irrigated area. Crop classification
was then carried out using supervised classification for recent images where we had ground truth information
and Normalized Difference Vegetation Index (NDVI) approaches to identify crop types from old images
through phenological development of different crops. Outcomes of this crop classification further applied to
calculate actual evapotranspiration for water requirement analyses of different crop types.
As evapotranspiration (ET) is part of water balance and it is a key element for water management and
irrigation performance scheduling, the potential and actual ET was computed using Hargreaves ad Samani
method in one hand. In the other hand spatially distributed ET data from RS (MODIS) was obtained for the
region for comparison to station based ET results. The comparison of station based and RS based ET gave
good agreement. The time series analysis of RS based ET was also undertaken in this study and the results
show that for the last 10 years slight increase of ET could be observed in this region which can be explained
with the fact that more and more irrigation area extension is taking place for which irrigation water is
necessary. Such ET estimation is a prerequisite to study total water demand for the whole study area using
distributed ET information which is an outlook to this research. The outcomes of this study can be a good basis
for future resources, water management and water allocation within study area and also for water users
associations (WUAs).
Key words: land use; land cover, remote sensing, evapotranspiration, NDVI, classification

40
Crop modeling as a tool for assessment of climate change impact on crop development and
productivity
Mariya GLAZIRINA1*), Rolf SOMMER2), Debra TURNER3), Tulkun YULDASHEV1)
Author affiliations:
1)Integrated Water and Land Management Program of the International Center for Agricultural Research in the
Dry Areas (ICARDA), Uzbekistan
2)Soils Research Area, CIAT, Kenia
3) Integrated Water and Land Management Program, ICARDA, Jordan
Contact details:
E-mail: m.glazirina@cgiar.org
Address: ICARDA-CAC, Osiyo Street, 6/106, 100000, Tashkent, Uzbekistan
Phone: +998909002804
Fax: +998711207125
Abstract
Stability of food production and food security, particularly in view of climate change and climate variability, is
a subject of global concern and an important area of research for agricultural scientists whose work will inform
farmers, land managers, policymakers and other stakeholders. This issue is of great importance for arid areas
such as Central Asia. Increases of CO2 concentration and air temperature, changes in precipitation amount and
distribution that are predicted by the end of the 21st century will undoubtedly impact the development and
productivity of crops. The procedure presented here assesses the effect of climate change on using the freely-
distributed CropSyst crop simulation model, capable of simulating the impact of climate change on crop
growth in respect to CO2 response, temperature response, water stress and rainfall variability. CropSyst is also
able to account for the impact of shallow groundwater (upward movement of water in the soil), salinity, and
evapotranspiration in arid environments as well as consider soil conservation measures such as zero-tillage
and surface residue retention. Climatic data for crop simulations under future climate conditions are obtained
by two methods: 1) use of the LARS-WG weather generator for disaggregation of downscaled monthly data
provided by selected global circulation models; 2) the use of the online MarkSim weather generator
application on the CIAT website. Both methods provide statistically-stable weather data predictions. To reflect
diversity of land and water management used by farmers, it is proposed to consider three levels, poor, optimal
and suboptimal management, created individually for each productive system of a country, and based on
results of socio-economical surveys and national recommendations. The method provides assessment of the
impact of climate change on aboveground biomass accumulation, yield, length of crop development stages,
irrigation requirements and transpiration use efficiency, probability of occurring of stresses caused by change
of precipitation amount, and temperatures extremes and variability. Practices aimed at reducing or adapting to
the negative impact of climate change can be identified and tested. The method application and results are
demonstrated in an example of wheat grown in Central Asia.
Key words: climate change impact assessment; crop modeling; prediction of crop production; wheat

41
Crop modeling as a tool for improving crop and water productivity in Indira Gandhi
Canal Command Area
Mariya GLAZIRINA1*), Sita Ram JAT2), Amit KUMAWAT3) , Ramesh KUMAR2),
Vinay NANGIA4), Vijay Singh RATHORE5), Moti Lal SONI5), Narendra Dev YADAVA5)
Author affiliations:
1) Integrated Water and Land Management Program, ICARDA-CAC, Uzbekistan
2) Swami Keshwanand Rajasthan Agricultural University, India
3) Integrated Water and Land Management Program, ICARDA-SACRP, India
4) Integrated Water and Land Management Program, ICARDA, Jordan
5) CAZRI Regional Research Station, Bikaner, India
Contact details:
E-mail: m.glazirina@cgiar.org
Address: ICARDA-CAC, Osiyo Street, 6/106, 100000, Tashkent, Uzbekistan
Phone: +998909002804
Fax: +998711207125
Abstract
The Indira Gandhi Nahar Pariyojana (IGNP) is an enormous multi-purpose irrigation and settlement project,
implementation of which started in the late 1960s. The goal was to transport and use over l06 billion cubic
meter of water annually withdrawn from the Ravi-Beas River in the north of India for large-scale irrigation in
Rajasthan. The aim of project stage I, commenced in 1974, was to provide water for irrigation of about
553,000 ha in the north of Rajasthan. This had been achieved in 2000. Stage II followed in 1980 and was
completed only in the last decade, with the aim to add another 1.41 M ha of semi-arid and range-land/desert
area in north-west Rajasthan, south of the stage I area. Implementation and management of the IGNP had been
largely successful. Over the years several million people migrated into the region and were able not only to
maintain their own livelihoods but also to produce food surpluses. However, ever since the inception of the
IGNP, challenges – partly natural partly anthropogenic – arose: low water productivity, water logging and
salinity, low irrigation efficiency, low nutrient-use efficiency, wind erosion on Stage I area, and low land as
well as water productivity, unreliable water supply, yield variability from year-to-year, low water and nutrient
holding capacity of sandy soils, wind erosion, lack of crop diversification on Stage II area. Due to edaphic
conditions and because of major differences in irrigation water availability (abundant in the north, scarce in the
south), the cropping systems of stage I and stage II command area are quite different: stage I is characterized
by flood- or furrow-irrigated cropping systems with rotations such as wheat-cotton-wheat or mustard/chickpea-
cluster bean-mustard/chickpea; stage II is characterized by sand dunes which have been stabilized with shrubs
and trees, and interdunal plains where agriculture is practiced.
To improve water and land productivity through better water management, appropriate cropping patterns and
optimal cultural practices the biophysical simulation model CropSyst is applied to understand the existing soil-
water balance, movement of salts, fluctuations of groundwater, crop growth characteristics etc., as well as to
study the effectiveness of various intervention measures such as deficit irrigation, land management,
optimization of irrigation scheduling, and others.
During the years 2012-2014 the field data for summer and winter seasons were collected from 20 farmer field
of stage I area and the model was calibrated for 5 crops (clusterbean, cotton, mustard, wheat and barley).
Calibration for clusterbean, mustard and wheat was subsequently validated using the field data obtained from
stage II fields. Besides for the stage II the model was calibrated for cumin, gram, isabgol and groundnut.
Observed data on phenology, green area, biological and economical yield, nitrogen-uptake and soil moisture
were used for calibration and validation of the model. A number of water management scenarios based on
deficit irrigation and optimization of irrigation scheduling was developed and tested using the calibrated model
to identify those can be suggested to farmers to improve water and land productivity and save water.
Key words water and land productivity; crop modeling; prediction of crop production

42
Agrobiological features of the organization of seed farming of potatoes in Uzbekistan
Murtoza HASANOV1*), Ibrahim ERGASHEV2),
Author affiliations:
1) Department of Biology, Faculty of Natural Science, Samarkand State University,
2) Samarkand Agricultural Institute
Contact details:
E-mail: murtoza77@rambler.ru
Address: Index.140104, Uzbekistan, Samarkand city, University boulvard, 15
Phone: +998-66 2311586
Abstract
In Uzbekistan quality of seed potatoes substantially depends on an initial material from which it grow up.
Therefore in practice are applied various ways of receiving initial virus-free tubers - families of chiefs of elite.
However, possibility of repeated infection of these plants isn't excluded by virus and mycoplasma diseases.
Crop losses from virus diseases, depending on degree and character of infection of plants, from a grade, soil
climatic conditions and an agro technology hesitates from limits of reliable distinctions to his full death.
Therefore at all stages is of seed farming necessary observance of the measures directed on preservation of
revitalized plants from reinfection.
Researches were conducted on a flat zone of the Zarafshan valley.
The number of wingless aphids on plants was determined by the 100 leaves method, and supervision over
dynamics of aphids flying - carriers of viruses of potatoes by method "Merike's yellow water vessels".
Reservation of viruses defined at plants selected near potatoes crops.
By researches had established that with increase in year of reproduction of an on the meristem plants is going a
process of reinfection by viruses. The studied grades differ on intensity of reinfection with a virus infection. It
is confirmation of that repeated infection with viruses of an initial material substantially depends on biological
features of each grade.
With our investigations revealed some weed plants in which the viruses, striking potatoes can be reserved.
Such plants appeared a nightshade black (Solanum nigrum), a bindweed field (Convolvulus arvensis), a dope
ordinary (Datura stramonium), a plantain lanceolate (Plantago lanceolata), etc. However mechanisms of
existence of viruses in these plants and reaction of reservators to viruses aren't clear yet. If to consider that
viruses have no own metabolism and therefore can exist only in live organisms, it is possible to assume that
viruses in the course of evolution adapted to "owners" or also strike them as potatoes.
It aws established that density of population, dynamics of development and specific structure of carriers of
viruses- aphids depends on soil and climatic and weather conditions of each region. For example, on a flat
zone mass flying of the aphids observed two times in a year: the first mass flying of insects observed in the
third decade of the May, the second - at the beginning of October.
However, it should be noted that bulk of the caught aphids made peach (Myzodes persicae Sulz) and melon
(Aphis gossypii Heinse) aphids. The registered low quantity of wingless aphids (15-87 pieces of/100 leaves)
apparently, is connected with low relative humidity of air during vegetation of plants.
We consider that in elaborating of the complex of organizational, preventive, agro technical and protective
measures directed on cultivation of qualitative seed potatoes it is necessary to consider the above-stated
agrobiological factors of each concrete region.
Key words: virus; potato; reservation; farming; aphids

43
Project finding research on renewal of coal boilers in heat supply stations in Kyrgyzstan
Tomoyasu HIRANO1*), Toshikazu TSUMURA2), Fumiaki INAGAKI3)
and Yoshiko KAWABATA4)
Author affiliations:
1) Mitsubishi Research Institute, Japan
2) Bab-Hitachi Industrial Co., Japan Swami
3) Keio University, Japan
4) Tokyo University of Agriculture & Technology, Japan
Contact details:
E-mail: hirano@mri.co.jp
Abstract
The reliable heat supply system is essential in severe cold areas such as the former Soviet Union in the winter.
However, the infrastructures of heat supply system in the Kyrgyz Republic have been deteriorating without
being sufficiently updated for over 20years since the collapse of the former Soviet Union. The updating of the
aging facilities has become a pressing issue in Kazakhstan. At the same time, there is a growing concern about
global warming caused by CO2 emission from fossil fuel combustion: the environmental factors must be taken
into consideration when updating the facilities.
Based on the awareness of these problems, we conducted a survey to find project opportunities associated with
the coal boiler renewals of the main heat supply stations in the Kyrgyz Republic. Based on the survey findings,
we selected the locations with high feasibility by comparing the potential target locations. Then, we made the
preliminary conceptual design, the examination of business plans, and the estimation of CO2 reduction
potentials for the selected locations.
In Kyrgyz, the boilers of the size of the steam generation rate around 20t/h are prevalent, and replacement
demands of 9 cans are expected in the heat supply stations at four locations. In addition, we confirmed that
modernization of the unmovable power supply stations (power stations) is necessary and the facilities should
be completely rebuilt and replaced. There is an intention to convert coal-fired and mazut fired to natural gas-
fired facilities, thereby creating potential needs for additional coal boilers. We analyzed the coal samples
obtained from the major coal mines such as Karakeche, Sulyukta, etc. as well as samples of the coal imported
from Kazakhstan that are currently used, and found out that the properties of the coal used in Kyrgyzstan are
extremely uneven by the origins and the types. Thus, we think the Fluidized bed system is suitable for the
following reasons: it is capable of stable combustion with the least constraints in terms of properties and
shapes of the fuel, and the medium circulation of it can discharge the incombustible articles out of the system
even if they are mixed in. The analysis of the coal-ash samples after combustion in Gagarin Heat Supply Plants
in Bishkek indicated that the unburned carbon portion in the ash was 45% on average. Hence, the combustion
rate of the coal was determined to be 40%. Installation of the new model of Fluidized bed boiler can reduce the
percentage of unburned coal ash after combustion to approximately 10%. In this case, the combustion rate is
calculated to be 92%, and therefore the improvement of the energy consumption efficiency is expected to
become more than double.
We anticipate that assuming the operation of 150 days a year, the replacement of the existing boiler by a fluid
bed boiler of the steam generation rate 20t/h would reduce the CO2 emission of approximately 2,000 tons per
year.
Key words: high-efficiency CCT (Clean Coal Technology), fluidized bed, CO2 reduction, combustion rate
Acknowledgment:
This research is supported by New Energy and Industrial Technology Development Organization (NEDO)
Japan, under supervising by Ministry of Economy, Trade and Industry (METI).

44
Rural reconstruction through introduction of the Japanese lines of silkworm
bombyx mori l. in Fergana province in the Republic of Uzbekistan
Makoto IIKUBO1), Yoshiko KAWABATA2), Masaaki YAMADA3), Shavkat UMAROV4) and
Tsutomu ARIE3)
Author affiliations:
1) The United Graduate School of Agriculture Science, Tokyo University of Agriculture and Technology
2) International Center, Tokyo University of Agriculture and Technology
3) Institute of Agriculture, Tokyo University of Agriculture and Technology
4) Sericulture Institute, Ministry of Agriculture, Uzbekistan
Contact details:
E-mail: iikubouz@gmail.com
Address: 3-5-8 Saiwaicho, Fuchu, Tokyo 183-0054, Japan
Phone: +81423675564
Fax: +81423887618
Abstract
The Republic of Uzbekistan is the third-largest silk producer of the world after China and India. However, the
production of high-quality silk has declined since the fall of Soviet Union, due to the local and imported silkworm
eggs with unstable quality, which undermined the silk production system of the state.
Japan used to be the world’s top silk producer from the turn of the 20th century till 1970s, and made the highest-
quality silkworm eggs sought for by other countries such as China, with the purpose of improving their domestic
silkworms. However, Uzbekistan under the Soviet regime had limited access to those eggs.
In 2009, a project of Tokyo University of Agriculture and Technology (TUAT) funded by the Japan International
Cooperation Agency (JICA) began at six hamlets of Yozyovon County (40°39'41" N, 71°44'37" E) in Fergana
Province, with the goals of increasing cocoon production and improving silk quality by the introduction of
Japanese autumn-breed Kinshu × Showa and spring-breed Shungetsu × Hosho silkworms.
In 2010, the 52 silk-raising farms of TUAT-JICA project produced 4,233kg of cocoons from 1,370g of Kinshu ×
Showa eggs (ca. 2,342,000 worms), i.e., 8.2% more yield than the average of local farms rearing Uzbek and
Chinese breeds.
In 2011, 29 farms produced 2,214kg of cocoons from 717g of Shungetsu × Hosho eggs. Other 23 farms used 970g
of Kinshu × Showa eggs again and produced 3.200kg of cocoon, which turned out 18% more yield than the
average of local farms.
In 2012, Shungetsu × Hosho silkworms were raised in the Silk Center of Fergana Province, with technical
instructions on silkworm rearing, cocoon making, drying and selection, and filature from a TUAT-JICA expert.
This resulted in the production of high-quality silk thread equivalent to 3A level by the Japanese five-level rating
criteria. The local Uzbek farmers proved their skills in silkworm rearing, and the Fergana fiber industry
demonstrated its capability in producing good silk threads. Thus reconstruction of the integrated silk production
system, involving silkworm breed development and maintenance, and technical extension to cocoon producers,
was found essential for the future of Uzbek silk industry.
Key words: sericulture; T.U.A.T.; international technology transfer; Uzbekistan; Fergana Province

45
Numerical simulation of the inundation on theflood plain of Senegal River for
the improvement of the agricultural productivity in Mauritania
Mitsuteru IRIE1*), Bouya Ahmed OULD AHMED2) and Shohei KOMATSU3)
Author affiliations:
1) Alliance for Research on North Africa, University of Tsukuba
2) Institut Superieur d’ Enseignment Technologique, Rosso
3) Graduate school of Life and Environmental Science, University of Tsukuba
Contact details:
E-mail: irie.mitsuteru.fu@u.tsukuba.ac.jp
Address: 1-1-1 Tennodai, Tsukuba, Ibraki, 305-8572, Japan
Phone/Fax: +81298537442
Abstract
Mauritania is surrounded by Algeria, Mali and Senegal. Its population is 3.1 million, total area is 1.03 million
km2, but its 90% is Sahara desert. This east end of Sahara desert shows the rapid desertification.In addition,
this country experienced drought years in 70’s and spontaneous drought happens since it. Mauritanian
government revealed the concrete strategy against that situation. That is the direction of industrial change from
nomadic stock raising to settled agriculture and fisheries.
On the other hand, Mauritania is Rice-importing country. Its import is very heavy burden in the trading
balance and it is hindrance in the economic development. In addition, there are refugees and returners from the
surrounding countries to Mauritania in these years because of its political stability. The area along the Senegal
River is known as the arable land for rice production. Therefore new rice field development in Senegal River
basin is very important issue in this country. However, its water resource is not used effectively and the food
productivity has room for improvement.
The agriculture along Senegal River, especially on the right bank of Mauritanian territory side, depends on the
flood inundation. The recession agriculture that uses the flood plain of the river after inundation is traditional
style but gives unstable productivity. In addition, catastrophic damages on the farm field are given in the big
rainy years.
The authors propose that Lake R’kiz, the dry lake located on the right bank of Senegal Rivercan be used as the
retention pond for flood control and water reservoir for agriculture in dry season. In this study, we tried to
simulate the inundation on the flood plain under the current river system as a first step. Based on this
numerical simulation model, the construction of the cannel from Senegal River to R’kiz Lake will be
considered in the further study.
The digital elevation model (DEM) of the flood plain of the study site from upper Podor to Dhiama dam that
regulates the sea water intrusion from Atlantic Ocean to Senegal River was obtained from the free database of
Shuttle Radar Topographic Mission (SRTM). The DEM mesh size of SRTM is around 80m, but considering
the limited calculation time, the calculation mesh was resized to 500m. The figures of the cross sections of the
river channel are unknown, so that the simple rectangular sections are given for the simulation. The
hydrological data used as the boundary condition on Dhiama dam and Podor are the observed data in 1999
when there was a big flood.iRIC that solves the 2dimentional shallow water flow equation was applied to those
conditions and result of the simulation was evaluated by the comparison with the water surface area estimated
by satellite image analysis. The simulation result and satellite image analysis do not show the perfect
agreement because of the assumptions for the unknown conditions of the river channel and hydraulic effect of
Guier Lake on Senegal territory.
Key words: water resource, iundation, shallow water flow, Senegal River

46
Social and economic impacts of salinization – mitigation and adaptation strategies
Shoaib ISMAIL
Author affiliation:
The International Center for Biosaline Agrculture
Contact details:
E-mail: s.ismail@biosaline.org.ae
Address: The International Center for Biosaline Agriculture (ICBA), P.O. Box 14660, Dubai, United Arab
Emirates
Phone: +97143361100
Fax: +97143361155
Abstract
There is an urgent need to significantly increase the agricultural production to meet the world population’s
immediate and future demand. In spite of new and improved technologies for producing better varieties of
food, feed, fuel and fiber, still the issue of food security is increasing at an alarming rate, with more productive
land and water resources turning towards marginal. A combination of increased world population, climate
change impacts, scarcity of land and water resources will eventually leave a big gap between the demands and
supplies. This demands that alternative physical resources (of land and water) needs to be explored In order to
overcome the deficit.
With the alarming increase in land degradation and scarcity of fresh water, both globally and regionally, it is
imperative that productive areas and good quality water is used efficiently for food and cash crops. However,
this does not mean that marginal lands and water are completely neglected since many other agricultural
sectors linked to forage/fodder production, forestry, industrial products, aquaculture, etc. can be partially
shifted towards these marginal resources to supplement production.
Among the marginal resources, saline water and land contribute a vast proportion that needs to be used for
increasing agricultural production. A number of good researches have been done globally since the last 30-40
years, realizing the problem of salinization and the sustainable use of salt affected land/water in agriculture for
growing crops and other products. However, the biggest challenge has been to demonstrate the economical,
environmental and social benefits and risks of using saline water and lands for agricultural production. The
other challenge is to demonstrate what type of production system(s) are sustainable on long-term bases.
The economics of biosaline agriculture will depend on the extent of marginalization and salinization and water
The economical component of ‘biosaline agriculture’ is dependent on:
1. If high-value crops can be replaced with traditional crops to improve farm profitability
2. Balance of research between high-tech technologies to produce crops (for food production) and
through a natural selection and adaptation process (for other agricultural crops).
3. Integration of agricultural production system(s) to be more resource efficient and can be adopted by
the farmers.
4. Effective governmental policies to support investments of farmers to move from conventional farming
(under saline and marginalized condition) to more of an ‘un-conventional’ production system(s).
This paper reviews the problem of agricultural production in context to water and land resources, and the
potential of using marginal resources (saline water and land) for increasing agricultural production. The paper
will provide case studies related to both social adaptation, economical and environmental feasibilities for the
following integrated systems:
1. Forage-livestock system under highly saline conditions.
2. Agroforestry systems – for better soil nutrient management
3. Seawater based agricultural production system
4. Integrated aquaculture and agriculture (IAA) systems
5. Produced water (from oil industry) in agriculture.
The paper will also describe some examples of the work that has been scaled-up by country investments and
has demonstrated the feasibility of saline agriculture.
Key words: marginal resources, sea water, value crops, mitigation and afaptation strategies, saline agriculture

47
Usage of certain plants for agro ecological enhancement in Mining Industry dumps
Z.F.ISMAILOV1*), S.O.HUJJIEV1), I.Z.BAKHRAMOV2)
Author affiliation:
1) Samarkand State University
2) Navoi State Pedagogical Institute
Contact details:
E-mail: tradjabov@mail.ru
Address: University Boulevard 15, Samarkand, 140104 Uzbekistan
Abstract
Mining is the backbone of economic development of any country. However, it leads to dramatic changes in the
large area landscapes due to dumps and tailings and further environmental consequences:
• Pollution by heavy metals due to extraction, processing and isolating useful ores components in pure
form;
• Atmospheric pollution with fine-dispersed emission;
• Contamination of groundwater and others.
The air pollution as well as infiltration to groundwater and surface water can cause increasing respiratory and
immunological diseases, cancer as well as hereditary diseases. Reclamation of the marginal lands by tolerant
vegetation is considered as one of solution of dispersed emissions as well as surface water flow. Natural
overgrowth and ongoing works on the biological reclamation of disturbed lands causes gradual formation of
biocoenosis. In this regard, drought-resistant and salt tolerant plants are used to generate biocoenosis in
disturbed areas. To understand the mechanisms of this development constant observation is required. It
includes understanding and awareness of their components, including animal population, as well as the
connections between them.
In this study Cucurbita foetidissima HBK, Helianthus tuberoses, Jerusalem artichoke (Helianthus tuberoues)
have been successfully used for agro-ecological rehabilitation and remediation in technologically disturbed
areas. These plants were grown in the areas with ore, coal and oil extraction; at remediation sites of various
kinds of geological works; on soils of reclaimed waste from heat power plants and etc.. Agro-biological
characteristics of the pumpkin Cucurbita foetidissima HBK was chosen as an unpretentious to agro-
technological cultivation, drought-resistant and tolerance to frost (up to -25 ° C). In the first year of vegetation
plant leaves can cover up to 20 m2 of surface soil. Root system can deepen down to a depth of 2 - 2.5 meters.
Immature fruits of these useful plants are edible when boiled. When ripe, its flesh becomes poisonous and peel
very durable. During this phase, it is used for manufacturing musical instruments. The seeds contain up to 26%
of fats and used to obtain oils. Roots are suitable for preparing starch. Nowadays putting pumpkin stinking into
cultivation is in full swing. According to the estimation it will become one of the most important food crops
and oilseeds in the future.
Key words: Cucurbita foetidissim; Helianthus tuberosus; oil seeds; mining degraded lands; Uzbekistan

48
Adaptation of wheat in the conditions of salinity
Karomat ISMOILOVA, Khabibjon KUSHIEV
Author affiliations:
Gulistan State University, Uzbekistan
Contact details:
E-mail: karomat.ismailova@yandex.ru
Abstract
The rise of the level of steadiness of different plants on different stages of their growth anddevelopment to the
outer stress factors is one of the most urgent tasks of the modern science of biology and chemistry. Actual
problems of these sciences in this direction, are aimed at the research of phytohormones, which play a
significant role in the development of plants.
Analysis of the data obtained during the research allows, first of all, to compare the differences in ontogenesis
of hormonal balance to the speed of wheat growing. During the vegetative period the content of zeatin, auxin
and cytokinin + indoleacetic acids/abcizic acids ratio is changing according to a single-humped curve with its
maximum in the phase of ear formation and flowering. The rise of the level of cytokinins in the first-half
vegetation phase can be explained by the increasing mass of root system of the plant.
The quantity of abcizic acids in the organs of wheat in the process of ontogenesis is continuously increasing.
Dynamics of hormonal balance to a certain degree fits the changing of wheat growing speed. In the first half of
the vegetative period the intensity of growing processes is increasing too. In the second half of the vegetative
period while the quantity of the growth-promoting hormones decreases, the increasing mass of abcizic acids
follows the decreasing speed of wheat organs’ growing. It demonstrates the increasing role of abcizic acids in
the process of aging and transferring in the state of resting.
Processing abscizic acids in the variants without injecting NaCl, and on the background of the soil salinization,
showed inverse reaction.to the physiological activities of the plants. In optimal conditions of wheat growing
with introducingabscizic acids the decreasing of endogenous content of cytokinins and auxins, increasing of
abcizic acids, and as a result, decreasing of the ratio of cytokinin+indoleacetic acids/abscizic acids is revealed.
The research done by us shows that the changing in physiological processes under the influence of NaCl, at
least depends, on hormonal status of the object. We can propose, that the resistance of wheat to the salinization
with NaCl directly depends on the changes in the hormonal system. The ability to use exogenous entering
phyto-regulators for increasing the resistance of the plants to the salinization is revealed in the research. The
processing of wheat with abscizic acids leads to compensation of the effect of NaCl activity. But, the character
of the physiological reaction of the plants depends on the rate of salinization and is mediated by the changings
in endogenous content of hormones and their ratio.
The study of mechanism and abilities to correct the hormonal balance opens prospects for the regulation of the
adaptive process and increasing the resistance of agricultural plants.
Key words: salinity; wheat; phytohormones; hormonal balance

49
Anti-allergy and melanogenesis regulatory effects of semi-arid and arid land plants
Huichia CHAO1), Konomi MURAKAMI1), Hanen NAJJA2), Hideko MOTOJIMA3),
Myra O. VILLAREAL3,4), Mohamed NEFFATI2), and Hiroko ISODA*3,4)
Author affiliations:
1) Graduate School of Life and Environmental Sciences, Tsukuba City, Japan
2) Institut des Regions Arides (IRA), Medenine, Tunisia
3) Faculty of Life and Environmental Sciences, University of Tsukuba, Tsukuba City, Japan
4) Alliance of Research on North Africa (ARENA), University of Tsukuba, Japan
Contact details:
E-mail: isoda.hiroko.ga@u.tsukuba.ac.jp
Address: University of Tsukuba, Tsukuba, Ibaraki 305-8572, Japan
Phone: +810298535575
Fax: +810298535776
Abstract
The harsh environment that plants in the semi-arid and arid regions are exposed to induced the plants to adapt
in order to survive, and in the process, produce numerous bioactive compounds with therapeutic or medicinal
properties. Extracts of arid land plants Cymbopogon schoenanthus, Crithmum maritimum, and Rhanterium
suaveolens were evaluated for their effects on immediate-type allergy and melanin biosynthesis using RBL-
2H3 basophilic cells and B16 murine melanoma cells, respectively. MTT assay done to evaluate the
cytotoxicity of the extracts revealed non-cytotoxic effects at low concentrations. β-hexosaminidase release
inhibition assay revealed that the extracts significantly inhibited mas cell degranulation while melanin assay
results showed significant melanin biosynthesis regulatory effects in B16 cells. This is a preliminary study to
evaluate the bioactivities of arid plants C. schoenanthus, C. maritimum, and R. suaveolens. Futher studies are
being undertaken to understand the mechanism underlying the observed effects.
Key words: arid land plants; anti-allergy; melanogenesis; RBL-2H3; B16 melanoma cells

50
Soil salinity assessment using Remote Sensing and GIS techniques in Syrdarya province of
Uzbekistan
Konstantin IVUSHKIN
Author affiliation:
Tashkent Institute of Irrigation and Melioration, Uzbekistan
Contact details:
E-mail: k.ivushkin@gmail.com
Postal address: 18-55, Kichiq Halqa str., 100121 Tashkent, Uzbekistan
Phone number: +998909036749
Abstract
Soil salinity is a serious environmental problem, especially in arid and semi-arid regions. Sixty nine percent
of the total irrigated land in Central Asia and 50.5% area in Uzbekistan are already affected by various
degrees of soil salinity. There is near 2 million hectares of high salinity areas. Aim of the research was to
test existing techniques of soil salinity assessment using GIS and remote sensing tools and find the best for
environments of Syrdarya province in Uzbekistan. This research was implemented on the test site in
Syrdarya province of Uzbekistan on Bobur WCA. This is one of the highly salt affected areas in
Uzbekistan. Research can be divided into two major parts: analysis of bare soil reflectance and reflectance
of vegetation. Landsat 5 and 8 images were used for calculations and analysis in ArcGIS and Erdas
IMAGINE software packages. For bare soil several indices, found in literature, were tested and spectral
signatures of areas with different soil salinity analysed. For vegetation were analysed relations of two
indices, NDVI and COSRI, and spectral signatures of vegetation growing on areas with different levels of
soil salinity. Two datasets were used in calculations: data collected especially for thesis and secondary data
from the archive salinity. Correlation coefficients between spectral indices, electrical conductivity and total
dissolved salts contents of soil were calculated. None of the bare soil indices from literature showed
significant correlation, in both datasets. The highest R-value is found between the satellite data of the bare
soil versus archive map. Same situation with spectral signatures – no difference were observed between
signatures of slightly, moderately and highly saline soils. With vegetation reflectance we receive more
promising results. Highest R-value was observed for COSRI index and in dataset with secondary data.
Correlation with NDVI was little bit lower. In general, R-values for all indices were higher in dataset with
secondary data. From the results of this research, we conclude that using vegetation reflectance as a proxy
parameter for soil salinity more promising in environments of Syrdarya province when multispectral
images, like Landsat, are used.
Key words: soil salinity; spectral indices; Landsat data; vegetation

51
Evaluation of some adapted plants species in the degraded lands of Azerbaijan
Aynura JAFAROVA*), Tamilla SHIRVANI, Esmira ALIRZAYEVA
Author affiliation:
Institute of Botany of Azerbaijan National Academy of Sciences
Contact details:
E-mail: cef_aynure@hotmail.com
Address: Badamdar highway 40, AZ1073, Baku, Azerbaijan
Abstract
Soil degradation is one of the most significant stress factors limiting the crop productivity and thereby,
representing the threat for the sustainable development of agriculture. Drought, non-appropriate temperature,
deficit of nutrients and excess of pollutants (salts, heavy metals, organic wastes etc.) lead to deterioration of
the soil fertility. Some agricultural territories of Azerbaijan which are the important source of forage, cotton
and grain face multiplicity of ecological problems.
Modern status of vegetation in these territories and distribution of dominant halophytes in the degraded lands
were investigated in the phytocoenosises depending on different elevations. It was defined that dominant
halophytes here are Salsola nodulosa (Mog) Ilin, Sueda dendroides (C.A. Mey) Mog, Artemisia frаgrans L.,
Atriplex tatarica L., Tamarix ramosissim etc., some of which are fodder storage stocks and main components
of the pastures, as well as possess food or medical importance. These plants were found to generate a
vegetations with different vegetation covers and species abundances not only because of different ecological
conditions, but also in accordance with elevation from the sea level. Analysis of the electric conductivity of
soil samples collected from the investigated areas revealed the different salinity levels ranging from 3 to 17
mS/sm. Among plant species tested Suaeda dendroides and Suaeda confusa distinguished to accumulate high
concentrations of Na+ ions in their shoots. However, the difference between these species was found in their
selectivity to anions, while SO4-2 ions were highly accumulated by Suaeda dendroides, Suaeda confusa mostly
accumulated Cl- ions.
Physiological adaptations of these plants to stressed conditions can be used as a feasible alternative approach
in the management and sustainable development of degraded agricultural lands.
Key words: salt affected lands; cover vegetation, ions composition, halophytes domestication, Azerbaijan

52
Sustainable management of the restored grassland: effect of chicken farming on
environmental sustainability
Gaoming JIANG, Meizhen LIU, M.A. MUMINOV
Author affiliation: State Key Laboratory of Vegetation and Environmental Change, Institute of Botany,
Chinese Academy of Sciences
Contact details:
E-mail: jianggm@126.com
Address: Beijing, 100093, China
Abstract
In the semi-arid areas of north China, sandstorms rank among the most serious environmental calamity, posing
threats to both animal husbandry and social sustainability. Years of overgrazing have led to remarkable
grassland degradation in north China, causing further ecological disasters such as the blooming of insect pests,
and the appearance of sandstorms or light windborne dust clouds in China and neighboring countries, such as
Korea and Japan. Although there has been substantial government-allocated funding for the restoration of
degraded grassland to projects including tree planting, fencing grassland, or rearing dairy milk cows, most of
those efforts are short-lived and ineffective relative to the huge investments on the grassland. Based on the
findings of a large-scale (2.667 ha) and long-term (ten years, 2000-2010) experiment in the Bayinhushu village
of the Hunshandak sandland in the Inner Mongolia of China, we have proposed a novel alternative strategy
which utilizes natural grasslands as an ideal place for chicken farming instead of the traditional model of
raising cows and sheep. Compared with traditional sheep grazing, chicken farming significantly improved soil
surface water content (0–10 cm), from 5% to 15%. Chicken farming did not affect the soil bulk density, while
traditional sheep grazing increased the soil bulk density of the 0–10 cm soil layer. Chicken farming in
grassland caused a significant increase in primary production compared to traditional sheep grazing, with the
former yielding three times the above ground, and twice the root biomass of the latter. Raising chickens in
relatively small areas of land (10 per cent of the total) with a water source, while leaving the other large
degraded land areas (90 per cent) for natural restoration. Since soil seed banks in these grasslands are
sufficiently large to sustain re-vegetation, no further human efforts were required. Chicken litter also benefits
the production and soil quality of the grassland ecosystem, with few side effects on its structure and function.
The economic income of local herdsmen has risen six fold compared with the traditional practice of raising
sheep. Ecologically, such an innovative solution allowed a large area of degraded land to regenerate.
Kew words: land restoration; chicken farming; Hunshandake Sandland; income generation; seed banks

53
Conservation of sea-buckthorn (Hippophae rhamnoides L.) populations in the Zarafshan
river valley
Flora KABULOVA1*), Muhabbat TURDIEVA2)
Author affiliations:
1) Department of Botany and Plant Physiology, Samarkand State University, Uzbekistan
2) Bioversity International, Uzbekistan
Contact details:
E-mail: f_kabulova@mail.ru
Address: University Boulevard 15, Samarkand 140104 Uzbekistan
Phone: +998 911876079
Abstract
In Uzbekistan sea-buckthorn (Hippophae rhamnoides L.) is used to grow in vast thickets in the whole
Zarafshan river valley. For the last 30-40 years the intensive agricultural activities in the area have resulted
into destruction of the tugai vegetation, sea-buckthorn in particular. This occurred after long-lasting
unsustainable use of wild populations, cutting down trees for timber, unregulated grazing and absence of
protection and forest restoration measures. Nowadays only in the unique Zarafshan Nature Reserve, sea-
buckthorn thickets are being conserved. The continuous degradation of the tugai-vegetation is yet still
affecting the unique genetic diversity of the sea-buckthorn growing in the Zarafshan river valley.
Sea-buckthorn has very valuable applications, which are largely unknown and not fully used in Uzbekistan at
the moment. There are several medicinal qualities attributed to sea-buckthorn. Fruits, leaves, cortex and seeds
contain valuable substances such as oil, vitamins, sugar, tannin, minerals and serotonin. Sea-buckthorn is
hence a valuable raw material for the pharmaceutical and food-processing industry.
Sea-buckthorn forms rapidly extended root systems, which are useful against soil erosion. The anti-erosion
properties of the sea-buckthorn are very important, especially when the present situation of destruction the
tugai-forests and the intensive use of water from plain rivers is taken into account. Another important
biological feature of sea-buckthorn’s root-system, is its strong ability to fix atmospheric nitrogen. These
properties make sea-buckthorn an ideal candidate for soil and water conservation in extreme and marginal
areas, besides its considerable economic potential. To prevent further erosion of sea-buckthorn diversity,
further research is needed. As the sea-buckthorn is a valuable, but under-utilized medicinal fruit species, under
heavy human pressure, it is necessary to develop a strategy for promoting its conservation and sustainable use.
Some important actions are herewith proposed:
• Improve/strengthen the security-system to protect sea-buckthorn populations.
• Carry out eco-geographical and socio-economic investigations on the condition of sea-buckthorn
populations, their uses and existing threats.
• Continue to study genetic diversity of sea-buckthorn in Zarafshan river valley and in other areas.
• Collect sea-buckthorn forms for conserving/preserving germplasm, determine which individuals are
most valuable in food and medical uses.
• The collection can be used to provide interested farmers with planting material and for selection of
perspective species for bring into culture. Also collection samples can be used to carry out biological,
morphological, biochemical and physiological studies
• Carry out public awareness, to improve the knowledge of local people on the unique properties and
uses of sea-buckthorn
• Promote sea-buckthorn uses in garden landscaping, yards of farmers and investigate on its possible
cultivation. This can result in sea-buckthorn serving as an additional source of income for local
people, while it will also lower the pressure on the natural population of sea-buckthorn in the
Zarafshan river valley and its surroundings.
• Develop measures on how to best use sea-buckthorn in preventing soil erosion.
The sustainable conservation and use of the sea-buckthorn is a very strategic contribution towards the
maintenance of the tugai-forest and water-systems, in addition of being an interesting source of income
generation for local populations.
Key words: sea-buckthorn,under-utilized species; medicinal plant; tugai forest, Zarafshan valley

54
Prospects of wastewater reuse for irrigation in Uzbekistan
Farida KADIRKHODJAEVA
Author affiliation:
Tashkent Institute of Irrigation and Melioration
Contact details:
E-mail: dfayzieva@gmail.com
Abstract
The development of reclaimed wastewater reuse has emerged as a potential resource to satisfy the
continuously increasing demand for water. Expansion of urban population and increased coverage of
domestic water supplies and sewage network will give rise to greater quantities of municipal wastewater
which can become an additional water source, particularly for agricultural and landscape irrigation. Treated
and re-used sewage water provides a viable opportunity to increase traditional water supply. Discharge of
sewage effluent into surface water is becoming increasingly difficult and expensive as treatment requirements
become more stringent to protect receiving waters such as rivers and estuaries. Therefore, many countries have
included wastewater re-use in their water planning.
The re-use of municipal wastewater will require integrated management practices and precise monitoring
procedures. Properly managed re-use of sewage waters reduces environmental degradation. Since several
activities do not require water of potable quality, reclaimed waters can be used effectively for purposes of non-
agricultural irrigation (parks, green areas, etc.), industrial processes (cooling water, boiler feed, and process
water), fire fighting, and groundwater recharge. It is a constant water source, and nitrogen and phosphorus in
the wastewater may result in higher yields than freshwater irrigation, without additional fertilizer application.
Also, the treated wastewater has lower salinity.
There are the following benefits of treated wastewater re-use:
• preserving of the high quality, expensive fresh water;
• preventing water pollution an protecting the environment and public health;
• promotion to sustainable water use by effective management of treated wastewater as a superior
source for agriculture.
One of the economic benefits of wastewater reuse in arid and semi-arid areas is the intensive agriculture
development that would not be possible without a constant supply of water. Many countries such as Spain,
France, Italy, Israel, Greece, Portugal, Cyprus, Malta, Tunisia, and Egypt effectively practice wastewater
treatment and reuse. Israel, Cyprus, Tunisia, and Jordan have already included wastewater treatment and reuse
to their water management strategies as an integral component.
The western regions of Uzbekistan are characterized by arid conditions and severe water deficiency. At the
same time, increased demands for irrigation and domestic water supply have been occurred in the country in
recent decades.
Further development of this reliable water resource depends on all elements including infrastructure and
facilities planning, wastewater treatment system, treatment process reliability, economic and financial analysis,
water utility management, and public acceptance. The methodology of economic analysis of wastewater re-use
for irrigation have been developed taking into account current water management conditions in Uzbekistan.
Key words: wastewater re-use; environmental degradation; water management; economic analysis;
Uzbekistan

55
Cultural experiment of licorice in Mongolian arid land focused on the water condition of
greening soil materials
Ren KAMEOKA1*), Noriyuki YASUFUKU2), Kiyoshi OMINE3), Atushi MARUI4),
Zentaro FURUKAWA2), Indree TUVSHINTOGTOKH5) and B MANDAKH5)
Author affiliations:
1) Department of Engineering, Kyushu University, Japan
2) Faculty of engineering, Kyushu University, Japan
3) Faculty of engineering, Nagasaki University, Japan
4) Faculty of Agriculture and Life science, Hirosaki University, Japan
5) Institute of botany, Mongolian Academy of science, Mongolia
Contact details:
E-mail: kyu_otffos@live.jp
Address: 8 19-0395, Kyushu University, Japan
Phone: +81928023378
Fax: +81928023378
Abstract
In recent years, desertification is rapidly proceeding and it becomes one of the most serious geo-environmental
problems in the world. The aim of this study is proposing the high value added greening to prevent
desertification. The investigation place focused on is arid land of southern Mongolia because rare plant licorice
lives there wildly. But deteriorating land is rapidly proceeding by over hunting licorice in order to use the
medical property (Glycyrrhizin) in its root. In 30 years, the biological resource of licorice was reduced to half
and the export price have been increasing. These matters need an immediate solution, but many biological
properties of licorice are still unknown. Firstly, it is needed to grasp the geo-environment in this arid land and
licorice in itself. To clarify the relationships between licorice and geo-environment, cultivation experiments
were conducted in southern Mongolia.
Authors investigated the climate, physical and chemical properties of soil in the ground with each depth of
ground. In this paper, physical properties mean particle size distribution and the water content, chemical
property means pH and electronic conductivity (EC). Investigation place is classified into natural habitat (for
licorice) area and non-habitat area. Suitable condition for licorice can be considered by comparing natural
habitat area with non-habitat area. As the result of investigation, there was little precipitation (annual amount
was around 100-200mm) and the difference of temperature in the daytime was large (around 20). From geo
technical view point, the pH of soil was 7-9 and average particle diameter was around 10-150µm. therefore
licorice lives in severe climate environment and in alkaline sandy ground.
It was the greatly difference between habitat area and non-habitat area that the amount of water in the ground.
The both of surface layers were dry but at the point deeper than 20cm from surface, habitat area had relatively
higher water content (5-20%) than that of non-habitat area (1-3%). And the average particle size of natural
habitat area was smaller than that of non-habitat. It was anticipated that licorice lives in the ground containing
relatively high water content. Therefore water condition is most important factor for growth of licorice in arid
land.
Based on the investigation, cultivating field was made and cultural experiments were conducted in the border
between habitat area and non-habitat area. This study proposes the planting material due to promoting growth
of licorice in the arid land. Planting material is made of fine sand and compost which is superior to retaining
water and nutrition. Licorice has a particular feature that even if the root with shoots had been cut, it could
grow as new individual if it is returned in the ground suitable for it to grow. By utilizing this particular and
planting material, this experiment tried to increase the amount of licorice and green tract in Mongolian arid
land.
At This time, it was changed that kind of composts, the amounts and directions of planting materials in the
400m2 field.
Key words: Licorice; water content; geo-environment; greening soil materials; cultivation

56
Marginal lands for afforestation: Farmers’ perceptions on land degradation and
alternative land use options in Uzbekistan
E.KAN1*), A.KHAMZINA2) and J.LAMERS2)
Author affiliations:
1) NGO KRASS, Urgench State University
2) Center for Development Research, University of Bonn
Contact details:
E-mail: kanelena@gmail.com
Address: 14 Khamid Alimjan street, Urgench 220100, Uzbekistan
Phone: +998941162714
Abstract
Land degradation presently affects the production and livelihoods of farming communities worldwide and
agrarian Uzbekistan is no exception, where the current land, water and resource use practices invoke the
environmental concerns therewith. Among mitigation measures for land degradation the afforestation with
suitable tree species stands as a promising solution for degraded croplands in the region. However, whilst the
proven multiple benefits of afforestation can be suggested for local farmers, little is known about their
awareness on land degradation and ways for land improvement applying the alternative land use practices with
trees. Therefore, the capturing of traditional knowledge among the direct land users who are hardly addressed
by respective local research, may contribute to better understanding of resource problems and facilitating the
promotion of the sustainable resource management in the region.
The qualitative study undertaken in 2009-2010 in the north-western Khorezm province of Uzbekistan was
aimed at capturing the perceptions of local farmers about marginal degraded croplands, land improvement
options and views on tree planting as alternative land use for degraded croplands. A combination of purposive
and snowball sampling techniques was applied to survey 120 crop farmers in seven districts of the Khorezm
province. The study identified the local taxonomic names and attributes for classifying the degraded cropland,
whilst the status of land ‘marginality’ could have a ‘permanent’ or ‘interim’ status. Farmers connected the
reasoning for land degradation to the existing praxis on the one hand and environment-related conditions on
the other. From the perspective of surveyed land users soil salinity was mostly considered as the main reason
for land degradation. Despite the general recognition of trees for their services and beneficial properties
including thus the contribution to improvement of degraded land, the awareness on afforestation as one
mitigating measure was mostly lacking. Few reasons refer to the vanishing practices and therefore the
disappearing knowledge of proper tree planting or enjoying the multiple benefits from e.g. windbreaks,
shelterbelts or woody plantations. Lacking evidences may also stem from the weak institutional and legislative
support, as well as incentives for farmers adapting the afforestation practices.
Key words: farmers’ perceptions; marginal/degraded cropland; afforestation.

57
The 13C and 15N natural abundances to characterize soil organic matter associated with
clay minerals in Eurasian steppe soils
Takashi KANDA1*), Kenji TAMURA2), Maki ASANO3), WYUNNA4), Atsushi TSUNEKAWA5)
and Toru NAKAMURA2)
Author affiliations:
1) Graduate School of Life and Environmental Sciences, University of Tsukuba, Japan
2) Faculty of Life and Environmental Sciences, University of Tsukuba, Japan
3) National Institute for Agro-Environmental Sciences, Japan
4) College of Life Science, Dalian Nationalities University, China
5) Arid Land Research Center, Tottori University, Japan
Contact details:
E-mail: kaunndadinho1212@yahoo.co.jp
Address: 1-1-1 Tennodai, Tsukuba, Ibaraki, Japan 305-8572
Phone: +81298534621
Fax: +81298534605
Abstract
Introduction
Soil organic matter (SOM) consists of various functional pools that are stabilized by specific mechanisms and
different turnover time. Especially, SOM associated with clay minerals has larger organic carbon content and
longer turnover time than coarser minerals. This means that this pool plays an important role for sustaining soil
fertility and for storing carbon in soil. In Eurasian steppe, wind erosion leaded to degradation of soil properties
because SOM were removed together with fine particles. Therefore, it is necessary for soil conservation to
understand the nature of SOM associated with clay minerals in various environments. Particle size
fractionation is generally used in isolating SOM associated with clay minerals. Moreover, δ13C and δ15N
values are useful tools to assess the characteristics of SOM pools because these values were different in each
SOM pool in many cases. Our objective was to characterize SOM associated with clay minerals in Eurasian
steppe soils using particle size fractionation and stable isotopic techniques.
Materials and methods
Surface soil samples were collected from forty-three grassland sites in Ukraine, Kazakhstan, Mongolia and
China. The particle size fractions from soil samples were isolated by ultrasonic dispersion in water. After the
dispersion, clay (<2µm), silt (2-20µm) and sand (>20µm) fractions were collected by sedimentation. Organic
carbon (OC) and total nitrogen (TN) content of clay, silt and sand fractions, and δ13C and δ15N values of clay
and silt fractions were measured.
Results and discussions
The OC in clay, silt and sand fractions accounted for 52.5 ± 9.0 %, 40.4 ± 5.3 % and 6.6 ± 4.9% in total OC,
respectively. The distribution of TN in each fraction followed a similar pattern to that shown by OC. These
indicated SOM associated with clay minerals played a key role in retaining SOM in Eurasian steppe soils. The
C: N ratio were 8.6 ± 1.0 in clay fraction, 11.5 ± 2.0 in silt fraction and 13.5 ± 5.5 in sand fraction. The C: N
ratio decreased in the order sand > silt > clay. The δ13C and δ15N values of clay fractions were from -20.2‰ to
-25.1‰ and from 4.1‰ to 12.5‰, respectively. These values of clay fractions were always higher than silt
fractions. The results of C: N ratio, δ13C and δ15N values were suggested that SOM associated with clay
minerals contained more decomposed SOM. Additionally, the δ15N values had larger range than δ13C values.
The δ15N value was better indicator for characterization of SOM within particle size fractions in this study
sites.
Key words: particle size fractionation; soil organic matter; 13C; 15N; Eurasian steppe

58
Changes in water quality of Amudarya River and ground water in Karakalpakstan,
Uzbekistan
Yoshiko KAWABATA1*), Vyacheslav APARIN2), Masahiro NAGAI3),
Yoshikazu FUJII3) and Yokio KATAYAMA3)
Author affiliations:
1) International Center, Tokyo University of Agriculture and Technology, Japan
2) Lab.”Geoecology”, SC “HYDROENGEO”, Republic of Uzbekistan
3) Faculty of Human Environment, University of Human Environments, Japan
Contact details:
E-mail: yoshikok@cc.tuat.ac.jp
Address: 3-5-8 Saiwaicho, Fuchu, Tokyo 183-0054, Japan
Phone: +81423887618
Fax: +81423887618
Abstract
Aral Sea Problem is one of the big environmental problems in the world. The decrease in Aral Sea area caused
by Large scale irrigated agriculture which started in the 195’s, especially in the Aral Sea basin. As the result,
many villages were built in the area and people started producing, cotton, wheat, and vegetables (Kawabata et
al., 2012).
The gradual climate change over the centuries was accelerated by the Aral Sea ecological disaster of the late
20th century in Aral Sea basin, especially Karakalpakstan. E. PAPA et. al. (2004) were researched EC value
for effect for salinization caused by large scale irrigation. G. CROSA et. al. (2006a) were analyzed pesticides
in Amudarya basin. They were informed the compounds with a high risk for contamination were identified.
Ground water or river water is main source of drinking water inn this basin. We researched changed of water
quality in water from 2008. In this studied, we compared the trend of EC values of Amu water and ground
water until 2011.
Water samples in the lower reaches of the Amudarya River during the period of August 2008–August 2011.
The sampling point is located on the Amudarya River basin in the lower part of the riverbed near Nukus
(Karakalpakstan, Uzbekistan). Groundwater samples were taken at the same time in the immediate vicinity of
Nukus town and the river bed of Amudarya.
The comparison of the total amount of salt in the Amu-Darya River and in the groundwater during the period
of researches revealed some interesting facts. The total amount of salt in the groundwater has a tendency to
increase. The water quality in the Amudarya River improves and the total amount of salts decreases. It may be
explained by the decrease in the inflow of the drainage water into the river bed the Amudarya as a whole.
The water of the Amu-Darya River despite the high content of sodium, sulfate and chloride ions, can be used
for drinking purposes due to the absence of other sources of clean water. The ground waters are salty with a
high content of sulfate, chlorine and sodium ions and they are not suitable for drinking purposes in the area of
studies.
The tendency to the decrease in the amount of salt in the Amudarya river and the increase in the degree of the
groundwater salinization has been determined. It can be explained by two factors such as the decrease in the
discharge of the drainage water into the Amu-Darya river bed as a whole and the reduction in the amount of
the inflow of irrigation and atmospheric water into the soils, which leads to the increase in the amount of salt
in the groundwater.
Key words: water quality; Uzbekistan; Karakalpakstan; Amudarya River; ground water

59
Protective effects of vegetation in Chambi National Park in Tunisia
Kiyokazu KAWADA*1),5), Kohei SUZUKI 2), Hideki SUGANUMA 3),
Abderrazak SMAOUI4), Hiroko ISODA 1),5)
Author affiliations:
1) Faculty of Life and Environmental Sciences, University of Tsukuba, Japan
2) Graduate school of Life and Environmental Sciences, University of Tsukuba, Japan
3) Faculty of Science and Technology, Seikei University, Japan
4) Center of Biotechnology of Borj Cedria, Tunisia
5) Alliance for Research on North Africa, University of Tsukuba, Japan
Contact details:
E-mail: kawada.kiyokazu.gu@u.tsukuba.ac.jp
Address: 1-1-1-Tennodai, Tsukuba, Ibaraki, Japan
Phone/Fax: +81298534794
Abstract
Change of the ecosystem due to human disturbance contains a problem to be concerned about as the cause of
environmental problems. In particular, environmental changes through the use of excessive living resources,
has become a cause of desertification in arid areas and semi-arid areas. In case of Mediterranean region, land
use by humans has been continued from BC. Most of the plains have been cultivated as olive groves, wheat
fields and subjected to grazing of sheep and goats. Excessive disturbance effects caused by human impact such
as excessive grazing, deforestation, and cultivation are severe in Mediterranean area. In order to evaluate the
impact of protectionist policies, it is necessary to elucidate the impact on vegetation due to differences in
management methods. The aim of this study is to clarify the protective effect of natural vegetation by species
composition.Tunisia's land, has been used to agriculture since historic times. However, several environmental
problems have been occurred by overuse of bioresource. Tunisian government made some protection areas to
recover their endemic nature to solve this problem. The investigation was performed in Chambi National Park
which is located at mid-western part of Tunisia in November, 2009. Chambi National Park started to protect
since 1978. A study describing the dominant species has been done in Chambi National Park but the
assessment of the protection effects on species composition level has not been done, making the discussion of
the conservation of the species diversity virtually impossible in this situation. We found 28 species in study
area. Total coverage of unprotected site was significantly different from of that of protected site (P< 0.05).
Rosmarinus officinalis appeared with high coverage inside theprotected site, but did not appear outside the
protection site. In addition, a similar tendency was seen in Globularia alypum, Pituranthos scopariusand
Thymus algeriensis. The species which are used as medicinal plants, aromatic oils, and as traditional seasoning
had a higher coverage in the protected areas. On the other hand, Echium trygorrhizum, Eruca sativa, Atractyris
serratuloides and Cynodon dactylon had a reverse tendency. Coverage of Artemisia herba-alba increased at
outside the protection site.We shed light on the protective effect of natural vegetation on the changes in species
composition at Chambi National Park. These results indicate that the species composition of the surrounding
area around Mt. Chambi has changed because people have used up too much plant materials for medicine and
food for livestock feed resources. Our results suggest that the use of the wild plant resources without
sustainable management plan alter ecosystem of arid and semi-arid land.
Key words: bioresource; species composition; protection effect; national park; Tunisia

60
Ecological remediation of abandoned saline soils using Glycyrrhiza glabra
Aziz KENJAEV*), Khabibjon KUSHIEV
Author affiliations:
Gulistan State University, Uzbekistan
Contact details:
E-mail: kushiev@mail.ru
Abstract
One of the major problems for Central Asia and the whole world is the prevention of salinization and soil-and-
water pollution, as well as the solution of the problems linked with drainage use for irrigation under the
conditions of the Hungry Steppe (Mirzachul).
The most important tasks are to restore the efficiency of saline soils, create a highly productive fodder
biocenosis instead of them, involve them into agricultural circulation, improve their land-reclamation condition
and enhance soil fertility. This task is being solved with the help of ecological restoration of salty soils with the
use of biomeliorative halophytes.
As a result of selection in the Mirzachul oasis, we have established five perspective species and ecotypes fit for
being disseminated – biomeliorants for producing power consuming feeding – stuffs and officinal materials on
the secondary salinized soils and under the conditions of irrigation with salty water.
Glycyrrhiza glabra L. is considered especially perspective biomeliorant for the effective development of saline
irrigated soils, and is, at the same time, a valuable officinal and fodder culture.
Biomeliorant Glycyrrhiza glabra L. is a very important and rarely replaced plant for preventing the soil
salinity. Glycyrrhiza glabra L. is able to grow in wet soils and is resistant to salty dirty moisture. It is proved
experimentally that it can grow under natural conditions even with chlorine sulphate salts in the soil.
The main advantage of the malt is that it vaporizes subsoil waters intensively in the period of vegetation and
thus prevents bogging up of irrigated areas, at the same time the loosening of the gypsum stratum of soil takes
place when whirling the root to 5-6 meters down, it helps to achieve a better effect when washing dissolved
salts from the soil.
Proceeding from the obtained results we have decided to multiply Glycyrrhiza glabra L. just on salty soils for
preserving its quantity and for restoring abandoned lands for agriculture. The results have already attracted the
attention of scientists from the international organizations such as IWMI, ICBA, ICARDA and leaders of
various government departments.
It is necessary to point out that the approach to implementing this programme and the already established
organizational structures would be of extreme value in the successful implementation of the future projects:
• the availability of green plantations of neglected lands containing halophytes: plantations of
Glycyrrhiza glabra L.; demonstration plantations of perspective species and ecotypes, suitable as
plants-biomeliorants for producing power saturated fodder and officinal raw materials on secondary
salty soils and under the conditions of irrigation by salt water;
• working out the methods of preserving and extending areas of the perspective species and ecotypes of
halophytes – biomeliorants;
• a scientific-producing center for eliminating bogging up and land salinization is organized.
Key words: biomeliorant; Glycyrrhiza glabra L.; salinization; restoration

61
Physical methods for studying the environment objects
Aktam KHALMANOV, Napas ESHKABILOV
Author affiliation:
Department of Natural Science, Laboratory of Analytical Laser Spectroscopy, Samarkand State University
Contact details:
E-mail: xolmonov@rambler.ru
Address: Samarkand State University, University blvd.15, Samarkand, 140104, Uzbekistan
Phone: +998939903149
Abstract
High-sensitivity laser methods that as laser resonans-ioninazation spectroscopy in vacuum, atom-ionization in
flame, cavity-ringdown laser absorption spectroscopy for identification of ultra-small concentration of atoms
in various phase states of substance were used. Subjects of the research were natural water, soil, transformer
oil and various aerosols of salts of metals. Gas chromatographic method with electron capture detector was
used for identification of polychlorinated biphenyls.
We investigated the atmospheric aerosols using the cavity ring-down laser absorption spectroscopy. A
modified cavity ring-down technique is used to investigate the optical extinction of the atmospheric aerosols.
The experimental system is composed of a pulsed dye laser pumped by the nitrogen laser (∆ν ≈ 1 cm-1, 10 Hz,
0.100W), optical system, the ring-down cavity, the detection system for the ring-down signal, and clean dry
air system. Most measurements were carried out at λ=522 nm. Both mirrors had the reflectivity of about R >
99.0 % at λ = 532nm. The length of the ring-down cavity was 61 cm. Slow flow of dry clean air at 2 L/min
was introduced near the mirrors for protection and to minimize the possible contamination by aerosol particles.
One round trip of the laser pulse is equal to 2L/c ≅ 4ns.
The detection system for the ring-down signals consists of a metal shielded photoamplifier (PAF 79). The
signal was digitized and averaged over 1000 laser pulses by a digital oscilloscope (Tektronix TDS 2022B) and
then transferred to a personal computer for processing.
The effects of non-absorbing aerosols, such as acetone, smoke, ethanol, hot water steam and gas discharge on
the cavity ring-down times were investigated experimentally.
Twenty six samples for PCBs pollution in the central Region of Samarkand and Tashkent Region were
investigated. Soil samples were collected from around of electricity supply of the Samarkand region and
around Chirchik Transformer plant of the Tashkent region. The soil samples were extracted with chloroform
mixture (1:1 v/v) for 4 hours. The final extract of 2.0 ml was analyzed for PCBs using a gas chromatograph
equipped with 10 mCi 63Ni electron capture detector GC - ECD model 86/30. The retention time for the PCBs
standard C=1mg/L were PCB 2,4,4’, 3.683 min; PCB 2,2’,5,5’, 3.963min; PCB 2,2’3,4,4’5,5’, 4,697 min;
PCB2,2,3,4,5,5’ 5.237 min; PCB 2,3’4’4’5, 5.427min; PCB 2,2’4,4’5,5’ 5.67 min; and PCB 2,2’3,4,4’,5’
6.290 min. Calibration curves for PCB 7 congeners were obtained, and the detection limits were estimated. We
have used the standard solutions C=1mg/L and 10mg/L of PCB in isooctane for receiving calibration curves
and identification for PCB 7 congeners.
The variations of the microelements in soil around Chirchik Transformer plant were analyzed by the method of
atomic absorption spectrometer “Saturn”. The mean concentration (in mg/kg) of the metals were Ca (416±
19.1) >Na (222 ± 13.6)>Cu(100±3.9)>Ni (87±5,1)>Pb(57.1±2.9)>Zn (40.0 ±2.5) >Co (29.0±1.9 ) >
Cd(21.3±1.5) > Fe (18.0±1.3)> Mn (10.0±1,2)>Cl-(0.32±0,02). The variations in the levels of the
microelements were in the order Ca >Na >Cu>Ni >Pb>Zn >Co > Cd > Fe> Mn >Cl-. Very few sites were
found to be contaminated with metals, but the level of metal contamination was very low. There was no
significant correlation between the PCBs and any of the metals. The sources of the PCBs and metal were
anthropogenic.
Key words: the atmospheric aerosols; laser resonans-ioninazation spectroscopy; atom-ionization; cavity ring-
down; polychlorinated biphenyl

62
Impact of saline environments on the structure of bracts and bracteoles Climacoptera
longistylosa (Chenopodiaceae)
Dilovar KHAMRAEVA
Author affiliations:
Institute of the gene pool of plants and animals, Academy of Science of the Republic of Uzbekistan
Contact details:
E-mail: hamraeva.dilovar@mail.ru
Abstract
Long-vegetating C. longistylosa (Iljin) Botsch annual crop, pelitic halophyte is common at salt marsh and
mottled soils in the plains and foothills. For this study the material was collected in saline soils of Syrdarya and
Surkhandarya regions.
In Syrdarya region 90% of the irrigated soil experiences varying degree of salinization - it contains 1-2.5% of
dry extract in 0-100 cm of soil horizon (Namozov et al, 2004). In Surkhandarya region in light and typical gray
soils dry extract contents 1-1.5% in 0-100 cm soil horizon (Baratov, 2012). C. longistylosa flower has one
bract and two bracteoles. Bract and bracteoles have a structure similar to a leaf. At transversal section the
shape of bracts and bracteoles bowed, semi-equitant, with narrowed edges. Type of bract mesophyll in its
venter is ventrodorsal. In the lower and middle part of the bract on the abaxial side under central bundle
palisade tissue and chlorenchyma are not closed and absent at the glumal edges. The structure of the bracteole
is basically similar to that of the bract. The main difference is the smaller number of peripherical conducting
bundles, and the presence of palisade and chlorenchyma tissue in the central green fleshy part. The lower part
of the bracteoles is represented by water-bearing parenchyma only.
Bract and bracteole of plants growing at saline soils of Syrdarya and Surkhandarya regions have similar
anatomical structure, but differ in terms of quantitative index of features. Comparing plants growing at
different habitats the characteristic changes were identified in the palisade parenchyma. For Surkhandarya
region ekoform the palisade cells in bract are 56.8 µm ± 0.41 in height and 8.5 µm ± 0.29 in width; in
bracteole - 43.8 µm ± 0.85 in height and 5.1 µm ± 0.20 in width. For Syrdarya region ekoform the palisade
cells in bracts are 45.1 µm ± 0.96 in height and 4.8 µm ± 0.10 in width; in bracteole 34.0 µm ± 0.62 in height
and 3.5 µm ± 0.19 in width. Comparative studies of the Surkhondarya and the Syrdarya ekoform shown that
the palisade cells of bract and bracteole were 1.3 times higher and 1.8 and 1.5 wider. However, the water-
bearing cells of plants growing at Syrdarya region are larger with the same number of rows. Ash content was
determined for two Climacoptera longistylosa ekoforms to reflect the amount of minerals which is 44.39% for
plants in Surkhandarya region and 49.74% - for plants, growing in Syrdarya region. That is correlated with
the salinity degree of soil.
Surkhandarya region plants growing at more arid but less saline soil have the cell size of adaxial and abaxial
epidermis in the bracts and bracteoles similar to the Syrdarya ekoform. However, they have higher and wider
the palisade cells, but the palisade index is less, kranz cells larger in bract and similar in bracteole. The number
of water-bearing layers in the bracts and bracteoles are constant. Thus, enlargement of water-bearing cells of
the Syrdarya ekoform plants is caused by the influence of salinity and a high palisade index, which is
determined mostly by growth conditions.
Key words: anatomy of flower organs; chemical ions contents; plant tissues; sols salinity; Climacoptera
longistylosa (Iljin) Botsch; arid zones of Uzbeksitan

63
An overview of DLDD assessment technology and SLM practices for agriculture and rural
livelihoods in Uzbekistan drylands – learning from CACILM-I partnership program
Gulchekhra KHASANKHANOVA1*), Tatyana KHAMZINA1), Natalya SHULGINA2)
Raisa TARYANNIKOVA3) and Rustam IBRAGIMOV1)
Author affiliations:
1) Department of Soil Reclamation and Irrigation, Design and Research UZGIP Institute
(Uzgipromeliovodkhoz), Uzbekistan
2) Hydrometeorological Research Institute (NIGMI) of Centre of the Hydrometeorological Service at the
Cabinet of Ministers of the Republic of Uzbekistan
3) Centre of the Hydrometeorological Service at the Cabinet of Ministers of the Republic of Uzbekistan
Contact details:
E-mail: g.khasankhanova@mail.ru
Address: 44, Navoiy Street, Tashkent, 1000021
Phone: +998711400592
Fax: +99871-1207591
Abstract
Republic Uzbekistan is a double land-locked country, centrally situated in the heart of Central Asia within the
Aral Sea basin. Almost 80% of the country area is comprised of deserts and semi-deserts, including Kyzylkum,
the largest desert of Central Asia. Agriculture plays a vital role in the national economy of Uzbekistan. Scarcity
of water is the major constraint for agricultural development and meeting the needs of the population of 31
million. people.
It is estimated that more than 2.100 Mha or 49% of the cropland in the country have suffered from serious
secondary salinization and 73% of grasslands are presently undergoing degradation. Productive ability of
irrigated soil, estimated on land fertility rate, has decreased on the average from 3 points to 7-10 points, which
cause decrease in productivity of crops, and in crop production per capita. Annual losses of agricultural
productivity are estimated to be approximately $31 million USD, and economic losses due to land
abandonment, because of high salinity, are estimated about $12 million USD. Dangerous phenomena, such as
drought, becoming frequent in conditions of the climate change, increase of instability of an agricultural
production, and threaten rural livelihoods.
The paper describes current state, cost and assessment of the DLDD technologies and results of mainstreaming
sustainable land management (SLM) approach and practices in the framework of the Initial phase of Central
Asian Countries Initiative for Land Management (CACILM) Program (2007-2010). CACILM Partnership
Program is addressed to meet two target tasks: stabilization / improvement of ecosystems integrity, and
improvement of vital rural living standards in the country. Achievements and assets of CACILM-I confirm a
high efficiency and acceptability of the GEF programmatic approach for all UNCCD stakeholders in
Uzbekistan and other CA countries. Knowledge of spatial and temporal assessment of desertification, land
degradation and drought (DLDD) is gathered through application of the FAO LADA approach and mapping
tools. MODIS Vegetation Indices Dataset (MOD13Q1, 250m) and LANDSAT TM has been the primary data
source for interpreting historical and seasonal changes of NDVI and establishing the baseline information on
land degradation, hotspot and bright spots analysis and impact on rural livelihoods in Uzbekistan. The most
successful SLM approaches and best practices have been selected, documented and integrated into global
WOCAT knowledge base, including: 4 technologies (Pasture rotation in desert areas, Agro forestry
reclamation of degraded lands, Pistachio plantations and Use of mineralized artesian water) and 2 approaches
(Community based forestry and FAO Farmer Field School) [www.wocat.net]. The findings highlights that
technical interventions need to be accompanied by institutional changes and SLM policy frameworks that
recognize needs and benefits of rehabilitation and mitigation of DLDD impacts for agriculture and food
security.
Key words: land degradation, cost and assessment of DLDD, SLM practices, FAO LADA approach, change
of NDVI, sustainable land management

64
Adaptive evolution of species of family Elaeagnaceae Juss
Khislat KHAYDAROV
Author affiliation:
Department of Botany and Plant Physiology, Faculty of Natural Sciences, Samarkand State University
Contact details:
E-mail: haydarov@rambler.ru
Address: University Boulevard 15, Samarkand 140104 Uzbekistan
Phone: +998946896438
Abstract
Primitive forms of Elaeagnaceae, apparently, were mesoxerophytes. We, together with other researchers
(Vasilchenko, 1981; Khaydarov, 2003), reveal xeromorphic signs such as dense pubescence above epicotyle
and on the first pair of leaves what suggests mesoxerophyllic nature of the Elaeagnaceae ancestors. Pubescence
on leaves and sprouts is an ancient sign characteristic for all the family. We think that dense felt or velvet
pubescence of asteroid trichomes is considerably more progressive than jelly-fish or shield-form trichomes; it
lowers intensity of transpiration much better and besides protects leaf plate from direct sun rays and heat, i.e.
improves regulation of temperature regime.
We think, that low height, dense prickles on branches, narrow leaves as well as abundant silver scales on
shoots, leaves and generative organs developed in Elaeagnaceae during natural selection under conditions of
water deficiency and high insolation.
Evolution of nectary and ways of nectar excretion were connected closely to general evolution of the flower.
Nectary genesis was related with the process of enthomophilia and resulted from mutual adaptation of the
flower and insect. Nectary disc also protect ovary and developed fruit from drying under arid conditions.
It is possible, that remote ancestors of Elaeagnaceae had bisexual flowers. Transition from bisexual to
unisexual flowers is considered as a way to increase efficiency of cross-pollination due to limiting self-
pollination. Some authors (Pervukhina, 1970; Takhtadjan, 1970) believe that a transition from enthomophilia
to anemophilia occurred in different lines of evolution at different levels of their specialization. The main
cause of the transition was deficiency of pollinator insects.
Transition to dioecious reproduction in the family Elaegnaceae also suggests, to some extent, prevention of
excessive use of energy for production of excessive pollen and not only helped cross-pollination but also raised
its economy.
Thus adaptive evolution of species of the family went mainly by the way of genesis of generative and
vegetative organs: from rather big trees to big bushes, from mesophyllic (broad oval) leaf to xerophyllic
(narrow) one, from shield-like scales to medusa-like and asteroid scales, from bisexual flower to unisexual one
(Hippophae), from upper ovary to lower one with reduction of endosperm and increase of germ size, from
primary xerophyllization to secondary xerophyllyzation (Khaydarov, 2003, 2005).
So, in spite of parallel development of the genera Hippophae and Elaeagnus, the last one is more adapted and
evolutionally advanced (Khaydarov, 2004, 2006).
Key words: Elaeagnaceae; mesoxerophytes; genesis; evolution; adaptive

65
Reconstruction of ancient fauna and flora from Ajakagytma (Uzbekistan, Kel’teminar,
7th-5th millennia cal BC)
Mukhiddin KHUJANAZAROV 1*), Frédérique BRUNET 2), Jean-Denis VIGNE3)
Author affiliation:
1) Institute of Archaeology, Uzbek Academy of Sciences, Samarkand, Uzbekistan
2) CNRS, Archéologies et Sciences de l'Antiquité (ArScAn, UMR 7041), Nanterre, France
3) CNRS, Muséum national d’Histoire naturelle, Archaeozoology-Archaeobotany (UMR7209), CP 56, 55 rue
Buffon, F-75005 Paris, France
Contact details:
E-mail: sarmish@mail.ru
Abstract
Ajakagytma is a Neolithic lake shore site located in the central Kyzylkum desert of Uzbekistan. New
excavations conducted since 2005 by the French-Uzbek filed expedition missions evidenced several successive
Kel’teminar occupations dating from the end of the 7th to the 4th millennium. They provided more than 50 000
microlithic artefacts, and smaller series of degrader pottery, animal and plant remains. Animal bones materials
were documented in three main categories: wild animals; domesticated animals with the traces of
domestication well marked on the skeleton and animals, which could be tamed and used by men, but bearing
no visible traces of domestication on the remains of their skeleton. They also provided more than 2000 faunal
remains. Most of them are very badly preserved, due to the much contrasted climate (heating and cooling and
wetting and drying). However, 580 specimens could be attributed to a taxon, and more than 200 of them could
be identified at the level of genus or species. They provide a clear image of the wild large mammals which
lived in this area and which were hunted by the Kel’teminar people: the goitered gazelle (34%), aurochs
(16%), onager (11%) and the wild camel (11%). We also find 15% of Caprini but, due to the poor preservation
of the material, it was impossible to tell if they were hunted wild bezoar goats or early domesticated sheep or
goat. Conversely, 13% of the specimens clearly refer to very small size bovids. This site represents the earliest
evidence of domestic cattle in Central Asia. We can partly compare our observations from Ayakagytma site
with the archaeological identification of the animal images on the prehistoric petroglyphs from Sarmishsay
Gorge, southern slope of Karatau Mountain Chain, not further than 80 km East of Aykagytma Saline
Depression. A part of petroglyphs, which is thought to belong to Neolithic period, often presents aurochs or
domesticated cattle. High frequency of the cattle images emphasizes its important role in the prehistoric
economic and land use development in the area.
Additionally in the Aykagitma site enigmatic set of nearly 600 shark teeth, 80% of them being concentrated in
less than 6 sq. meters have been found during excavations. Most of them were of small size (crown height
comprised 4.5 to 20mm). Taxonomic identification of the best preserved teeth evidenced the presence of an
association of six to seven species, all of them being known from the Paratethys Sea during the Middle
Ypresian (Early Eocene). Test excavations and intensive surveys around the site evidenced that it was settled
not only near one of the rare flint source of the area, but also right on a vast Early Eocene marl outcrop with
rather abundant shark teeth. The analyses of the frequencies of the species and sizes of the teeth accumulated
in the archaeological site suggest that the kel’teminar intensively collected shark teeth around the site. This
unique massive use of shark teeth was discussed with reference to the microlithic characteristic of the
Kel’teminar culture (Vigne et al., 2013). Paleobotanical studies compared with modern geobotanical survey
done nearby the Aykagitma site and its surroundings shown a diverse flora represented mostly by desert
tamarisk and saxaul trees, shrubs and perennial chenopods, grasses and legumes, which continue to colonise
this area still today.
Key words: archaeozoological survey; domestication; Kel’teminar culture; paleobotany; Kyzylkum Desert;
Uzbekistan

66
Conservation of cultural and natural heritage of Sarmishsay
Mukhiddin KHUJANAZAROV
Authors affiliation:
Institute of Archaeology, Uzbek Academy of Sciences, Samarkand, Uzbekistan
Contact details:
E-mail: sarmish@mail.ru
Abstract
Sarmishsay is a river gorge on the south slope of the Karatau mountain ridge (latitude 40o 15’ 47’’ N,
longitude 65o 35’ 09’’ E and 708-891m above sea level), located about 30km northeast of Navoi in
Uzbekistan. Sarmishsay must be recognized as an integrated cultural and natural landscape well preserved
until the present. The human use of the area stretches through several thousands of years and it left its traces in
the shape and motifs of more than 5000 of petroglyphs and more than 140 archaeological monuments. The
monuments of the Sarmish Gorge constitute a whole cultural complex, i.e. the system of the archaeological
sites of several types (petroglyphs, paleolithic flint processing workshop sites and mines, medieval settlements,
barrows and burials of prehistoric and medieval nomads (from the 1st millennium BC up to the 19th century
AD) settlements, etc.), interconnected by the territorial and functional unity, characterizing the important
aspects of the social and cultural life of its inhabitants from Neolithic until contemporarily.
The natural landscape of Sarmyshsai belongs to piedmont, desert, and semidesert types. Older writings,
particularly from pastoralists, traders and travelers, clearly indicate much more mature, even forest-like
vegetation as they passed through the Kyzylkum desert and its foothill semi-desert surroundings. About 34
species are described as endemic, rare and endangered, such as Acantholimon nuratavicum, Dianthus helenae,
Dracocephallum nuratavicum, Allium stipitatum, A. suvorovii, Bryonia melanocarpa, Cicer grande, Corydalis
severtzovii, Juniperus zaravshanica Jurinea zakirovii, Cerasus amygdaliflora, T. sogdiana, which make the
natural landscape of Sarmyshsai very unique. This fact turns Sarmishsay into a site of the utmost importance
both in Central Asia and in the world. Preservation of the beautiful landscape and the archeological
monuments and rock art of Sarmishsay is a task for the Government and the society. Therefore, in 2004 by the
resolution of regional khokim of Navoi region Sarmishsay Archaeological and Natural Landscape was
recognized. In 2008 Sarmishsay Archaeological Complex was inscribed in the Tentative List of Cultural
Heritage of UNESCO. Uzbek-Norwegian project collaboration in 2003-2010 between the scientific group
“Sarmish” at the Institute of Archaeology of the Academy of Sciences of the Republic of Uzbekistan and
Norwegian experts led to increased activity within systematic documentation and recording of the Sarmishsai
petroglyphs. Today archaeologists and researchers continue to investigate Sarmishsay with the purpose of
preservation for future generation and use of a site of world heritage value. The experience of and co-operation
with scientists from Norway, Finland, Russia, Kazakhstan and other Central Asian countries, is priceless in the
effort of preservation of the environment, the petroglyphs, and the other archaeological monuments from
future damage. However, all safe and sensitive preservation measures and efforts would be in vein if the
physical and spiritual values of the cultural and natural heritage are not protected from “vandal enlightenment”
– present time over-use and misuse. The great management challenge is to ensure a sustainable balance
between long-term preservation and enjoyment for visitors to and users of Sarmishsay.
The cultural context of the Sarmishsay Archaeological and Natural Museum Reserve refers to a certain life
situation, which contents can be partly reconstructed on the grounds of data obtained from the archaeological,
ethnological and historical sources. In respect for cultural heritage environments, awareness rising is important
to create a more careful treatment of the heritage of Sarmishsay. The recognition of the world value of the
monuments creates a platform for their stable conservation and careful and sensitive use. Sarmishsay must be
understood as a unique and prominent center of the ancient spiritual life of our ancestors. It is a challenge and
an obligation to preserve this and other valuable monuments of archaeology and history, art and culture for
present and future generations.
Key words: cultural and natural heritage, petroglyphs, conservation, endemic plants, Sarmishsay Rock Art ,
Uzbekistan

67
Multi-factor objective modeling for water resources management in Zeravshan river
Temur KHUJANAZAROV1*), Kenji TANAKA1), Ruka NAMURA2), Yoshiya TOUGE2) and
Shigenobu TANAKA1)
Author affiliations:
1) Water Resources Research Center, DPRI, Kyoto University, Japan
2) Water Graduate School of Engineering, Kyoto University, Japan
Contact details:
E-mail: khujanazarov.timur@gmail.com
Address: 611-0011, Gokasho, Uji, Water Resources Research Center, DPRI, Kyoto University, Japan
Abstract
Zeravshan river basin has been one of the focal points in the argument of river basin efficiency between
upstream Tajikistan and downstream Uzbekistan. The snow-glacier fed river 90% of which originates in
mountains of Tajikistan currently is fully utilized in the heavily irrigated valley of Uzbekistan, when Tajikistan
claims to use only 4%. Transboundary conflict over efficiency of the irrigation and low impact of the river in
the place of the origin, causes Tajikistan consider more heavy investments on the river usage. Recent plan for
the hydropower dam construction in the upstream is an evidence of changes to come. Such construction could
at the same time have negative or positive impacts depending on operation schemes applied. Investigating
possible solution of the positive outcome for both countries comes in solution of the multi-factor objectives
policy dependable on the economic, social and environmental and political parameters.
In this research we modeled objectives of the irrigation, hydropower income and environment flow, water
quality and return flow factors to define optimal water management policy. The research includes calculation
of the current and future conditions by integrated hydrological model and modeling outcomes of the different
objective for analysis. Optimization of the irrigation efficiency and using dam storage for the optimal release
for irrigation is important, however producing less economic outcome for the upstream. Crop combination or
the change in seasonality to the earlier months could become solution under future climate condition however
environment flow and possible water quality deterioration becomes an important question. This research
contributes in providing analytical decision framework to address river basin efficiency and water management
policy for both counterparts.
Key words: Zeravshan river basin; multi-factor objectives; water policies; water resources management

68
Prerequisites for using SWAP model to calculate the optimal cycle irrigation of cotton in
the delta of the Amu Darya (Karakalpakstan)
Marina KIM1) , Julya VORONOVA2)
Author affiliations:
1) GIS center Karakalpak State University, Uzbekistan
2) Lab."Geoecology" "INSTITUTE HYDROINGEO" SC, Uzbekistan
Contact details:
E-mail: marina.kim2509@gmail.com
Address: 1 Abdirov Str., Nukus, 142000,Uzbekistan
Phone: +998 90 358 2700
Abstract
The central part of the Aral Sea region - the Amudarya river delta is a low plain with rare relict hills. In general
territory of the Aral Sea region covered by gray-brown, takyr, hydromorphic, deserted sandy soil, salt marshes.
The Amudarya river delta is covered by hydromorphic soils such as meadow floodplain alluvial soils, bog-
meadow, meadow takyr, saline and non-saline, the old and the newly irrigated.
During the Soviet period in the Aral region was watering 7.5-12.5 thsd. м3/ha. For watering spent 15 thsd.
м3/ha, some fields Karakalpakstan 20-30 thsd. м3/ha and rice fields Karakalpakstan passed 30-50 thsd. м3/ha.
Optimum water requirements for cotton in Karakalpakstan may be 3.5-4.4 thsd. м3/ha with yields of 25-30
t/ha.
This article is focuses on use of SWAP model to develop the optimal cycle of cotton crop irrigation in
conditions of water scarcity, to optimize management strategies in agriculture, as well as for the evaluation of
regional water resources. It is necessary to carry out a field experiment in irrigated lands in the Amudarya river
delta areas with cotton cultivation on the soils prone to degradation due to lack of water, changes in the salt
regime of soils, salinity changes, the depth and the chemical composition of groundwater.
For such experiment in these particular circumstances it’s necessary to select 3 sites (cotton crop fields) with
different irrigation regime - from low to high level; here it’s necessary to allocate areas where for three years
to get the results of conducted seasonal testing pits to a depth of 1 m. Sampling conducted 3 times a year -
before watering, during irrigation (growing season) and after watering. Testing provides a sampling of soil,
groundwater and irrigation water, cotton (leaves, stems and roots). Also atmospheric parameters are measured.
Sites locations are selected according to topographic and irrigation features of researched area. Samples were
analyzed by chemical and physical methods in the laboratory to identify the level of major and trace elements,
as well as to determine the humus content, water and salt balance, physical-chemical properties.
The obtained data will be entered into the SWAP application, which gives the opportunity to build a model
(profile) of the distribution of groundwater in the soil throughout the year and make a forecast for the
necessary and sufficient irrigation. Modeling with application of mathematical methods is an alternative way
to determine the water balance components, so it provides the most accurate assessment of deficit of irrigation,
needs of crops in the water, the dynamics of groundwater and underground water conditions in agriculture on
degraded soils of the Amudarya river delta. SWAP model can be used as a powerful tool for the calculation of
irrigation cycles of cotton crop in the present conditions in the delta of the Amudarya River allowing
conservation of water for irrigation in the Amudarya basin.
Key words: Karakalpakstan; SWAP model; irrigation cycles; cotton; ecology

69
Transformation of olive related customs and olive-growing farms in North Africa
Tamaki KITAGAWA*), Kenichi KASHIWAGI and Hiroko ISODA
Author affiliation:
Alliance for research on North Africa, University of Tsukuba
Contact details:
E-mail: kitagawa.tamaki.kb@u.tsukuba.ac.jp
Address: 1-1-1 Tennodai, Tsukuba, Ibraki, 305-8572 JAPAN
Phone: +81298533982
Fax: +81298535776
Abstract
North African region with a peculiar climate of arid and semi arid, has much common with Southern part of
Europe and Middle Eastern regions both geographically and culturally. Meanwhile, however they are
accounted as Muslim countries since 7th century of Muslim invasions it is not so simple to define it only from
Qur’anic and Arabic influences. Since it has been the crossroads of multiple cultures, not only Pre-Islamic but
Pre-Roman, Pre-Punic cultures must be considered for understanding the universality and peculiarity of this
region.
Traditionally, the cultivation of olives and the extraction of oil are the major livelihood in the Mediterranean
basin. Since the period of Phoenician colonization, the cultivation of olives has been developed among North
African regions. It is widely seen in our history and prehistory that an indispensable element of basis of life is
bestowed the symbolic meaning under their existential situations, so the olive is no exception. Through their
sensitivities, it has become the connotation that olive itself has the crucially important power so it becomes
certain symbolic meanings inseparably connected with their usages. The core values of olive which could be
common to the North African and Mediterranean regions, have been expressed in customs, beliefs and rituals
which can be seen with certain act or symbols in required occasions. According to their sayings and customs,
olive (olive tree, branch and oil) possesses a strong power of saints, jinn and itself so sometimes it becomes a
mediator of these beings. It is even bestowed the power to control the weather. Also it is often used in
ceremonies or customs for fecundity. The narrative cases in the early literature of European scholars on North
African customs represent the comprehensible image and significance of olive which has survived through
animistic, polytheistic and monotheistic cultures of North Africa. Although these beliefs seem to be so called
sympathetic magic or just superstition, surely they are derived from the fact that olive has symbolic meanings
of durability and fertility and that their customs are associated with primordial metaphysics.
However, these customs face to be perished since their style of life and farming has changed during the
modernization, the process of modernization is not extensive. According to the sample survey on olive-
growing farms implemented in 2011, the level of modernization of production as well as the productivity vary
across region. The cultivation technology is still labor-using and village women take a major role. The olive
sector continues to provide a main source of employment and income for rural population; however the
process of transformation shows somewhat different. This paper presents traditional and modern aspects of
olive growing farms based on the sample survey.
Even though their customs has lost the substance through modernization, it is still true that olive is elemental
for the life of North African people. The significance of olive, decreasing on its religious aspects, gains on the
contrary the new meaning as cultural resources, such as national or regional identity at the strategical request
under globalization.
Key words: olive; North Africa; tradition; transformation; modernization

70
Site selection and environmental effect evaluation of large scale plantation using arid area
run off model
Toshinori KOJIMA*, Osamu YOKOHAGI and Hideki SUGANUMA
Author affiliation:
Faculty of Science and Technology, Department of Materials and Life Science, Seikei University, Japan
Contact details:
E-mail: kojima@st.seikei.ac.jp, kojimaseikei@gmail.com
Address: Department of Materials and Life Science, Seikei University
3-3-1 Kichijoji-kitamachiMusashino-shi Tokyo, 180-8633 Japan
Phone: +81422373750
Fax: +81422373871
Abstract
The main cause of global warming is the increase of atmospheric CO2 gas. Currently, a sustainable carbon
fixation system with large scale afforestation in arid land is established for the mitigation of global warming.
We have set a research place near Leonora (mean annual rainfall is about 200 mm, mean annual evaporation is
about 3,000 mm), Western Australia. In arid land, the most important problem is lack of water for
afforestation, because of the small amount of rainfall and large amount of runoff water without using by plants.
We have so far developed an original runoff model for understanding of water behavior and selection of
afforestation site. This model involves three processes of penetration, evaporation and runoff, with two
independent fitting parameters. One is corrective coefficient of penetration (PR), and the other is equivalent
roughness coefficient (N). The best parameters have been determined by using water level data of the
collecting pond of a closed hydrographic basinof6 km × 4.8 km, named Jim’s pool. In this study, we extend
this model to the large area of 43km × 52 km. Then we evaluated quantity of penetrated water in each mash
with a horizontal resolution of 30 meters, before and after the “afforestation” assuming that penetration rate of
the bare ground will change from that of bare ground to that of forest area by the afforestation, while the
impermeable hardpan layer is assumed to exist below surface soil layer of 15 cm depth throughout the area,
and is not changed by the afforestation. Finally we evaluated the effect of “afforestation” on penetrated water
amount by comparing the calculated results of large area, before and after the afforestation.
From calculation results,it was found that the penetrated water amount was increased by the “afforestation”,
namely by the increased in penetration rate, in the large area of the bare ground. In addition, this increase was
mainly observedin the peripheral portion of the bare ground conditions, not at the relatively central area. The
present results indicate that the some of run-off water will penetrate into the soil in large area where originally
most of the run-off water did not penetrate, if we introduce soil penetration improvement technology, such as
afforestation. On the other hand, it was thought that reduction of water penetration at the place where the
original vegetation was forest, hardly occurred by afforestation. Namely, the amount of water flowing into the
salt lake and evaporating in vain is decreased. In conclusion, it was confirmed that the afforestation with the
soil penetration improvement will increase the amount of water penetrating into soil and used by the trees and
reduce the amount of water flowing into the salt lake.
Key words: afforestation; arid land; runoff model; hydrologic simulation; carbon fixation

71
The regularities in the formation of solonetzic complexes in the northern part of the
Caspian Lowland
Maria KONYUSHKOVA1*),, Boris ABATUROV2), Marina LEBEDEVA3)
Author affiliations:
1) Eurasian Center for Food Security, Leninskie Gory, Moscow, 119991 Russia
2) A.N. Severtsov Institute of Ecology and Evolution RAS, 33 Leninskii prospect, Moscow, 119071 Russia
3) V.V. Dokuchaev Soil Science Institute, 7 Pyzhevskii per., Moscow, 119017 Russia
Contact details:
E-mail: mkon@inbox.ru
Address: Leninskie Gory, Moscow, 119991 Russia
Phone: +998909002804
Fax: +998711207125
Abstract
The Caspian Lowland is the country of soil complexes formed in the conditions of high aridity and
continentality, when even insignificant redistribution of precipitation and water runoff leads to formation of
contrasting soils such as saline solonetzes, light chestnut soils and chernosem-like meadow chestnut soils. The
origin of soil complexes in the Caspian Lowland is related to the stages of desalination of strongly saline
solonchaks with shallow ground water table formed at the bottom of the sea after its transgression. The
deepening of ground water table induced the formation of solonetzes and local suffusion of the surface. The
increased moistening of suffusion microdepressions due to redistribution of spring melted water runoff led to
the formation of chestnut and then meadow chestnut soils in them. As a result, a well-known solonetzic
complex typical of the Caspian Lowland and consisting of solonetzes, light chestnut and chernosem-like
meadow chestnut soils formed. Meanwhile, it is known that the areas with similar soil complexes but without
well-pronounced microtopography are found in the Caspian Lowland wherein depleted from salts fertile
meadow chestnut soils are located at the different positions of nanotopography (with relative elevations of less
than 10-15 cm) including those at nanoelevations which contradicts the theory of the formation of solonetzic
complexes. The formation mechanism of the soil complex characterized by the present absence of pronounced
microtopography but having the fertile nonsaline meadow chestnut soils is not clear. To address this issue, the
soils in the areas of different ages in the northern (with loamy sediments) part of the Caspian Lowland within
the Volga-Ural interfluve were studied. The study sites are located at different elevations above sea level and
are related to different stages of marine transgression of the Khvalyn (ancient Caspian) Sea. The “Aral-sor”
site is located at the level of 0-10 m a.s.l with the age of 14,000 years; “Muratsai”, 20-25 m a.s.l., 15,000 yr.;
“Dzhanybek”, 25-30 m a.s.l., 16,000 yr.; “Akoba”, 35 m a.s.l., 16,000-17,000 yr.; “Borsi”, 40-45 m a.s.l.,
17,000 yr.; “Tau”, more than 50 m a.s.l, never was under the water of the Khvalyn Sea. At the sites, soil and
vegetation cover was studied, the measurement of elevations and soil bulk density was conducted. Our study
has shown that the sites are characterized by different pattern of soil cover and different amplitudes of
microtopography. The youngest sites (Aral-sor and Muratsai) have a poorly pronounced microtopography and
are characterized by the absolute predominance of solonetzes; the portion of steppe soils (light chestnut and
meadow chestnut) is less than 5% of the area of soil complex. Older sites (Dzhanybek, Akoba and Borsi) have
a very well pronounced soil pattern with the portion of meadow chestnut soils reaching 25-50% of the area of
soil complex, but microtopography is pronounced only at the “Dzhanybek” site. The study of soil bulk density
has shown the soils at the “Akoba” and “Borsi” sites (more than 35 m a.s.l, early khvalyn stage) don’t have
subsolonetzic pseudosandy horizon with low bulk density (1.1-1.3 g/cm3) typical of the areas with well
pronounced microtopography. We suppose that due to soil evolution and centennial-scale fluctuations of
ground water, the subsolonetzic horizon compacted at the old-aged areas leading to the relative sinking of
microelevations with solonetzes and to the correspondent leveling of microtopography.
This study was supported by the Russian Foundation for Basic Research (grants Nos. 14-04-31436 and 13-04-
00107).
Key words: soil formation; sodic soils; Caspian Lowland; arid lands

72
Analysis of long-term changes mineralization of precipitation on the territory of
Uzbekistan
Yulia KOVALEVSKAYA*), Lyudmila SHARDAKOVA, Nataliya VERESCHAGINA
Author affiliation:
Department of Environmental Pollution Investigation and Forecast, Hydrometeorological Research Institute
(NIGMI), Uzhydromet
Contact details:
E-mail: uzcalter@mail.ru
Address: 72, 1-st Bodomzor yuli str., Tashkent, 100052, Uzbekistan
Phone: +99871235 9140/ 235 8468
Fax: +998712371319
Abstract
The purpose of the study - to assess the dynamics and distribution of mineralization flux density amounts of
mineral components falling with precipitation for the period 1990 - 2010 years in Uzbekistan.
The chemical composition of atmospheric fall-out is characteristic of air pollution. The main part of the
chemical composition of the precipitation is form in the troposphere and lower layer near the surface of the
earth. Component composition of precipitation depends on the thickness of atmospheric scavenging layer, the
presence of gaseous air pollutants, as well as the intensity of precipitation. Concentration and the ratio of
different components in precipitation depend essentially from the entire preceding development of the air mass
in which they fall. Atmospheric transport of pollutants in the global and regional scale also affects the
formation of the ionic composition of precipitation. The precipitation impact on the environment can be quite
varied in depending on their component composition and the effect of their acidity.
Ecological catastrophe of the Aral Sea and the Aral Sea region has led to a change in the hydro meteorological
regime and, as a consequence, the desertification of large areas and increase the transfer of soil and salt dust.
Processes eolian transport of sand-and soil-salt aerosol with shrunken Aral Sea in the regional scale have been
insufficiently studied. In arid zones, the presence of dust-salt particles in the atmosphere affects the chemical
composition of the precipitation and salts sedimentation to the underlying soil surface.
Regular observations of the chemical composition of precipitation conducted on the territory of the Republic
of Uzbekistan from the early 80-ies of the last century.
Currently Uzhydromet network monitoring of precipitation component composition includes 14 stations.
According monitoring program the main mineral components, some heavy metals, indicator pH are
determined, total mineralization are calculated. Simultaneously by meteorological parameters are measured.
These studies produced the following results:
− database of component composition of precipitation and its quantity has developed,
− the statistical analysis of precipitation mineralization values has carried,
− the total flux density of mineral components has calculated,
− maps of the flux densities of the amount of mineral components of precipitation have presented for the
territory of Uzbekistan for different observation periods,
− dynamics of precipitation mineralization has identified over the past decades (1990 - 2010 years),
− the peculiarities of the distribution and mineralization changes of precipitation over the past decade in the
Republic of Uzbekistan has identified,
− the possible impact atmospheric circulation processes on the flux density deposition of mineral salts with
precipitation during the study period has assessed.
Key words: precipitation; mineralization; dried-up Aral Sea bottom; flux density

73
The interaction between land use and regional climate in Central Asia
Osamu KOZAN
Author affiliation:
Center for Southeast Asian Studies (CSEAS), Kyoto
Contact details:
E-mail: kozan@cseas.kyoto-u.ac.jp
Address: Kyoto University 46 Shimoadachi-cho, Yoshida Sakyo-ku, Kyoto 606-8501, Japan
Abstract
Meteorological data shows that the Aral Sea basin has experienced strong temperatures warming over the last
30 years, melting snow earlier in spring and causing water shortages in summer. Some local researchers
reported extensive land cover changes caused by both human impact and temperature warming. To clarify this
problem, we used long-term hydrological data (discharge data; 1936-87), meteorological data (precipitation
and air temperature; 1936-90, 1990-2006) and the NDVI time series (1982-2000) from the Pathfinder
Advanced Very High Resolution Radiometer (AVHRR) Land dataset.
Six-hourly (1936-1965) or 3-hourly (1966-1990) meteorological data is provided by Carbon Dioxide
Information Analysis Center (CDIAC) in former Soviet Union countries (Razuvaev et al., 1998). Air
temperature and precipitation data from 25 meteorological stations is used for long-term analysis. Local
researchers reported that air temperature warming averages 0.9-1.0 degree for 100 years and 0.4-0.5 degree for
25 years in Uzbekistan – values are relatively higher than global averages. Air temperature and precipitation
data are analyzed using the least-squares and linear approximation method. All 25 stations show a positive
trend in precipitation and 24 stations show positive (increasing) trends in air temperature from 1936 to 1990.
No marked trends were seen for precipitation, but only the Ashabad station indicates negative trends in air
temperature. Cinbaji, located at the mouth of the Amu Darya has the second strongest positive trend among the
25 stations. Judging from these results, Ashabad’s climate has become wet and Cinbaji’s dry due to the Kara-
Kum Canal transporting water from Amu Darya to Ashabad since 1962. For the two highest altitude stations,
Naryna has the strongest and Horog a relatively strong trend in air temperature, possibly related to differences
in latitude and mean air temperature. Almost all daily discharge data for 140 stations available in the
hydrological year books from 1936 to 1987 shows a negative (decreasing) trend mainly due to human water
use.
NDVI has been widely used for vegetation remote sensing and its time series indicates vegetative activity.
Land cover types are classified using NDVI data and thresholds, but “solar zenith angle variations”, “satellite
orbital drift”, and “sensor degradation” influence NDVI values (Gutman, 1999), so a more stable index,
Maximum NDVI date, is applied to detect land cover variations in this study. The Pathfinder AVHRR Land
(PAL) dataset from 1982 to 2000, consisting of maximum 10-day NDVI composites data at 8 km spatial
resolution, is applied to land cover variation analysis. To minimize clouds effects and atmospheric
contaminants, the best index slope extraction (BISE) (Viovy and Arino, 1992) is applied to NDVI time-series
data. The target research region (38-46 N, 58-70 E) is defined to include the lower Amudarya, Syrdarya, and
the Kyzylkum Desert, because arid and semi-arid vegetation are highly sensitive to climate conditions. A clear
difference between the two exists due to vegetative activity and soil moisture decreasing until summer without
water. The 19-year PAL dataset is divided into three periods – P1, 1982-1987, with no data for 1983; P2,
1988-1993, with no data for 1989; and P3, 1995-2000. “Maximum NDVI date” consists of a 30-day moving
average for PAL/NDVI data. The 6-year averaged “maximum NDVI date” in the water-supplied region along
Amu Darya and Syr Darya is July or August, and that in the without water supplied, this period came earlier,
moving from April 21-30 to April 1-10 for 3 periods. Arid vegetation photosynthesizes under high enough air
temperatures and soil moisture. Air temperature warming promotes earlier vegetative activity and soil moisture
being exhausted by early April, with both promoting local air temperature warming.
Key words: climatic trends; hydrological regime; NDVI series; Central Asia

74
Eurasian Soil Partnership: challenges for action
Pavel KRASILNIKOV
Author affiliation:
Eurasian Center for Food Security, Lomonosov Moscow State University
Contact details:
E-mail: krasilnikov@ecfs.msu.ru
Address: 119991, Lelinskie Gory, 1, building 12, Moscow, Russia
Phone: +74959393641
Fax: +74959393523
Abstract
The Eurasian Soil Partnership (EASP) was formed as a component of Global Soil Partnership that gathers
together all the stakeholders interested in sustainable management of soil resources. The EASP is considered to
include countries, which face similar challenges in soil management, degradation, and reclamation. The
common feature of all the Eurasian countries is that they are supposed to have somewhat excessive soil
resources, and thus historically the agricultural development has been extensive rather than intensive. An
illusion of richness in soils was one of the reasons why the productivity of agricultural lands was relatively low
in spite of the presence of extensive areas of Chernozems, which are believed to be the most productive soils in
the world. Of course, there were also socioeconomic reasons (planned economy) and natural limitations
(severe climatic conditions in Russia and some other countries) that caused the gap in agricultural production
between the most developed European states and the countries of the Eurasian region. After the revolutionary
transformation of the Eurasian space in the 1990th the agriculture in most of the post-Soviet countries suffered
a shock: it failed to compete with intensive agriculture of Europe and other developed countries. In Russia the
total area of lands transformed to fallow during 1990-2005 was 48 million ha, i.e. the area that almost equaled
the area of Spain. Actually the area used for agriculture is growing in all the countries, including Russian
Federation. Actually there are two possible ways for the development of agriculture in the Eurasian region.
One of them is to follow the Western intensive technologies, increase the doses of fertilizers, and use advanced
agricultural machinery. The other way is to use an opportunity given by the presence of vast areas of unused
fertile land in Eurasia and to practice organic agriculture. The intensive and organic agriculture may be
developed simultaneously in different parts of the region; for example, intensive agriculture in the areas with
the best climatic conditions, and the organic agriculture in marginal lands. Also combined techniques may be
developed, like landscape-adaptive agriculture. Soil scientists should take part in the discussion on the
perspectives for agricultural development in the region, and give an advice to the decision-makers on the
regional planning for the development of agriculture. In the case of the intensive agricultural development soil
scientists should ensure sustainable intensification, soil conservation and environmental protection by
developing rational system of soil use and management. In the case of organic agriculture soil science can help
in the increasing of soil productivity and in the application of soil-friendly technologies. The regional soil
partnership in the Eurasian region should be aimed at trans-boundary studies, intensification of the technology
transfer and encouraging the dialog between the farmers and soil scientists. The nearest goals will be the
formation of a bank of ideas and a marketplace of agricultural technologies adapted to the natural and
socioeconomic conditions of the Eurasian region. Soil salinity was considered to be the priority for the
development of the implementation plan for the next few years.
Key words international cooperation; soil management; soil salinity; soil degradation

75
Molecular identification of species of the family Protostrongylidae from Caprinae in
Uzbekistan
Abdurakhim E. KUCHBOEV1), Jürgen KRÜCKEN2), Rokhatoy R.KARIMOVA1),
Bakhtiyor K. RUZIEV1), Georg von SAMSON-HIMMELSTJERNA2)
Author affiliations:
1) Institute of the Gene Pool Plants and Animals of Uzbekistan Academy of Sciences
2) Institute of Parasitology and Tropical Veterinary Medicine, Free University of Berlin
Contact details:
Address: 232, Bogishamol str., 100053, Tashkent, Uzbekistan
Abstract
Pulmonary nematodes of the family Protostrongylidae are economically important pathogens capable of
infecting domestic and free-ranging ungulate and leporid hosts throughout the world. Approximately 60
species belonging to 13 genera and 6 subfamilies have been described. Protostrongylids are prominent globally
among the nematode faunas of Artiodactyla with considerable diversity in caprines while lower species
diversity is observed among antelopes and cervids. Morphological and molecular analysis of lung nematodes
collected among caprine hosts (Bovidae) from Uzbekistan resulted in identification of 5 species of
Protostrongylidae: Protostrongylus rufescens, Protostrongylus hobmaieri, Protostrongylus sp., Spiculocaulus
leuckarti and Cystocaulus ocreatus. Molecular identification, based on sequences from the internal transcribed
spacer region 2 (ITS-2), provides a consistent and unequivocal means to distinguish species of endemic
protostrongylids. Evaluation of molecular diagnosis using adult parasites identified through robust
morphological criteria is a prerequisite for the establishment of reliable genetic tools for the identification of
larvae in definitive and mollusk intermediate hosts. Phylogenetic analysis reveals that the genus
Protostrongylus is paraphyletic and correctly identifies the subfamilies erected within the Protostrongylidae
using morphological criteria.
Key words: protostrongylidae; larvae; Caprinae; Xeropicta candacharica; ITS-2

76
Haloaccumulation effect and salt tolerance of pearl millet introduced firstly on salt affected
soils in Syrdarya River basin
Tadjiddin KULIEV1*) and Bekzod ADILOV 2)
Author affiliations:
1) Gulistan State University
2) Institute gene pool of flora and fauna Uzbek Academy of Sciences
Contact details:
E-mail: t.kuliev@mail.ru
Abstract
Soil salinity is one of major problem for agricultural and socio-economic development in many countries,
located in arid and semiarid zones. It affects the development of agricultural industries, in that usually leads to
decreasing of crops yield. The appropriate approach to combat salinization in these areas is the introduction
and promotion of genetic potential of new varieties of salt-and drought crops. These salt-tolerant crops by
providing stable agronomic potential (forage and grain production) are also able to reduce soil salinity due to
salt accumulation peculiar features. This study is dedicated on analysis of haloaccumulation effects by dual
purpose promising salt-tolerant species and crops varieties, firstly introduced on medium saline clayey soils
under sharply dry climatic conditions of Syrdarya region in Uzbekistan. It should be noted that among the salt-
tolerant forage plants millet - Pennisetum glaucum being a C4 cereal shown a great potential for reclamation of
marginal lands and possible great economical benefits for diversification of farmer incomes in the Syrdarya
region. Our studies during last 5 years on evaluation of agronomic parameters of three varieties of pearl millet
(Hashaki-1, Raj-171 and HHBVC-Tall) shown an insignificant desalinization effect, calculated per amount of
toxic salts ions accumulation from the soil. In the above ground green biomass of pearl millet varieties mainly
accumulated bicarbonate anions (HC03 –
1.109-2.871% per 100 g oven-dry weight) and sulfate (SO42-1.987-
2.378%), the average number of observed accumulation of chloride ion (Cl- 0.405-0,639%) were observed.
The amount of cations (0,608-1,320%) of alkali ions (Na+ + K+) is greater than the calcium and magnesium
ions (0.602:0.701% respectively). Greater accumulation of alkali ions indicates adaptive capacity of pearl
millet varieties, as far as the ions Na + and K + prevent dehydration plant tissues under saline environments.
Varieties of pearl millet grown on saline soils of Syrdarya region produced in average 252 t/ha of green or 110
t/ha of dry mass calculated for three consecutive cuttings. Thus, by taking into consideration the accumulation
ability of pearl millet (average 5.2% per 100 g of oven-dry weight), it can uptake in average an amount of 58
kg/ ha of salts from the soil.
Key words: desalinization; ions content; Penisetum glaucum, forage biomass; Syrdarya region; Uzbekistan

77
Mechanization preseeding preparation seeds for improvement of deserted pastures
Bakhtiyor KUSHIMOV
Author affiliation:
Tashkent State Technical University
Contact details:
Address: 2, Universitetskaya str., Tashkent, 100095,Uzbekistan
Abstract
Desert and semi desert pastures occupy vast areas of the Republic of Uzbekistan. They provide the main
grazing forage for Karakul sheep, the primary economic outcome in the rangelands. Dietary diversity and a
relatively high nutritional value of plants helps to use them as a year-round grazing. However, productivity
fluctuations and low productivity of natural grassland over the years and seasons is one of the main issues in
further expansion. Irrational use of pastures, technological impact, cutting for household needs, determine the
need for systematic maintenance of fodder production of (arid) pasture by seeding and reseeding forage plants.
As such it is important to harvest seeds with the highest yielding forage plants.
Seeds of forage plants are usually harvested in late autumn in the form of seed heap, including a significant
(70-80%) content of the hard separable trash (generative sprouts wings, defective and shriveled seeds).
Additionally presence of a vegetative impurity and high probability of hitting seed tree under deposits can
cause increased humidity of the seed container. Freshly harvested seed pile of the desert forage plants can
increase moisture content sometimes up to 40%. It is important to timely dry seeds to prevent spoilage as wet
seeds in self-heating heaps quickly lose their germination. However, increased content of impurities
complicate the drying process and increases the cost of energy and equipment. Cleaning and drying seeds are
important measures of postharvest treatment of seeds. The need to produce a large amount of seeds of desert
forage plants, determine the proper economic relevance and significance of the work to develop such technical
means for cleaning and drying.
Tashkent State Technical University project ITD-9-45 "Development of ways to improve the efficiency of
dryers for drying seeds of desert forage plants" research is underway to develop a vacuum drying machine with
liquid coolant and infrared radiation using and local raw materials as a source of energy. Development and
introduction of technical means for cleaning and drying processes allow to mechanize the postharvest
treatment of seeds and seedbed preparation desert forage plants, which in turn saves germination and improve
their crop quality at the lowest cost of labor and resources.
Key words: seed dryers; desert forage plants; drying plants; seed pile

78
Diversity of soils chemistry under Tamarix-stands on marginal lands and its feasibility for
biomass energy production in the downstream of Amudarya River region
Marina LEBEDEVA1*), Elena SHUYSKAYA2), Kristina TODERICH 3),
Natalya AKINSHINA4) and Aysylu SAFAROVA5)
Author affiliations:
1) V.V. Dokuchaev Soil Science Institute, Russian Academy of Agricultural Sciences, Russia
2) K.A. Timiryazev Institute of Plant Physiology RAS, Russia
3) International Center for Biosaline Agriculture (ICBA), Tashkent, Uzbekistan
4) National University of Uzbekistan named after M.Ulugbek
5) Lomonosov Moscow State University, Russia
Contact details:
E-mail: m_verba@mail.ru
Address: Pyzhevskii per. 7, Moscow, 119017 Russia
Abstract
This paper evaluates the soil-water-vegetation communities’ links under Tamarix-stands, grown on different
agricultural degraded desert landscapes in the lower stream of Amudarya River region. For this purpose soil
chemistry, water mineralization and growth patterns of Tamarix species influencing on biomass production on
marginal lands were assessed. The shrub vegetation communities consists mostly of Tamarix stands, which in
the lower stream of Amudarya River basin is frequently represented by Tamarix ramosissima, T. androssowii,
Tamarix elongata, Tamarix hispida in pure stands or mixed with other annual halophytes and salt tolerant
grasses. These species colonize and grow well on marginal lands within wide range of soil salinity (19.29 -
58.97% calculated for root zone (5-10 cm) soil profile and withstand a different content of toxic salts (sodic
alkaline, chloride, sulfate-chloride or chloride-sulfate). Tamarix species belong to crinohalophytes (salt
excretion ecological group of halophytes) The scanning electron microscopy (SEM) analysis of leafs of
Tamarix, collected through field expedition Uzbek-Russian mission in 2013 shown that predominantly ions are
sodium chloride, while sodium sulfate and calcium ions are representing in small quantity. Salt glands, which
are abundantly developed on epidermis of leaves, play a major role in salts excretion. Texture and elements of
microfeatures analysis showed that the Tamarix grows on layered depositions. However, a prerequisite for its
optimal growth and reproduction (re-growth) is growing in the lower parts of meso- or macro-slopes. This
position of Tamarix plants on the relief was noted in all the studied sites and is due to desalinization of soil
crust (10 cm thickness), and that is the main prerequisite for good seed germination or vegetative propagation
of Tamarix species. It was found that 3 weeks non saline surface soil solutions are required for good seed
germination and vegetative propagation (Rusanov, 1944). In nature Tamarix "chooses" lower slopes for getting
non saline (or slightly mineralized) water, which is flowing to the lower slopes or ravine in the spring after
snowmelt. And they prefer to grow near the artesian water spills. The flushing of salts the upper soil horizons
with spring waters and discharge of water on the slope determine the best soil and environmental conditions
for growth of Tamarix.
Key words: Tamarix; saline soils; chemical composition of soils; halophyte; marginal lands

79
Plant diversity and management practice of traditional Uygur home-garden in arid area of
Xinjiang, China
Wenjiang LIU
Author affiliations:
Xinjiang Institute of Ecology and Geography, Chinese Academy of Sciences
Contact details:
E-mail: wjliu@ms.xjb.ac.cn
Address: 818 South Beijing Road, Urumqi, Xinjiang 830011, China
Phone: +869917885317
Fax: +869913835459
Abstract
The Uygur people among the 56 Chinese nationalities have inhabited in Xinjiang of China for more than 1,000
years ago. The Uygurs have accumulated a wealth of traditional knowledge and practices in utilizing plants in
arid environment, developed unique home-garden vegetation in oasis ecosystem of Xinjiang. This paper
presents results from a case study on plant diversity and management practice of traditional Uygur home-
garden in Turpan prefecture of Xinjiang Uygur Autonomous Region for the first time.
Studies show that the intimate interactions between the Turpan Uygurs and the plants in arid environment, on
the basis of which an integrated traditional knowledge was built for the use and management of garden plants.
The Uygurs’ home-garden involves cultivating both native wild plants and exotic domesticated horticulture
ones in a space connecting their houses, the total number of home-garden plants is as high as 143 species in the
case study area that demonstrated in traditional agro-ecosystem management practice a strong capacity in the
integrated use of a rich diversity of home-garden plant species, for ornamental, food, aromatic & medicinal
plants, timber & fiber, fodder and eco-protective plants in adaptation to the arid environment in Xinjiang of
northwest China.
Key words: ethnobotany; oasis; traditional knowledge; plant diversity; management practice

80
Application of artificial rainfall by the aircraft seeding of liquid carbon dioxide for
utilization of water resources and prevention of desertification
Taichi MAKI1*,3), Osamu MORITA2), Yoshinori SUZUKI3), Koji NISHIYAMA4) and
Kenji WAKIMIZU 5)
Author affiliations:
1) Japan International Research Center for Agricultural Sciences, Japan
2) Office for a Sustainable Future, Fukuoka University, Japan
3) Professor Emeritus, Kyushu University, Japan
4) Faculty of Engineering, Kyushu University, Japan
5) Faculty of Agriculture, Kyushu University, Japan
Contact details:
E-mail: maki@affrc.go.jp
Address: Japan International Research Center for Agricultural Sciences, 1-1 Ohwashi, Tsukuba, Ibaraki, 305-
8686, Japan
Phone/Fax: +81-29-838-6635
Abstract
In order to apply of an artificial rainfall by an aircraft seeding of liquid carbon dioxide (LCD) for security of
water resources and development of desert, and against prevention of desertification, the authors experimented
at several times.
Experiments of artificial rainfall by an aircraft seeding operation of LCD were carried out on February 27,
2012 (1), March 14, 2013 (2), December 27, 2013 (3) near Miyake and Mikura Islands of Izu Islands in Tokyo,
on May 28, 2013 (4) near the 60 km south area from Shima Peninsular of Mie Prefecture, on December 26,
2013 (5) near Karatsu in Saga Prefecture, and on December 27, 2013 (6) near Saijo to Niihama areas in Ehime
Prefecture in Japan.
Several successful results were obtained in these two years. The results of (1) and (2) were shown as in the
papers, but the others were not yet. These results will be presented near future. The experiments except (4)
were carried out in a cold period. The experiment of (4) was carried out in a warm period as a first time, but
the result was also succeeded. These clouds for experiment were mainly convective cloud but some cases were
stratiform cloud. We can get a water of 1 to 5 million ton by 1 time experiment by amount of 5 kg LCD of
CO2. As these are experiment, use of LCD, developed cloud and amount of rain by the seeding period were
small. If we need more water, we seed every cloud on time to time continuously. On that case, we can receive
amount of water as 10-100 million ton pretty easily. The charter fee of aircraft is high however the amount of
water reserved is large. So it can pay finally.
Then, it is presumed that the LCD technique can use for security of water resources, for developing of desert,
against prevention of desertification, and so on. We presume that this technique can spread to all over the
world.
Key words: artificial rainfall; cloud; desertification; liquid carbon dioxide; water resources

81
Nutritional value of forage biomass of sorghum and pearl millet under dry climatic
condition of Uzbekistan
Igor MASSINO1*), Alexander MASSINO1), Kristina TODERICH2), Fazyl BOBOEV1) and
К.AZIZOV1)
Author affiliations:
1) Uzbek Scientific Research Center of Agriculture at Corn Station, Uzbek Scientific and Production Center on
Agriculture, set. Solnechnoe, Zangyota district, Tashkent region
2) International Center for Biosaline Agriculture (ICBA), Tashkent, Uzbekistan
Contact details:
E-mail: s.massino@mail.ru
Abstract
This article is focused on field evaluation of salinity tolerance, yield productivity and nutritional value of
sorghum and pearl millet varieties, introduced from world collection of the Russian Institute of Plant
Husbandry and International Crops Research Institute for the Semi-Arid Tropics (ICRISAT, India) and
International Center under dry and medium saline conditions of Uzbekistan. Experiments and filed trials were
established at Uzbek Corn Station during last years. Average threshold salinity levels for examined pearl millet
varieties ranged from 2.60 to 8.5 dS m-1 ; and from 2.4 up to 4.6 dS m-1 for sorghum entries respectively. New
released variety Hashaki 1” has an intermediate position, while the lowest plant density (467 plants/ha) was
observed for Raj171. New local released variety named Hashaki1 was resistant to moderate soil salinity and
low quality water with grain yield 2.96 t/ha.
High nutritional value of biomass and grains of Hashaki-1 was certified experimentally depending of soil
salinity level, developmental stage and cuttings practice. Preliminarily data has shown medium content in
protein and energy and low in fiber and lignin concentration in dry matter biomass of pearl millet Hashaki1.
Crude protein calculated for dry matter biomass ranges from 6.06% to 9.68% in unfertilized soils to 10.8% to
12.0% under nitrogen-fertilized conditions.
Additionally, laboratory analysis on chemical content of main nutritional parameters of forage samples of pearl
millet and sorghum from world collection was conducted during 2012-2013. Samples were collected at
different stages of their development starting from insertion of panicle till full flowering stages. As results the
average content of crude protein at first cut growing stage was 13.59 %, in the second - 11.22 % and 10.40 %
after third cutting, i.e. the content of protein of green forage is gradually decreasing from first towards second
to third cuttings. The contents of fat accordingly on hay crops have made 3.35; 2.48 and 1.80 %; nitrogen free
extract was observed 40.16; 43.12 and 49.56 % for three cuttings respectively
Six sorghum varieties were distinguished before flowering stage by the following average fodder value
contains ((% DM) : protein 7.96; fat - 2.29; cellulose - 24.29 and nitrogen free extract as 48.90. The apparent
metabolisable energy (AME) of 1kg of sorghum hay was 15.91MJ after first cutting and 16.23 MJ for the
second once. A insignificant high fodder value was revealed for pearl millet as in average 16.63 MJ.
Nutritional value of forage of sorghum and pearl millet taking as main crops or as summer seed planting
(CES) as second crop after harvesting of winter wheat have proved itself the equal to maize silage when cut at
8 to 12 weeks (full flowering), when dry matter yield compares favorably with maize. Forage of pearl millet
can be ensilage alone (taking the whole plant or only tillers or leaves) or mixed with other grasses and
legumes. We come to recommendation that these two WUE crops may be cultivated on marginal poor
resources lands and can play a significant role in filling gaps in the crop-livestock feeding systems in the
dryland areas of Central Asian countries. However, since it is a relatively new grain crop in Central Asian
countries, there are no readily available markets. Therefore, although the grain is well-suited to both human
and animal consumption, producers should secure a market prior to large-scale cultivation.
Key words: C4- cereals; water use efficiency; salt tolerance, nutritional value; alternative forage production;
Uzbekistan

82
A feasibility study on the anaerobic fermentation of salt-accumulating plants after phyto-
remediation of arid land in Uzbekistan
Shota MATSUI1*), Mitsuharu TERASHIMA1), Hidenari YASUI1), Kristina TODERICH2) and
Natalya AKINSHINA3)
Author affiliations:
1) Graduate School of Environmental Engineering, the University of Kitakyushu, Japan
2) International Center for Biosaline Agriculture (ICBA), Tashkent, Uzbekistan
3) Department of Applied Ecology, National University of Uzbekistan
Contact details:
E-mail: u3mac008@eng.kitakyu-u.ac.jp
Address: 1-1 Hibikino, Wakamatsu, Kitakyushu, Fukuoka, Japan
Phone: +819030751585
Abstract
Various kinds of salt-tolerant plants naturally grow in Uzbekistan, and some species are capable of extracting
salts from the salinized soil into vacuoles in their cells. Such plants may be utilized for the phyto-remediation
of arid land. In addition, by feeding the harvested plants into an anaerobic fermentation reactor, the salt and
methane gas can be recovered. An anaerobic fermentation process with a solid-liquid separator allows to
separate the salts in the liquid portion from the digestate, which can be further isolated using a subsequent low-
cost process (e.g. sun-dry bed).
In this study the anaerobic fermentation of plant biomass in a single-stage reactor under gradually salinized
conditions was investigated. First, to estimate the digestibility of the plant biomass, a lab-scale completely
mixed mesophilic reactor of 4 L was fed with artificial plant biomass (158 g-COD-grass/kg-wet Panicum
coloratum with 70 g/L NaCl) and operated for 280 days. The volumetric organic loading rate (OLR) of
artificial plant biomass was controlled between 0.2 and 3.4 kg-COD/m3/d. The attained methane conversion
efficiency based on overall COD was 66 %. The particulate COD and soluble COD in the reactor gradually
increased to 45 kg-COD particulate/m3 and 9.0 kg-COD soluble/m3 at 280 days. The soluble COD
concentration rapidly increased after 56 days with no detection of volatile fatty acids, which suggested the
inhibition on acidogens due to a high salt concentration. Second, the experimentally obtained methane
production rate, particulate COD and soluble COD were dynamically simulated using a developed
mathematical biochemical model composed of sequential processes for disintegration, hydrolysis, acidogenesis
and methanogenesis.
While disintegration of the plant biomass in a the reactor, biodegradable carbohydrates, proteins and lipids
were produced in stoichiometric manner, which were further hydrolyzed by corresponding microorganisms
(e.g. carbohydrate degrader) to produce soluble low molecular substrates (e.g. sugar). These substrates were
converted to hydrogen and acetate with the growth of five acidogenic groups. The hydrogen and acetate were
eventually converted to methane by hydrogen utilizing methanogens and acetate utilizing methanogens
respectively. In the model, partial solubilization of lignin in the plant biomass was also included. The other
batch biological tests helped to identify the unbiodegradable soluble fractions in the digestate, which was used
to estimate (i) the production of soluble lignin (unbiodegradable) from the hydrolysis of the plant biomass and
(ii) inhibition kinetics from Na salt on acidogenic microorganisms.
Based on the above results, a steady-state calculation at the given operating conditions of the reactor was
performed. When the particulate concentration in the reactor was fixed at 75 kg-COD/m3, the methane
conversion efficiencies (≈ plant biomass digestion efficiencies) of 72 % and 63 % could be expected with
OLRs of 0.5 and 3.0 kg-COD/m3/d respectively. Also, the effluent soluble COD increased with an increase in
the loading rates where 76 - 81 % was the biodegradable soluble fraction. This suggested that more biogas
production and digestion could be anticipated if the remaining biodegradable soluble fraction was successfully
degraded.
Key words: anaerobic fermentation; salt-accumulating plant; Phyto-remediation; acidogenesis

83
Managing human and natural threats to the productive soils in Kuwait,
the case of Al Wafra Agricultural Area, southern part of Kuwait
Raafat MISAK
Author affiliation:
Crisis Decision Support Program, Environment & Life Sciences Research Center, Kuwait Institute for
Scientific Research
Contact details:
E-mail: rmisak@kisr.edu.kw
Address: P.O. Box 24885, Safat 13109, Kuwait
Phone: +96524989211
Fax: +96524989079
Abstract
Al-Wafra Agricultural Area (about 17,000 hectares) is located at the southern fringes of Kuwait, close to Saudi
Arabia border. Farms of this area supply Kuwait with a wide variety of vegetables and fruits. Al-Wafra
agricultural area is dominated by sandy soils underlain by an impervious horizon at shallow depth rarely
exceeds 2m from ground surface. The mentioned agricultural area faces two threats, a human induced and
natural. The human induced threat is represented by water logging/ soil salinization, while the natural threat is
the severe sand encroachment. These two threats have negative economic, social and environmental impacts.
Soil salinization is caused by misuse of irrigation water. This phenomenon results in depletion of crop yields
and loss of productive lands in at least 20% of the Al-Wafra farms. The groundwater (main irrigation source)
is exploited from two aquifers. A shallow one consists of sands and gravel (Kuwait Group) and a deeper
fractured limestone aquifer (Dammam Formation). The total salinity of the groundwater of Kuwait Group
ranges between 4,000-10,000 mg/ L while that of Dammam formation varies between 5000-7000 mg/ L.
Farms and villages at the northern fringes of Al-Wafra area are severely encroached by shifting sands. The
shifting sands are derived by the prevailing northwesterly winds from severely degraded sandy terrains, few
kilometers upwind of the farms. Sustainable measures for managing soil salinity and controlling shifting sands
are not applied at any level. The main objective of this study is to propose an action plan for managing the
threats to Al-Wafra agricultural area. To realize the objective of this study, the soil salinization and sand
encroachment phenomena were monitored and assessed based on remote sensing and field measurements.
Scenarios for managing the two threats are proposed. It is highly recommended to establish two green belts at
the transportation zone between the source area (degraded sandy soil at the upwind side) and the settling area
(farms and villages at the downwind side). To overcome soil salinization/ water logging phenomenon, several
measures including biological drainage are proposed.
Key words: water logging /soil salinization; degraded sandy terrains; shifting sands; biological drainage

84
Evaluation of an artificial capillary barrier as a means to control infiltration and capillary
rise to improve root zone condition
Mitsuha MIYAKE1), Haruyuki FUJIMAKI2), and Hirotaka SAITO1)
Author affiliations:
1) Department of Agricultural and Environmental Engineering, Graduate School of Agriculture, Tokyo
University of Agriculture and Technology
2) Arid Land Research Center, Tottori University
Contact details:
E-mail: hiros@cc.tuat.ac.jp
Address: 3-5-8 Saiwai-cho, Fuch, Tokyo 183-8509 Japan
Phone /Fax: +81-42-367-5584
Abstract
In many arid and/or semi-arid regions where water is scarce, it is critical to avoid root zones to be affected by
soil and to reduce deep percolation below root zones. One of the approaches to achieve such goal is to
introduce an artificial capillary barrier (CB), which consists with a layer of gravels, just below the root zone.
CBs occur at an interface of two soil layers with different hydraulic properties because of differences mainly in
pore size distributions. For example, when a fine particle layer is over a coarse particle layer, water cannot
penetrate into the coarse layer from the fine layer until the soil water pressure at the interface is high enough.
The concept of CBs has been used in many engineering applications, such as landfill covers. It is still not fully
understood how CBs can improve root zones for crop cultivation in arid and/or semi-arid regions. The main
objectives of this study were 1) to evaluate the effectiveness of CB on suppressing capillary rise of saline water
to the soil surface, and 2) to investigate whether or not the introduction of CB can lead to reduction in water
application during cultivation.
Suppressing capillary rise of saline water is necessary to avoid salts to accumulate near the soil surface when
saline shallow groundwater exists. It is however still not known which gravel size works the best and how
thick the gravel layer needs to be for the purpose of capillary rise suppression. In this study, column
experiments were conducted to investigate the effect of gravel particle size and gravel layer thickness on
suppressing capillary rise and salt accumulation at the surface. Results show that depending upon the thickness
and the composition of the gravel layer, the effect of CBs varies.
In many arid and semi-arid regions, as surface soils have very low water retention ability, much of water
applied to the root zones can be lost due to deep percolation. Therefore, it is difficult to practice water saving
cultivation in such regions. In this study, cultivation experiments were conducted by introducing CBs as means
to improve water retention ability of the root zones. Komatsuna (Brassica rapavar), one of the common leafy
vegetables, was cultivated in planters with different soil layers in a phytotron located in a campus of Tokyo
University of Agriculture and Technology. From our experiment, it was found that artificial CBs can increase
or decrease yields depending upon irrigation rates. Further investigations and experiments are needed to
evaluate CBs effectively.
Key words: capillary barrier, infiltration, capillary rise, gravel

85
Prospects for payment for ecosystem services in the context of integrated pest management
of the Baluchistan melon fly in arid and semi-arid regions of Central Asia
Benjamin MOHR
Author affiliation:
The Regional Environmental Center for Central Asia (CAREC)
Contact details:
Address: 40 Orbita-1 Street, Almaty, 050043, Kazakhstan
Phone: +77272785110/ 2785022
Fax: +77272785337
Abstract
Central Asia including the Aral Sea Region is considered to be the centre of origin of musk melon. The region
harbours an extraordinary diversity of the most delicious varieties, once renowned all over the Soviet Union.
An invasion of the Baluchistan melon fly at the turn of the new millennium caused tremendous losses and put
melon diversity and livelihoods in arid and semi-arid regions of central Asia at risk. Today, production is
increasing again following the introduction of regional Integrated Pest Management (IPM) schemes.
The abstract provide baseline information about the biology, damage and control of the Baluchistan melon fly
in arid and semi-arid regions of Central Asia. It address the prospects of Payment for Ecosystem Services for
Integrated Pest Management to enable melon farmers and plant protection practitioners to take appropriate,
environmental sound measures to reduce losses to melon crops and shows, that a combination of cultural and
chemical measures usually provides maximum protection.
Origin of the melon fly:
• The Baluchistan melon fly was first described in the Baluchistan provinces of Iran and Pakistan, hence
its name.
• The fly was originally distributed from Syria to the Caucasus and from Turkey to Southern
Afghanistan.
• At the turn of the millennium, it moved further north into Central Asia where it was not known before
but now causes widespread damage to melon crops.
Life circle of the melon fly:
• Flies emerge May/June from puparia overwintering in the soil.
• Females lay eggs into melons. Maggots feed on the fruit.
• Maggots emerge from the melon and burrow into the ground.
• Maggots pupate in the ground about 5–10 cm deep.
• Up to three generations are produced per year.
• Last generation overwinters
Identification and Diagnosis
• How to recognize the melon fly
o The melon fly is easy to recognize because of its orange body color, metallic red or green
eyes and black-on-white patches on the back.
o The melon fly is 4.5–6.0 mm in length.
o It is most easily detected in the morning whilst resting on the upper side of melon leaves.
o The fly is harder to detect during the day as it hides below the leaves.
• How to diagnose an infestation
o The melon fly prefers musk to water melon.
o Early infestations are indicated by the presence of flies already during the flowering stage.
o Infested melons are often deformed. Maggots can be found by cutting the fruit open.
o Damaged melons show maggot emergence holes. They often rot owing to secondary infection
by fungi and bacteria.
Cultural Control
• Do not grow melon within 500 m of a previous melon crop.
• Plough deeply in autumn and irrigate to expose pupae during winter.
• Inspect crop daily and remove infested melons.
• Use plastic mulch under melons to prevent maggots penetrating the soil.

86
• Bury infested melons at a depth greater than 55 cm.
• Cut open infested melons and place on plastic to kill larvae/pupae or feed to livestock.
• Clean fields of all melons after harvest.
• Keep field margins free of potential hosts of the melon fly.
• Select less susceptible varieties. Early varieties are often more vulnerable than late ones.
• Use bags to protect melon, but avoid damage by overheating.
• Plant early with early varieties using plastic film (1.4 m wide) to avoid main period of attack.
Chemical Control
• Only registered insecticides and dose rates must be applied. Consult national plant protection services
for the latest list of products.
• Insecticides must be applied according to label instructions, using appropriate and well calibrated
sprayers and protective clothing.
• Timing is crucial to melon fly control. The first treatment should be done already during flowering if
an infestation is evident.
• Pyrethroids but possibly also other insecticides may cause secondary infestations by mites and aphids
when used as cover sprays.
• Do never apply more than 4 treatments per season with at least 10 days apart.
Effectiveness
• Increase of production and net earning from melons,
• Decrease of expenditures for pesticides
Summary and recommendations
• Combination of measures to increase the overall effectiveness
• Payment for ecosystem services to facilitate knowledge transfer and adaptation of international
standards in advanced Integrated Pest Management
Key words: Baluchistan melon fly, Integrated Pest Management (IPT); ecosystem payment; knowledge
transferring

87
Contribution to business human resource development in Africa: new challenge for
Japanese Universities
Takahiro MORIO1), 2)
Author affiliation:
1) Office of Global Initiatives, University of Tsukuba
2) Alliance for Research on North Africa, University of Tsukuba
Contact details:
E-mail: morio.takahiro.fu@u.tsukuba.ac.jp
Address: -1-1 Tennodai, Tsukuba, Ibaraki 305-8577, Japan
Phone: +81298536263
Fax: +81-29-853-6519
Abstract
Recent exploration of natural resources and rapid economical growth of Africa has been attracting enterprises
in the world as a great opportunity of their business extension. As well, around 400 Japanese companies extend
their activities on Africa (As of May 2014, data from External Representation Office for Asia, African
development Bank). The trend brings about demands for development of human resources who play a role of a
bridge between the field and home country of enterprises. In addition, high unemployment rate of higher
educated youth has been one of the serious issues especially in North Africa. Therefore, higher education as
well as vocational education is expected to develop human resources who meet demands of labor market.
As a solution of the issue above, in the occasion of the 5th Tokyo International Conference on African
Development (TICAD V) held in June 2013, Japanese government stated to assist capacity building of human
resources for business and industry, according to one of the key items of Japanese basic policy of assistance of
Africa, that is, to boost the growth of Africa through trade and investment of private sector. As a concrete
measures, “African Business Education Initiative for Youth (ABE Initiative)” was launched. ABE Initiative
aims to provide opportunities for competent African youth to study in Japan and intern at Japanese enterprises
through public private partnerships and build networks among the alumni to foster future leaders for business
between Japan and Africa. The training program consists of study in master courses provided in English at
Japanese universities and internship at Japanese enterprises. For the first batch students dispatched in
September 2014, 67 universities offered 105 courses, whose specialties cover engineering, ICT, agriculture,
science, marine science, commerce, economics/business administration, medical science, social welfare,
tourism, political science and public administration.
As conventional Japanese graduate school education is research oriented and aims to develop researchers, it is
a challenge for Japanese university to implement program courses for ABE Initiative. However, at the same
time, Japanese societies, governments, and enterprises also expect the universities to play a leading role to
develop human resources, so-called Global Human Resources, who extend their activities globally and lead
economical and social growth.
Here I introduce recent trends of extension of business activities of Japanese enterprises, needs for human
resources in Africa, recent measures of development of labor market-oriented human resource development,
ABE Initiative and Go Global Japan Project. I also discuss opportunities, perspectives and issues for Japanese
universities to play an important role and benefit from the trends.
Key words: Africa; business human resource development; ABE Initiative; global human resources

88
The rising challenge of water resources management at the urban fringes – evidence from
Ferghana District of Uzbekistan
Nozilakhon MUKHAMEDOVA*) and Kai WEGERICH
Author affiliations:
International Water Management Institute
Contact details:
E-mail: N.mukhamedova@cgiar.org
Address: Apt.121, House 6, Osiyo Street, Tashkent 100000, Uzbekistan
Phone: + 998712370445
Fax: + 998712370317
Abstract
With the global expansion of urban areas, competition over both land and water resources is steadily
increasing, especially within developing countries(FAO 2012; Kuslu 2007; CER 2009). The expansion of
urban areas into agricultural areas, such as in Uzbekistan, has created competition for water between farmers
and non-farmers (FAO 2002, 2005). Subsequent growth of urban and peri-urban areas envisages new and
expanded demands for water resources, entailing both reproductive and productive uses especially by the poor
(Drechsel et al. 2006; van Koppen et al. 2006). The integration of these other, competing uses into the planning
or proper design of water provision and management systems has been lacking (van Koppen et al. 2006).
The agricultural sector, being the former most dominant sector in the Uzbek Soviet Socialist Republic (SSR)
was the core provider of employment and basic livelihoods. After independence in 1991, Uzbekistan
experienced a political and economic transition, which resulted in transformation of water land as well as
water management and social and institutional challenges, particularly for the agricultural sector.
Here a case study on the urbanizing Ferghana district in Uzbekistan is presented which highlights rising
competition for water and the associated gender dimensions of the changing water management structure.
While traditionally Water User Associations (WUAs) are set up to govern and manage water resources for
farmers, the urban expansion into agricultural areas means that WUAs now must integrate the concerns of non-
farmers and multiple water uses in peri-urban communities. Given the expansion and increased importance of
kitchen gardens for the majority of the rural population for livelihood security, it is necessary to reprioritize on
their respective water needs and towards better integration in WUAs. Donors as well as the government have
to adapt their policies, project and recommendations to these changes.
Key words: multiple use of water; water users; gender; peri-urban; Uzbekistan; Ferghana Valley

89
Monitoring and assessment of land desertification in Aktau semi-arid rangelands using
remote sensing and geographical information systems
Mahmud MUMINOV1*), Muhtor NOSIROV2), Tolib MUKIMOV3) and Gaoming JIANG1)
Author affiliations:
1) State Key Laboratory of Vegetation and Environmental Change, Institute of Botany, Chinese Academy of
Sciences
2) Department of Botany and Plant physiology, Samarkand State University
3) Uzbek Research Institute of Karakul Sheep Breeding and Desert Ecology
Contact details:
Address: Institute of Botany, Chinese Academy of Sciences, Beijing 100093, China
Abstract
Historically, the rangeland vegetation of Aktau foothills in Uzbekistan used to be rich and diverse, serving as a
basic natural resource for the livelihood of local people, and at the same time acting as a protection against
land degradation. Vegetation of this region has been under ever pressure of human activities due to an
increased need for food and feed. As common in many places, during past decades the poor management of
rangeland resources had led to severe vegetation degradation and even desertification. At present expanding
desertification processes are particularly threatening the precious biodiversity and the livelihood development
in the region. Thus, there is an urgent need to evaluate the present condition of the rangelands to accurately
recommend appropriate practical measures to improve their natural condition and management systems. The
aim of this study was to assess the state of rangeland vegetation structure and its dynamics under different type
of factors using GIS and Remote Sensing (RS) techniques. Satellite image data derived from Landsat 5 TM
and Landsat 7 ETM+ is used to detect changes in rangeland vegetation of Aktau foothills (40°09'N, 66°39'E).
Pristine rangeland of study area is dominated by perennial semi shrub (Artemisia diffusa) species associated
with understory vegetation of Carex pachystylis, Poa bulbosa, Bromus tectorum and other species. Ground
truth seasonal measurements of vegetation parameters (phytomass, density, vegetative cover) were conducted
during the period of 2008-2010 at three different sites by their degradation level. Then obtained data were
incorporated into GIS and RS for further analysis. In total 9 Landsat images from study period were
preprocessed and Normalized Difference Vegetation Index (NDVI) values were calculated to detect plant
community changes caused by anthropogenic disturbance.
Extensive rangeland areas around villages and winter grazing lands are well represented in NDVI images
exhibiting signs of degradation and erosion. NDVI results expressed different values depending on level of
degradation present in selected three sites: slight degradation – 0.26; moderate – 0.25; high – 0.20 of NDVI.
Remotely sensed data of the study area is well corresponded with plant parameters of point measurements and
the existing natural condition of the studied rangelands. However, rangeland monitoring using RS methods still
needs to be continued and also refined for the purpose of long-term monitoring and the management of fragile
environment of Aktau foothills. This and future RS monitoring can be an important step towards preventing
desertification processes and supporting the formulation of a strategy for restoring desertified areas in arid
rangeland ecosystems of Uzbekistan.
Key words: land degradation; rangeland monitoring; Remote Sensing, NDVI; Aktau

90
Activity of extracellular enzymes hydrolyzing the carbohydrate in irrigated soil
Olga MYACHINA*), Akbar ALIEV and Rimma KIM
Author affiliation:
Agrochemistry Laboratory of Institute of General and Inorganic Chemistry (Uzbekistan Academy of Science)
Contact details:
E-mail: myachina_ov@mail.ru
Address: 77-a, Mirzo Ulugbek street, Tashkent, 100170, Uzbekistan
Phone: +998901751836
Fax: +998711627990
Abstract
The soils of Uzbekistan with low humus content (0.8-0.5 %) under irrigated agriculture, especially are liable to
dehumification risk, because of their very high biological activity. Due to activation of microflora, the
enzymatic mineralization of soil organic matter enhances significantly. It was established, that the use of
mineral fertilizers (like the ammonium phosphate, ammonium nitrate, superphosphate, etc. with high content
of available macronutrients) contributes the repeatedly increases of microbial growth rate, metabolism,
respiration, energy, etc., and bring to the regrouping of the microbe communities with predominance of
microbe - r-strategists. In the process of mineral compounds assimilation the soil organic matter involves into
mineralization too. Therefore, all new agricultural chemicals should undergo a testing of their action on soil
biological activity. For agriculture the preference should be given to the chemicals or fertilizers, which have no
significant stimulative effect on the hydrolytic enzymatic activity of soil.
The purpose of the reported studies was to investigate of the phosphorus fertilizer’s effect on activity of
carbohydrase enzymes in typical sierozem under cotton crop.
The subjects of our 3-years field experiment were three types of phosphorous fertilizers: bacterial (PhBF),
organic (OMF) and mineral fertilizers (MF), which synthesized at the Institute of General and Inorganic
Chemistry (Uzbekistan Academy of Science). We compared the impact of these fertilizers with different
contents of organic matter or organic-free on the extracellular enzymes, participated in cellulose, hemicellulose
and chitin hydrolysis by microbes.
The results of the research had shown that application of the new fertilizers PhBF, OMF and MF under cotton-
plant leads to moderate decrease in activity of carbohydrates enzymes.
In 3-years field experiment of the PhBF (with high C content) application the glucosidase activity decreased by
28-35 %; cellobiohydrolase activity - 2-4.5 times; xylanase activity 2 times. On the contrary, the chitinase
activity increased by 14-40%.
The impact of OMF to glucosidase and chitinase activity was not significant, however, cellobiohydrolase and
xylanase activity are reduced by 14-25%, due OMF-10, in contrast OMF-20 increased their activity by 16-18
%.
Mineral fertilizers MF have no significant effect on the activity of glucosidase, xylanase and chitinase,
whereas, the cellobiohydrolase activity decreases by 11-15%, compared to the soil with common mineral
fertilizers.
We hypothesize that this phenomenon may indicate to the reduction of microbial mineralization of cellulose,
xylane and other carbohydrates in a typical sierozem and to positive C- balance by the regular use of the new
phosphorous fertilizers.
Key words: soil; carbon; enzymes; carbohydrates; mineralization

91
Some aspects of bioindication of the degraded soils of pastures of the Nurata district,
Navoiy region
G.M.NABIEVA1), L.GAFUROVA1), А.ASADOV2)
Author affiliations:
1) National University of Uzbekistan, Tashkent, Uzbekistan
2) State Enterprise «Centre for Earth Observation and Geoinformation technologies »
Contact details:
E-mail: gulchekhra-nabieva@rambler.ru
Abstract
Rational use and protection of pastures soils take a special place in a common problem of protection and use
of natural resources. Soil resources are limited in respect of the area and quality. Their state causes trouble
because for the last 70-80 years in this territory the factors destabilizing ecological equilibrium and affecting
normal phytocenosis development: in connection with climate change, more frequent droughts; strengthening
of influence of an anthropogenous factor because of an overload of the present square with too many sheep;
insufficient phytomeliorative measures. For this period the share of the degraded pastures extremely increased,
and efficiency of fodder grounds decreased. The increase of degradation was accompanied by that fact that
soil of pastures becomes impoverished of both humus and nutritional elements, underwent salinization, a water
and wind erosion. A consolidation, somewhere alkalinization, deterioration of physical properties of soils
occur, its biological activity falls, and eventually fertility of the soil decreases.
Depending on biotype of vegetation, mechanical structure, a high humus content and exposure to salinization,
some locations of soils degrade slightly, others locations - moderately, the third locations- strongly. These
processes end in almost full degradation of soils and disappearance of a vegetable cover i.e on the landscape
processes caused by natural climatic changes the processes of an anthropogenous trasformation connected
with pasturable loading are superposed
In this regard we are faced with a problem of rational use of land resources of pastures and strengthening
measures for their protection. In Navoiy region in the basis of desertification processes are such natural factors
specific to this territory, as geomorphology, a relief, the general dryness of the climate, withering winds and
saliferous soil-forming materials
Ecological types, a variety of soil climatic conditions have significant effect also on formation of a vegetation
cover.
Stationary researches on key sites of Nurata district showed that in a soil cover a light gray soils with different
salinization degrees, light loamy soils, loamy soils and loamy sand prevail. As a result of researches the links
of degradation processes with morphogenetic properties, humic substances indicators, agrochemical, physical
and chemical, agrophysical, microbiological, fermentative properties of soils were revealed.
Bioindicators of the degraded soils, integral indicator of their biological state (IIBS) are defined. Features of
profile distribution of biological parameters of the degraded soils depending on hydrothermal factors, a humus
content, mechanical structure, salinization, density and other physical properties are revealed.
The problem of reduction and degradation of land resources as a result of strengthening anthropogenous
pressure upon environment demands comprehensive study combining biotic and abiotic factors. Pasturable
conditions are characterized in the xeromorphous conditions by vegetation digression, reduction of
aboveground and underground bioproductivity of a humus reserves, density of the soil and physical
evaporation, insolation, temperature increases, somewhere secondary salinization is observed. These
degradation processes can't but affect biological activity of the soil.
So, researches showed that in pasture soils being in a stage of a slight degradation the indicators of a biota in
the top horizons of soils were 1.2-1.3 times less, and on sites of an average degradation they made 1.4-1.6
times less in comparison with sites with moderate pasturable loading. With depth of soil profile these
differences are smoothed out a little due some increase in humidity, temperatures optimization and increase of
values of physical clay. But these indicators can change with the appearance of salinization, disturbance of soil
and other adverse factors.
Materials of researches showed correlation of the obtained data with results of decoding and degradation of a

92
soil cover on the basis of the comparative analysis of multitemporal soil thematic maps. Satellite image of the
studied territory is processed by a method of the controlled classification, using way of maximum likelihood.
By results of classification 12 classes are extracted, of them 8 classes show a vegetable cover of different
growth and density, other 4 classes correspond to desert territories.
The obtained results of complex and multiplanar researches allow complementing the system of indication of
soils properties changes and monitoring and evaluation on this basis of dynamic and evolutionary
transformations of a soil cover of arid pastures by the example of soils of Navoiy region in the conditions of
anthropogenous loadings and desertification.
Key words: GIS technology; pastures soil mapping; vegetation cover trends; Navoi region

93
Integrated membrane system for polyphenols recovery from olive mill water
Ilyes DAMMAK1), Mitsutoshi NAKAJIMA1*), Sami SAYADI2) and Hiroko ISODA1)
Author affiliations:
1) Alliance for Research on North Africa (ARENA), University of Tsukuba, Japan
2) Laboratory of Environmental Bioprocess, Center of Biotechnology of Sfax (CBS), Tunisia
Contact details:
E-mail: nakajima.m.fu@u.tsukuba.ac.jp
Address: University of Tsukuba, Tsukuba, Ibaraki 305-8572, Japan
Phone: +810298534703
Fax: +810298535776
Abstract
Food wastes are today considered as a cheap source of valuable components since the existent technologies
allow the recovery of target compounds and their recycling inside the food chain as functional additves in
different products. Olive mill water (OMW) is the main liquid effluent of the olive oil production process. It
represent precious resource of potentially valuable molecules specially polyphenols. These latter have been
identified as one of the potent natural antioxidant, and have been proven to be very effective in the prevention
of diverse diseases. For that reason, the selective recovery of polyphenols from OMW provides the double
opportunity to obtain valuables molecules and to reduce its phytotoxicity.
In this work, we have proposed to analyse the potentialities of an integrated membrane system for the
valorization of OMW through the selective recovery and concentration of valuables polyphenols. The
proposed system included pressure driven membrane processes, such as microfiltration (MF), ultrafiltration
(UF) and nanofiltration (NF). The preliminary centrifugation of raw OMW was used for the removal of oily
phase with the reduction of suspended solids (< 45%). Thus, obtaining a partially clarified liquid that is then
submitted to subsequent MF treatment. MF was used as a pre-treatment step to produce a permeate stream
containing overall polyphenols of the feed stream. The pre-treatment of OMW by a selected flat-sheet MF
membrane (cellulose acetate with a pore size of 3 µm) produced a total removal of suspended solids and a
permeate solution which was submitted to an UF treatment with a polysulphone flat-sheet membrane having a
molecular weight cut-off of 100 kDa. In the UF permeate, overall polyphenols content was almost recovered,
due to the low polyphenols observed rejection compare to the other organic solids. In the following step, UF
permeate solution was submitted to an NF treatment with a polydimethylsiloxane flat-sheet membrane having
a molecular weight cut-off of 250 Da. In the NF concentrate, rich polyphenols solution was obtained by the
simultaneous removal of low molecular organic solutes namely minerals and mono-saccharides. In particular,
the proposed integrated system allows the recovery of 88% of total polyphenols in the NF concentrate, with
hydroxytyrosol and oleuropein representing about 50% of low molecular weight polyphenols.
Experimental results supply useful indications about the possibility to use membranes in a sequential design
for obtaining valuables products from OMW, of interest for food, cosmetic and pharmaceutical applications.
Key words: olive mill water; polyphenols; integrated membrane processes; recovery

94
Effects of camel browsing on the growth of Avicennia marina (Forssk.) Vierh. in coastal
dry climate mangroves
Atsushi NAKASHIMA1*), Yohei KODO1), Keitaro MATSUMURA1), Ichido YISHIMORI2),
Naoko MATSUO3), Hiroshi NAWATA4), Ken YOSHIKAWA2)
and Abdelmoneim Karamalla GAIBALLA 5)
Author affiliations:
1) Graduate School of Systems Engineering, Wakayama University, Japan
2) Graduate School of Environmental and Life Science, Okayama University, Japan
3) Graduate School of Bioresources, Mie University, Japan
4) Faculty of International Resource Sciences, Akita University, Japan
5) Faculty of Marine Sciences & Fisheries, Red Sea University, Sudan
Contact details:
E-mail: nakat@sys.wakayama-u.ac.jp
Address: 930 Sakaedani-Wakayama, Japan 640-8510
Phone/Fax: +81734578378
Abstract
The purpose of this study is to clarify the difference of growth biomass and shoot in Avicennia marina under
different intensities of browsing pressure along the Red Sea Coast. From 21st June to 16th July 2012, we
measured the direction and height of the main trunk or equally sized “large” branch on the selected 22 trees in
the mangrove at the south of Port Sudan, Sudan. Next, we counted the shoots of all selected trees which were
either live, dead or eaten by camels. Measurement of the following five items were further conducted, 1)
length, 2) diameter, 3) number of live shoots, 4) number of dead shoots, 5) number of eaten shoots. Trees were
further separated into 4 “levels” of browsing pressure according to the rate of eaten shoot number; non-
browsed level, light level (less than 30% browsed), middle level (30-60% browsed) and excessive level (over
60% browsed). And, from 28th of February to 16th of March 2012, we investigated more detailed
morphologies, 1) leaf area, 2) number of leaves, 3) leaf thickness. 4) leaf greenness, 5) leaf and shoot dry
weight, 6) nodal length, 7) number of nodal, 8) shoot length on the same “large” branches. The results are as
follows. (A) Live shoot rate at light browsed level was higher than other browsing levels. (B) The “large”
branches under browsing pressure by camels became shorter and thicker. (C) The amount of live shoots in
large branches increased at light browsed level. (D) The amount of shoots and amount of live shoots in
comparison to direction of large branches was compared. Amount of live shoots and shoots in upward large
branches were more than other directions. (E) Air dry matter was heavier at light browsed level at the bottom
of trees, below 200cm height. (F) Air dry matter per leaf was heavier at non-browsed level at the bottom of
trees. (G) Leaf area per leaf was larger at non-browsed level at the bottom of trees. (H) Number of leaves
increased at light browsed level at the bottom of trees. (I) Leaf thickness increased at excessive browsed level
at the bottom of trees. And, leaf thickness increased at light browsed level at the top of trees (above 200cm).
(J) At the top, browsing pressure did not affect shoot growth, however there was a difference in leaf thickness.
The result in this study, 20~30% of browsing pressure by camels is good for the growth of A. marina. We also
consider that such other good effects like the changing of division of moisture content in a tree with reduction
of leaves by camel browsing is possible.
Key word：mangrove; Avicennia marina (Forssk.) Vierh.; camel browsing; Red Sea coast

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96
New bioagrotechnology of cultivating cotton plant on saline and arid lands
Khurshida NARBAEVA*), Anastasiya BABINA
Author affiliations:
Department of Soil Microbiology, Institute of Microbiology, Academy Sciences Republic of Uzbekistan
Contact details:
E-mail: bonu19@mail.ru
Address: 100143, Mirzo Ulugbek district, Durmon yuli str. 30, Tashkent ,Uzbekistan
Phone: +998712621438
Fax: +998712419227, 2417129
Abstract
The increasing frequency of dry periods in many regions of the world and the problems associated with
salinity in irrigated areas frequently result in the consecutive occurrence of salinity and drought which lead
desertification of cultivated land. Salinity and drought disturb the mineral-nutrient relations in plants through
their effects on nutrient availability, transport, and partitioning in plants. Soil salinity reduces the germination
and emergence, decreases cotton shoot growth, and may finally lead to reduced seed cotton yield and fiber
quality. Salinity lead to soil degradation and reduction the yield of cotton plant, because in saline soils
decreases the number of beneficial soil microflora, reduces the number of microorganisms-destructors of
xenobiotics, varies cation-anion composition of SAC (soil adsorbing complex), which changes the response of
the soil’s environment to alkaline (pH - 8-9) in which the imbalance of nutrients and as a result of breaks
assimilation of macro-and micronutrients by plants.
In the department of soil microbiology Institute of microbiology AS RUz have developed a new
environmentally safe bioagrotechnology which based on the joint applying the 2 biopreparation Rizokom-1
and Serhosil. Biopreparation Rizokom-1 with complex action for pre-sowing treatment of seeds of cotton plant
on saline soils includes 4 active strains of rhizobacteria of cotton plant with the following polyfunctional
properties: resistance to high concentrations (15-20%) of toxic salts (NaCl, Na2SO4, MgCl2, MgSO4),
phosphorus mobilizing activity (the dissolving of tribasic calcium phosphate and mineralization of phytin)
destructive activity to organochlorine pesticides, antagonist activity against phytopathogens of cotton plant,
root formation and growth stimulating activity. Biopreparation Serhosil for foliar nutrition of plants on phases
of vegetation based on the green microalgae, which improves photosynthetic activity of leaf of cotton plant.
To help the plant to survive the stress and not to disturb the natural rhythm, it is necessary to provide a very
high quality, affordable and metered power through the root system and foliar system. Therefore, the
development of anti-stress biotechnological methods for optimizing the growth and productivity of cotton
plant on saline soils through the introduction of efficient strains of microorganisms that enhance plant
nutrition, is an urgent task.
Increasing of biodiversity and improving the balance of the soil microbial community in favor of beneficial
microflora are observed when applied a biopreparations Rizokom-1 and Serhosil on cotton plant on saline
soils. Agrochemical parameters of the saline soil are improved compared to the control: pH of the soil solution
decreased from 8.8 to 7.4 and phosphate mode of soils. The content of mobile forms of available nutrients was
increased, the amount of toxic salts decreased during the vegetation. Rizokom-1 and Serhosil increase the
tolerance of cotton plant to salinity, drought and other stress conditions by optimizing the balance of soil
microflora and plant nutrition by macro and micronutrients, improving immunity. New bioagrotechnology on
saline soils enhances productivity of cotton: it reduces the incidence of cotton, reduces the time of ripening for
15-20 days and costs of irrigated water, increases the yield of cotton to 5-7 c/ha with improving fiber quality.
Key words: soil salinity; cotton plant; biopreparations; soil fertility

97
Soil erosion and sedimentation studies at south-western spurs of Zarafshan Range
using gamma-spectrometric technique
Muhtor NASYROV1), Akmal SAFAROV1), SCOTT VAN PELT3), Amriddin XOLIKULOV1),
Shaymon XUSHMURODOV1) and Tolib MUMINOV2)
Author affiliations:
1) Samarkand State University named after A.Navoi
2) Research Institute of Applied Physics, National University of Uzbekistan
3) USDA research service Wind Erosion and Water conservation unit, Big Spring, Texas
Contact details:
Email: muhtorn@yahoo.com
Address: University Boulevard 15, Samarkand, 140104 Uzbekistan
Abstract
Changing economical conditions and increasing anthropogenic influence on the environment and the resulting
soil erosion represent a serious threat of land degradation in Central Asia and all countries world. Brown
reports that annually the world is losing 23 × 109 tons of soil from croplands in excess of new soil formation.
Besides on-site problems, soil erosion can also cause off-site negative effects, for example, increased sediment
transport in rivers. Mahmood has estimated the world's reservoirs are currently losing 50 km3 of storage
capacity per year due to sedimentation (equivalent to storage loss of approximately 1% per year). Resulting
reservoir replacement costs are extremely high and, besides, new sites to replace lost storage are difficult to
find.
Based on that, our nuclear physics laboratory has developed a new cost effective method “Estimation of soil
degradation using fallout radionuclide Cs-137’’. Fallout radionuclide techniques have been successfully used
to estimate soil erosion and sedimentation in the USA, Europe and Australia using 137Cs and, more recently,
239+240Pu.
Out of the latter ones, 137Cs has received the most attention. This radionuclide (T1/2 = 30.2 yr) was introduced
into environment by atmospheric testing of thermonuclear weapons from the mid-1950's to the mid-1970's.
137Cs was distributed globally and deposited as fallout. After deposition137Cs is rapidly absorbed by soil and
sediment particles. Subsequently, redistribution of 137Cs occurs in association with soil erosion and
sedimentation.
When we obtained soil samples from selected sites, we paid most attention to find a place that did not have
erosion. (so called Reference point).By consulting with biologists we chose a site which has likely had no
erosion. As a test, we collected soil samples from multiple locations at this site and determined that the
inventory of cesium changed little between samples, which further suggests that little erosion has taken place
and the site can be considered a reference (background) point.
It is very important to compare the current inventory of cesium at various sites to the reference inventory, so
when:
• Inventory in site less than inventory of the reference point, this indicates that erosion has taken place
• Inventory in site greater than inventory of the reference point, this indicates that sedimentation has
taken place
Key words: tracer; caesium-137; erosion; sedimentation; gamma-spectrometry

98
How does Japanese people image and understand deserts: Based on questionnaire survey
results at National Museum of Nature and Science, Tokyo
Hiroshi NAWATA
Author affiliation:
Faculty of International Resource Sciences, Akita University
Contact details:
E-mail: nawata@gipc.akita-u.ac.jp
Address: 1-1 Tegatagakuen-cho, Akita, Japan 010-8502
Phone/Fax: +81188893256
Abstract
The purpose of this study is to clarify how Japanese people image and understand deserts, based on
questionnaire survey results at National Museum of Nature and Science. National Museum of Nature and
Science, Tokyo and Research Institute for Humanity and Nature (RIHN), Kyoto had the exhibition “Surviving
in the Desert: Strategies of Humans, Animals, and Plants” from November 2013 to February 2014. We
organized twenty-seven gallery talks, symposia and lectures to communicate with Japanese citizens. More than
hundred thousand visitors have visited the exhibit in sixty-six days (117,874 persons: 1,786 person/day).
Research materials and results collected mainly through the RIHN project “A Study of Human Subsistence
Ecosystems in Arab Societies: To Combat Desertification for the Post-Oil Era” (Project Leader: Hiroshi
Nawata, 2008-2013) were on display including a book called “Desert History: Strategies of Humans, Animals,
and Plants for Sharing Water” (Tokai University Press, 2014), illustrating the relation between humans and
nature focusing on strategies of humans, animals, and plants use to share water. The book was full color and
more than 450 pages long. This helped a wide range of Japanese to understand nature and culture of deserts. In
order to include display materials which matches visitors’ interest before the exhibition, questionnaire survey
was planned by National Museum of Nature and Science. It set three questions for visitors: 1) What kinds of
thing do you imagine when hearing deserts and arid lands?, 2) What kinds of topics do you want to know
about human livelihood of deserts and arid lands?, 3) What kinds of topics do you want to know about nature
of deserts? between 11 and 16 July, 2013. I received eighty-one valid responses. For example, regarding first
question, they points thirty topics to imagine when hearing deserts and arid lands: 1. camels (22 responses), 2.
hot (18 responses), 3. oases (15 responses), no water or no rainfall (14 responses), 4. Africa & Middle East,
including Egypt (10 responses), 5. sand including dust, dust storm, & sand dune movement (10 responses), and
so on. When I make a sentence by choosing these top seven topics, it becomes “Deserts are places with no
water or no rainfall on hot sand lands, some of which have oases and camels, particularly in Africa and the
Middle East regions”. I analyze all responses by categorizing into following topics such as a) about physical
environment, b) about particular living creatures, c) about areas, d) about history, civilization & religion, e)
life, culture & society, f) desertification problem and environmental issues, g) about issues related to Japan,
and h) others. Based on these analyses, I summarize three points of understanding of deserts and arid lands by
Japanese citizens, especially who are highly motivated to visit a science museum, in contrast to academic
understanding. Firstly, concerning physical environments of the atmosphere such as climate and weather
conditions, they are not aware of cold climate and day and night difference in temperature, but little
precipitation and hot climate, because they seem to be ignorant of academic standard definition of aridity with
precipitation and potential evapotranspiration. 2) Secondly, concerning physical environment of water, they
clearly recognize that deserts are lack of water, and oases have water, but do not know how human use and
manage water. 3) Thirdly, they easily image biological and physical environments of deserts, but do not come
to realize that people have lived in deserts and have developed life, culture, society, history, civilization and
religion.
Key words：desert understanding; desert history; Japanese image; desert exhibition; questionnaire survey

99
Desertification and knowledge management for sustainable land management
in Tajikistan
Gulniso NEKUSHOEVA, Hukmatullo AHMADOV
Author affiliation:
Soil Sciences Institute, Dushanbe
Contact details:
E-mail: ahmadov@yandex.ru
Address: Dushanbe, 734025, Rudaki avn, 21а
Abstract
Tajikistan has a wide distribution of degraded lands (97.9%), which leads to high rate of desertification
processes, unsustainable economic and social development. Agriculture is the dominant sector in the economy
of the country. The majority of rainfed cropland and pastures occupied the mountains and foothills slopes ,
while only 7% from total territories of the country is allocated to irrigated agriculture. The traditional land use
system, according to mountain condition consist of several vertical agroecological zones with specific climate,
landscape elevation and land use).Unsustainable agricultural is the main cause of intensive development of
the soil degradation on all zones. The main type of degradation of arid valley zones with irrigated croplands
and winter pastures are - water erosion (irrigation erosion, gully off-site erosion), wind erosion, secondary
salinisation, waterlogging and pastures degradation, mostly by overgrazing.
The low mountain agroecological zone during the last 20 years as results of economical instabilization were
used as rainfed croplands and all the year round pasture and soil degradation developed more intensively,
which intensify the surface erosion, severe gully erosion, landslides, pasture degradation, deforestation. The
middle zone, which is used as spring-summer pasture currently is taken under irrigated agriculture, which
induce decreasing of the pasturelands and maximum index of runoff and soil loss are observing here
The high mountain agroecological zones are a summer pasture, thus causing the intensive development of
pasture degradation. Natural desertification is more intensively going here than in the lowlands/plains zones.
For each agroecological zone complex of erosion control measures (suitable soil and water (SWC)
conservation technology) was elaborated and recommended earlier, but most of them are cost labour and needs
time. Poor resources farmers cannot afford this cost. For sustaining the existing land management it was
necessary to collect and analyzed best land use practices. Tajik Soil Science Institute which is a partner
organization of WOCAT since 2000, jointly with other Institutes, NGOs and international projects by using
WOCAT tools collected and documented successful SWC practices from scientific researchers, land
management innovations which come through the international projects and existing local traditional
knowledge of farming for different land use type and ecological zones of Tajikistan. Up to now more than 100
SWC technologies and approaches described on Tajikistan are listed in the WOCAT database. The
dissemination of this knowledge can help farmers of arid countries on increasing soil fertility, food production,
to prevent or at least mitigate land degradation and desertification, to improve the ecological situation and
simultaneously decrease the vulnerability to climate change.
Key words: WOCAT database; soil erosion; secondary salinization; conservation agriculture; afforestation;
Tajikistan

100
Measures for improvement of rangelands productivity in the Karakum desert under
ongoing climate change conditions
Muhamet NEPESOV
Author affiliation:
National Institute of Desert, Flora NA Fauna , Ministry of Nature Protection of Turkmenistan
Contact details:
E-mail: mukhammet.nepesov@mail.ru
Abstract
Climate variability, drought and temperature extremes above global average will be exacerbated in the desert
zones of Central Asia. There is a need for multi-step approaches to combat desertification, prevent loss of
biodiversity, to improve productivity of saline and degraded lands and identify measures for reclamation of salt
affected lands and water quality deterioration. Central Asian countries that are already experiencing water
shortages and increasing food imports, should given much attention on evaluation and promotion of biosaline
technologies through mobilization of salt tolerant crops with wide range of salinity tolerance able to give high
forage production and produce viable seeds under saline environments. The utilization of low quality water
for irrigation will have a key role in near future; it will become a single source for irrigation agriculture in the
downstream of Central Asian rivers deltas. Our studies have shown that the increasing of rangelands
productivity through creation of cultural agrophytocenosis from mixed shrubs and semi shrubs species that has
been practiced for last decades, today are not effective due to low rainfall (150-200 mm / year) in the desert
areas. Therefore, sustainable use of drainage water for creation of cultural pastures should be considered as one
of the reliable solution for creation of stable fodder basis in the Karakum desert. The main criteria for the use
of drainage water are texture of the soil, drainage of irrigated field, the degree of mineralization and the
composition of the salts of the drainage flow, the salt tolerance of cultivated crops, technical and economic
performance of irrigation.
Our field experiments on usage of drainage saline water for increasing biomass production of natural desert
vegetation were conducted near Dasoguz branch of the Turkmen Lake "Altyn Asyr" on the 1.25 hectares. The
type was predominantly sandy desert soils with a permeable filtration index as two-meter zone of 3.5-5.0
m/day. Ground water table was about 9-10 m depth with mineralization of 20-25 g/l. The cover vegetation in
the experimental plot was mainly formed by Haloxylon aphyllum, H. persicum and woody species of genus
Salsola (S. Richteri, S .rigida), Artemisia and others. Additionally dense stands of Alhagi pseudoalhagi,
annual halophytes, and different grasses are presented under trees-shrubs plant communities. Different options
for pastures irrigation were used: I - without irrigation (control); II - 1500-3000 irrigation rate, irrigation - 500
m3/h; III - 3000-4000, respectively, and 1000 m 3/ha; IV - 6000 and 1500 m3/h; V - sowing irrigation norm in
March 3000 m3/ha, in two steps of 1500 m 3/ha. In all variants, except control the irrigation has been done
watering from May 15 to August 20: first - May 15-17, in a period of rapid growth of Alhagi; second - June
11-16, during the mass flowering and seed maturation; third and fourth - July 13-19, respectively, and last
irrigation was made on 13-20 of August. Water from the Dashoguz branch of the Turkmen "Altyn Asyr" with
mineralization of 3-5 g/l was used for irrigation. As it was shown by our experiments the water was dangerous
for low and medium salinity tolerance crops. The highest average yield of dry biomass of desert vegetation set
under variant IV and V varied from 53.25 to 69.5 t/ha, which was about 22.25 t/ha more than under control.
We have concluded that the optimal time for irrigation by brackish drainage water stimulating the increasing of
rangelands vegetation production is early spring season. Watering technique is similar to its holding estuary
irrigation. It is based on single or double moisture irrigated field norm 3000-4000 m3/ha by flooding interdunes
depressions.
Key words: drainage mineralized water; desert halophytes; rangelands improvement; fodder production;
climate changes; Karakum Desert; Turkmenistan

101
Introduction and micropropagation of some Juno species and their preservation in vitro
collection
Elena NIKITINA*), Mirabdulla TURG’UNOV
Author affiliation:
Institute of the Gene Pool of Plants and Animals Uzbek Academy of Sciences
Contact details:
E-mail: elenanikita2013@rambler.ru
Address: Bogishamol, 232, 100053, Tashkent, Uzbekistan
Abstract
Conservation of rare plant species as the most valuable and vulnerable biodiversity of our region is now
regarded as one of the priorities of the Botanical Garden. The introduction is one of the methods of
preservation of rare species and increasing their numbers. The seeds of Juno species were taken for our
experiment. Juno warleyensis (Foster) Vved., Juno vicaria Vved., Juno nicolai Vved., Juno orchioides (Carr.)
Vved., Juno kovolkovii are growing in Surkhandarya region of Uzbekistan.
The identification of seedage features of Juno species and plants development in open ground under Botanical
Gardens conditions in Tashkent, showed the problem, as physiological seed dormancy (2-3 years duration) and
necessity to break it. The culture in vitro reduces the dormancy period, using embryo and corcule unique
property - autonomy.
The features of germinant formation, depended on primary explant type were studied. Explants were cultured
on basic Murashige-Skoog medium supplemented with phytohormones at 22-24 º C, with 16 hour photoperiod.
Activation of growth processes in isolated embryos marked on 4-th day of culture. At the same time the
embryos increased in size, changed the configuration. Formation of single germinant revealed in 6-7 day. In
the case of mature seeds the germinates noted in much later date (60 days of cultivation).
Thus, the using of traditional introduction methods in conjunction with technology in vitro allows to create,
maintain and enhance the live plants collections more effectively, which, in our opinion, contributes the
realization of biodiversity strategy of rare and endangered plants.
Key words: introduction; micropropagation; Juno species; collection in vitro

102
Desertification in foothill territories of Uzbekistan and the measures to combat it using
alternative sources of energy (in case of Nurata mountains)
Muhtor NOSIROV1), Arzimurod RAKHMATULLAEV2), O. ODILOVA3)
Author affiliations:
1) Department of Botany and Plant physiology, Samarkand State University, University Boulevard 15,
Samarkand, Uzbekistan
2) Department of Hydrometeorology and Landscape Studies, Samarkand State University, Uzbekistan
3) Faculty of a Technique of Teaching of Geography, Jizzak State Pedagogical Institute, Jizzak, Uzbekistan
Contact details:
E-mail: muhtorn@yahoo.com
Address: Department of Botany and Plant physiology, Samarkand State University, University Boulevard 15,
Samarkand, 140104, Uzbekistan
Phone: +998 90 602 41 93
Abstract
Mountain areas occupy 21,3% of the total territory of Uzbekistan of which more than fifty percent belongs to
arid and semi-arid mountains. Nurata mountains are typical of arid mountains covering the most west ranges of
Pamir-Alay mountain systems. Despite the rich biodiversity of Nurata mountain ecosystems, natural resources
of the region have been currently facing serious anthropogenic load of various origins. Overgrazing and
uprooting of natural vegetation are major factors of land degradation and deforestation in Nurata mountains.
Rising the number of population increases the need for food and fuel to support livelihood of local people. In
such conditions, combating land degradation and preventing further deforestation is a major concern in the
region. Alternative sources of energy may enable reducing anthropogenic load on natural resources of Nurata
mountains.
Nurata mountains are rich in solar energy. Annual sunny days comprise of 320 days in west plain part and 300-
310 days in east part. In this territory each square santimeter surface receives 145-140 large calories. If this
amount is transferred to electrical energy then it becomes 1 kilowatt electrical energy per hour from 1 square
meter area. This amount of electrical energy is sufficient for average need of the single household to electrical
energy.
Wind resources are one of the next abundant natural resources in Nurata mountains. According to the data of
Nurata meteorological station, average annual wind speed is 3 m/s. Wind with 5 m/s or more consists of more
than100 days per year. As known, wind generators produces electrical energy when wind speed exceeds 3 m/s.
Taking into account existing natural resources in Nurata mountains it is worthwhile to establish solar panels
and wind generators together in a certain area. When solar energy gets scarce during winter period wind
generators support to produce energy.
The territory of Nurata region is rich in resources for biogas. According to Eshbekova and Atabaev (2012) 1
kg/DM manure of cattle produces 0.250-0.340 m3, of poultry 0.310-0.620 m3, of sheep 0.300-0.620 m3, of
wheat straw 0.200-0.300 m3, maize straw 0.380-0.460 m3 biogas. As seen from above given figures, manure
of poultry, sheep and straw of maize is rich in biogas which can be found in enough quantity in each typical
household. Due to the absence of individual and collective biogas producing equipment and absence of
experience of people this type of alternative energy has not been developed.
Use of alternative sources of energy opens a way for sustainable management of natural resources in the
territory of Nurata mountains. Taken electrical and heat energy from solar, wind and biogas sources
significantly reduces logging and uprooting of trees and shrubs in mountain areas and it gives a way for self
regeneration of the natural vegetation. Moreover, use of alternative sources of energy gives an opportunity for
better and consistent use of rangeland vegetation through providing of additional watering points for livestock
in remote rangeland areas.
Keywords: land degradation; deforestation; alternative energy; Nurata mountains

103
Litter production as a proxy for aboveground productivity under elevated atmospheric
CO2 at the Nevada Desert FACE Facility
Robert S. NOWAK1*), Amrita DE SOYZA1,2)
Author affiliations:
1) Department of Natural Resources & Environmental Sciences, University of Nevada Reno, USA
2) Current address: BP AGT Region, Xazar Center, 153 Neftchilar Avenue, Baku, Azerbaijan
Contact details:
E-mail: nowak@cabnr.unr.edu
Address: 1664 North Virginia Street, NRES / MS 186, University of Nevada Reno, Reno NV 89557, USA
Phone: +7757841656
Fax: +7757844583
Abstract
Over the past 150 years, atmospheric CO2 concentration ([CO2]) has increased steadily from 270 to 378 µmol
mol-1, largely due to increasing use of fossil fuels and land use changes. At current rate of increase, [CO2] is
expected to reach ~565 µmol mol-1 by the end of this century. In addition to predicted changes to global
climate, increasing atmospheric [CO2] directly affects the earths’ autotrophs, primarily plants. For plants,
increased [CO2] often increases photosynthetic CO2 assimilation rates and primary productivity. However,
biomass accumulation by perennial plants is offset to some degree by biomass shed, which is usually called
litter production. Using Free-Air CO2 Enrichment (FACE) technology at the Nevada Desert FACE Facility
(NDFF) in the Mojave Desert of southwestern North America, we examined litter production over 9 years of
experimental treatments to determine if litter production would change in concert with aboveground
productivity in a desert ecosystem. Results indicate that the evergreen shrub Larrea tridentata was the only
species that had significant [CO2] effects on litter production, but those significant effects only occurred in
1998 and 1999. When summed over the entire 9-year period of observation, Larrea again was the only
microsite that had significantly greater litter production under elevated [CO2]. Litter production for the
drought-deciduous shrub Ambrosia dumosa under elevated [CO2] tended to be greater than the other treatments
in most years of observation, and cumulative litter-fall for Ambrosia was numerically greater for the elevated
[CO2] treatment, but differences were not significant in any one year or when summed over all years. Litter-
fall for the other microsites was usually very similar, both within each year and when summed over the 9-year
period. These litter production results are consistent with shoot production results, although temporally
delayed, and thus is an appropriate proxy for aboveground productivity response to elevated atmospheric
[CO2].
Key words: dryland ecosystem; global change; plant productivity; litter-fall; shrub microsites

104
Effective use of the salted lands of rice systems of Kazakh Priaralya
Nurali NURGALIYEV*), Serikbai UMIRZAKOV and Ibadulla TAUTENOV
Author affiliation:
LLC "Kazakh research institute of rice growing of I. Zhakhayev,Kyzylorda, Kazakhstan
Contact details:
E-mail: ainurik_jbk@mail.ru
Address: 120000, Kazakhstan, Kyzylorda, Microdistrict Astana, Zhibekzholi street ,1/31
Phone: +77776107442
Abstract
Climate change, degradation of soil and natural resources, desertification, deficiency of irrigation water and
frequent droughts threaten food and energy security in the Kazakhstan Priaralye. However, there are several
opportunities for further development of irrigated agriculture and pastoral animal husbandry. One of the
options is introduction of the drought-resistant highly productive cultures capable to grow in arid territories,
and in particular on the marginal and salted lands. In this study sorghum, African millet was used to develop
resource-saving agro-technologies to create steady base for intensive development of animal husbandry and
production of biofuel.
The research was conducted under the support of the ICBA (International Centre for Biosaline Agriculture)
Central Asian office. Salt-resistant 10 of sorghum and 17 the pearl millet improved lines from world
germplasm collection were received and evaluated under saline environments in the Kazakhstan Priaralye. All
(10) sorghum had quite high seed germination rate, seedlings survival and performance. Field samples of the
sorghum ICSV 112, Orange 160 and ICSV 25275 were distinguished as 70%, 71.3; 70.6 and 70.3% growth
plants rate. Definition of survival of the plants, one of the main parameters of adaptability of cultures to
stressful conditions showed rate of 87.3-92.3% for sorghum (Orange 160 and ICSV 25275) by the time of the
first cutting despite high salinization of the soil. The pearl millet viability was lower, than at sorghum, it
fluctuated within 53.6-66.3% rate. Viability of IP 19586, Rai POP, IP 13150, HHVBC Tall were 66.3-64.1%.
However, the African millet was steadier against salinization, showing survival rate of 90.6-95.8%. From a
sorghum ICSSH 28, ICSV 25279, ICSSH 58 varieties , Orange 160, SPV 1411, ICSV 25280 which given
37.5-46.6 t/hectare green forage biomass at the end of harvesting stage. The pearl millet determination of
productivity of green material showed that samples of HHVBC Tall, GB 8735, Sudan POP 1, IP 22269, WRai
POP, IP 13150, IP 19589 formed the highest biomass production of 34.5-48.0 t/hectare. The results of the
study show steady development against biotic and abiotic stressful conditions of the region of the cultivation of
salt- and drought-resistant sorghum and pearl milet on the salt affected soils of the paddy fields of Kazakhstan
Priaralye.
Key words: pearl millet; sorghum; salt affected soils; biomass production; Kazakhstan

105
Characteristics of soil under the forest steppe in Mongolia
Koichiro OGUMA*1), Kenji TAMURA1), Takashi KAMIJO1), Kiyokazu KAWADA1),
Undarmaa JAMSRAN2)
Author affiliations:
1) Graduate School of Life and Environmental Sciences, University of Tsukuba, Japan
2) Center for Ecosystem Study, Mongolian State University of Agriculture
Contact details:
E-mail: s1421057@u.tsukuba.ac.jp
Address: Graduate School of Life and Environmental Sciences, University of Tsukuba
Faculty of Life and Environmental Science, F-102, 1-1-1, Tennohdai, Tsukuba, Ibaraki, Japan
Phone: +810298537201
Fax:+810298534605
Abstract
Introduction: The forest steppe in Mongolia lies between the taiga forests and the steppe grasslands, in
moister conditions than steppe grasslands. Forest steppe encompasses both coniferous forests and grasslands,
each with a unique distribution pattern. This geographical diversity supports biodiversity, giving the forest
steppe great value. Although there are many studies of the vegetation of forest steppe, few studies relate
vegetation to soil properties. The objective of this study was to clarify the characteristics of soils under the
forest steppe in Mongolia.
Materials and methods: The study was carried out at four sites in Gorkhi Terelj National Park (TER) and at
two sites in Hustai National Park (HUS), Mongolia. We investigated the soil profiles under grassland on a
south-facing slope (TER-G) and on a ridge (TER-T); under forest on a north-facing slope near a ridge (TER-
F1) and under dense forest on a north-facing slope (TER-F2); and under grassland (HUS-G) and forest (HUS-
F) on an east-facing slope. Soil samples for chemical analysis were collected from each horizon of each
profile. Undisturbed soil core samples for physical measurements were sampled with a 100-mL core sampler.
We measured soil total organic carbon, total nitrogen, pH (H2O, KCl), exchangeable bases, CEC, bulk density
and saturated hydraulic conductivity.
Results and discussion: The soil profiles of TER were characterized by dark A horizons, a high content of
rock fragments, and the absence of a calcic horizon (Bk horizon), which is usually presenting semi-arid areas
in Mongolia. The A horizons under grassland (40–56 cm) were thicker than those under forest (4–39cm). The
TER soils were characterized by high saturated hydraulic conductivity and high levels of organic carbon and
nitrogen in the A horizon. The base saturation of all horizons in TER-F2 was the lowest among profiles in
TER. The soils at TER-G, TER-T, and TER-F1 were classified as Phaeozems, and that at TER-F2 was
classified as an Umbrisol according to WRB (FAP/ISRIC/ISSS, 2007). These results suggest that the high
productivity of the grassland vegetation and the relatively high precipitation in this area are responsible for the
dark A horizon and for leaching out of CaCO3from the soil. Both the thickness of the A horizon and base
saturation are relevant to vegetation type. The HUS soils were characterized by dark A horizons, high levels of
soil organic matter, and high base saturation in the surface. Although pH (H2O) and total exchangeable bases
were the same in the A horizon of each soil profile, those of HUS-F were lower than those of HUS-G in the B
and BC horizons. The differences may be due to vegetation or to water conditions. The soil at HUS-G was
classified as an Umbrisol and that at HUS-F as a Cambisol.
Key words: forest steppe; steppe; Mongolia; morphological characteristics of soil; physico-chemical
properties of soil

106
Current status and problems of drainage system in Uzbekistan
Yukio OKUDA*1), Junya ONISHI1), Keisuke OMORI1), Tetsuji OYA1), Ayumi FUKUO1),2),
Rakhmon KURVANTAEV3), Yulia SHIROKOVA4) and Vladimir NASONOV4)
Author affiliations:
1) Japan International Research Center for Agricultural Sciences
2) Present Address: Nippon Koei Co., Ltd., Japan
3) Gulistan State University, Uzbekistan
4) Research Institute of Irrigation and Water Problem, Uzbekistan
Contact details:
E-mail: yokuda@affrc.go.jp
Address: 1-1 Ohwashi, Tsukuba, 305-8686 Japan
Phone: +81298386677
Fax: +81298386682
Abstract
Agricultural productivity in Central Asia increased through the development of irrigated land in the middle of
the 20th century. This led the government to dedicate energy and resources to improve the conditions of
agricultural lands. In some parts of the region, continual use of agricultural land over time caused groundwater
levels to rise and soil to become salinized, because of the application of large amounts of water on the fields
with inadequate maintenance of drainage systems. The salinization level of farmland can be changed by
controlling groundwater. Measures against salinization in Central Asia are mainly to lower high groundwater
levels through facilities of drainage system. There are three types of drainage system, 1) open drainage, 2) sub-
surface drainage and 3) vertical drain. This study shows the current status and problems of these three systems
in Syrdarya region, Uzbekistan that has serious salinization. Firstly, the open drainage, topographic survey in
the study sites showed that, in some sections, the drainage water has stagnation because of inadequate gradient
or obstacles parts in drainage canal, even though some being cleaned up several years ago. Sedimentation and
overgrown weeds impede adequate water flow and result in reducing discharge of groundwater. Secondly,
regarding the sub-surface drainage, the purpose of sub-surface drainage is to lower groundwater level in the
study area. The water can be discharged from the field with salt. There were three pipes in the study site. The
study showed that two outlet of pipes inside of the open drainage could not be observed visually because of
being covered with soil by collapsed side slope. It was hard to observe water flow from the outlets. After
removing the soil at one outlet, sedimentation was also observed in the pipe but little water flowing was
observed from the pipe. Other outlet was visible under the water in open drainage. The water flow of this
outlet could be observed. The difference of outlet condition caused a different salinization even in one field.
As compared with another outlet being above the surface water of the open drainage at near the study site, the
amount of water flows of those malfunctioning sub-surface drainage was between quarter and twelfth part.
Finally, regarding to vertical drain, it can control groundwater by pumping up water from deep depths through
special wells equipped with pumps. The number of vertical drain drastically decreased since 1995 in the
region. The current operation data was collected and analyzed in a district of the region. The percentage of less
or no operating vertical drain is 46%. The main operating period differs in the areas due to request of
supplemental irrigation water. In conclusion, above current status could lead to deteriorate salinization. It is
important to promptly evaluate malfunction and implement the maintenance works effectively for the open
drainage and sub-surface drainage. The operation system of vertical drainage has to be reviewed for the new
circumstances.
Key words: drainage system; groundwater; salinization; Sub-surface drainage; vertical drain

107
Compressed biomass as mulches in no-till farming
Siaw ONWONA-AGYEMAN*1), Fuke MITSUTOSHI1), Yoshiko KAWABATA2),
Masaaki YAMADA1), and Mitsuhiko TANAHASHI3)
Author affiliations:
1) Institute of Agriculture, Tokyo University of Agriculture and Technology, Japan
2) International Center, Tokyo University of Agriculture and Technology, Japan
3) Biomass conversion laboratory, Faculty of Applied Biological Sciences, Gifu University, Japan
Contact details:
E-mail: agyeman@cc.tuat.ac.jp
Address: 2-24-16, Nakacho, Koganei, Tokyo, 184-8588, Japan
Phone: +81423887596
Fax: +81423887596
Abstract
With the increasing pressure on agricultural water supply in many regions coupled with soil and nutrient loss
from intensive farming practices, many farmers are now compelled to the shift to on-farm techniques that
require the use of organic amendments without tilling. Many researchers, international organizations,
government agencies, NGOs, etc., recommend soil organic amendments without tilling the land.
Unfortunately, organic residue, especially in the form of chips is likely to be easily washed by runoff or strong
winds before decomposition. There is therefore the urgent need to develop a ground-cover material that can
ensure the conservation of both soil and water, prevent on-farm nutrients from escaping, improve soil
infiltration, reduce the labor cost of weeding, and most importantly increase crop production. In this paper, we
conducted a study to test the use of compressed biomass mulches in a no-till corn production farming system.
The compressed mulches were obtained from forestry residue and converted into boards by the pressurized
steam and compression technology without using any chemical adhesives. Our investigations also revealed that
the moisture retention capacities of the mulches were relatively high and could be used to reduce soil moisture
losses. By impregnating urea into the mulches, we also obtained other benefits such as improvement in their
durability, moisture retention capacities, and increase in yield. Our findings further suggest that these
compressed mulches can play a major role in non-till farming systems particularly in semi-arid regions by
improving yield improvement, saving costs on irrigation, elimination of weeding or herbicide application,
erosion control, hill slope stabilization and an overall improvement in other ecological services.
Key words: compressed biomass mulches; pressurized steam technology; forestry residue; no-till farming, soil
and water conservation

108
Content of soil organic matter in various soils of Zerafshan valley in Uzbekistan and its
agrotechnological efficiency
Tulkin ORTIKOV
Author affiliation:
Department of Agrochemistry, Soil Sciences and Plant Protection, Samarkand Agricultural Institute
Contact details:
Email: ortikovt@mail.ru
Address: Mirzo Ulugbek Street, 77 Samarkand, 140103 Uzbekistan
Phone: +998911877643
Fax: +998662340786
Abstract
Main determining organic substance of the soil is humus. Reduction of soil fertility, deterioration of its
properties, decreasing the efficiency of agrotechnological cultivation of crops, first of all, are caused by
reduction of soil organic matter and deterioration of its quality. Therefore, all measures directed to increase
humus content and its quality improves ecological condition of soil and efficiency of agrotechnological
cultivation of crops. The research carried out by us showed that humus content and its quality strongly depends
on the type and sub-type of soil, on its mechanical composition and soil horizon, location of soil on certain
elevation, water table, relief, exposition of slope, type of crop rotation, ways and amount of irrigation and
number of other factors. In all types of soil, humus content decreases gradually on top horizons and then
sharply on the deeper soil profiles. With increase of elevation above the sea level, in most cases, humus
content is increased. In general, humus content and its qualitative structure strongly depend on the durability of
irrigation. So, in old irrigated soils of Vobkent and Gijduvan districts of Bukhara province, despite of low
elevation, the content and thickness of this horizon is higher than of the same soil in Samarkand province.
Because of the long-standing irrigation and agricultural practice, soils of Bukhara province are well generated,
soil horizons are precisely separated, humus content is rather high even in the lower horizons. Humus content
is strongly influenced by mechanical composition of the soil. With increasing the heaviness of mechanical
composition of soil the humus content is increased even to the direction of lower horizons. Therefore,
sometimes in lower soil horizons the content of organic matter could be more than on top horizons, where
mechanical composition of soil is relatively light. With reduction of water table soil is well moistured which
promotes increase of the content of soil organic matter. Natural condition of Uzbekistan strongly influences on
humus content regardless of agricultural land use, types of crops and crop rotation, application of fertilizers,
irrigation and soil processing. With the increase of elevation, rainfall, grass richness and with reduction of
water table the humus content and its quality is increased. Humus content is essentially influenced by
anthropogenic factors connected to cultivation of land under agricultural uses and application of
agrotechnological cropping. In most cases, all these factors reduce humus content of the soil and worsen its
quality which is visible in the global tendency of the reduction of humus in world soil. The research showed
that the cultivation of wheat, cotton, tobacco, maize, beet reduce humus content as these crops leaves little root
material in the soil being the main organic material for formation of humus. Application of chemical fertilizers,
especially nitric fertilizers in high dozes results in strengthening the decomposition of soil organic matter by
microorganisms. The organic fertilizers, on the contrary, raise the content and quality of humus. When humus
content is increased in the soil, the soil ecosystem is improved, the functioning of soil is optimized, and also
many important mechanical and physical properties of soil are enhanced. In soils with high humus content
nutritious substances and soil moisture is well kept and saved. Reduction of the humus content due to the
mineralization of organic matter causes release of soil carbon into the atmosphere as carbon dioxide (СО2)
which increases the green house effect. Except this on the background of reduction of humus content,
efficiency of all types of agrotechnological cultivation of agricultural crops are reduced. Thus, the content of
organic matter depends on a number of natural and anthropogenic factors and at the same time humus content
strongly influences on efficiency of agrotechnological activities and ecological condition of the soil.
Key words: soil organic matter; humus content; decomposition; cropping; Zerafshan valley

109
Groundwater recharge and salinity problem in south-western Mauritania
Ahmed Bouya OULD AHMEDOU 1*), Irie Salem MOHAMED2) and Mitsuteru IRIE3)
Author affiliations:
1) Department of agricultural engineering, institute of science and technology, Mauritania
2) Ecole des mines, Nouakchott, Mauritanie
3) University of Tsukuba, Japan
Contact details:
E-mail: a_bouya@yahoo.com
Address: 3800 Nouakchott - Mauritania
Phone: +22222607078
Fax: +2225568100
Abstract
The south-western Mauritania characterized by semi-arid environment, located between the Senegal River in
the south, the Atlantic Ocean to the west. The objective of this work is to combine the groundwater recharge
and salinity problems for identifying the groundwater recharge in response to current and past environmental
changes. The field survey carried out from 2010 to 2012 monitoring the water level and salinity in the study
area.
Results show that the water table levels appeared quite stable. However, combining groundwater recharge and
salinity revealed that the dynamics of the aquifer is influenced by many changes particularly when Diam dams
constructed and now regulating the river flow. The main source of the aquifer recharge is lateral infiltration
from the Senegal River, and precipitation to a lesser extent. The important effect of evaporation on surface
waters before and during their infiltration is strongly marked salinity signature. We found some seasonal
fluctuations in the water (about 0.5 m) that could be related to the infiltration of rain but these points deserve to
be tracked more accurately. The study has also been studied near the Senegal River, where the delta of Senegal
River, local rise and smoothing fluctuations of groundwater has been recorded.
Keywords: groundwater recharge; Trarza; Mauritania; salinity

110
Effects of rhizobium inoculation on nodulation and yield of soybean in the arid area of
China
Tetsuji OYA1*), SAURETI2), ERZATI3) and Aritsune UEHARA4)
Author affiliations:
1) Crop, Livestock and Environment Division, Japan International Research Center for Agricultural Sciences,
Japan
2) Habahe Agricultural Technology Extension Station, Xinjang, China
3) Alahake Agricultural Technology Extension Station, Xinjang, China
4) Rural Development Division, Japan International Research Center for Agricultural Sciences, Japan
Contact details:
E-mail: oyatet@affrc.go.jp
Address: 305-8686, 1-1 Ohwashi, Tsukuba, Ibaraki, Japan
Phone/Fax: +81298386355
Abstract
Recently desertification is said to be expanding in semi-arid area of Xinjiang Uygur Autonomous Region,
Northwest of China. One of the possible causes is over grazing by herders. Herders can reduce the number of
their cattle, goats, and sheep if they get money from other products through settlement. Those people can be
called agropastoralists who get income from agriculture and livestock farming. Soybean is an important cash
crop in the region because of its high demand. However, in the land just after reclamation, organic matters in
the soils are usually very low, which may result in low fertilizer efficiency. Density of rhizobium that is useful
for nitrogen fixation in the soil is usually low. In such case, even if leguminous crops are cultivated, it is not
expectable that nitrogen fixation increases immediately. The objective of this study was to determine the
effects of Rhizobium inoculation on nodulation and yield of soybean in the region. Experiments were
conducted in two kinds of fields. One was in the field in the extension station (on-station, N48o03’, E86o24’),
and the other was in the fields of agropastralists (on-farm, N47o44’, E88o05’). Soybean (cv.Heihe 5) was sown
in late May of 2004 manually in the on-station experiment and by machine in the on-farm experiment. In
China, “Firster Nodule Bacterial Medicament of Leguminous Crops” made by “Qinhuangdao Leading Science
& Technology Development Co., Ltd” is available as a rhizobium inoculant. Before sowing, the inoculant was
dressed onto the soybean seeds. Soybean was grown under fully irrigated condition, and was harvested in early
September both from the on-station and on-farm fields. Nodules were observed even on the roots of non-
inoculated soybean plants, but inoculation increased nodule numbers especially in the fields that soybean
cultivation was newly started. Inoculation increased soybean yield significantly in the on-station experiment.
However, in the on-farm experiment, inoculation increased soybean yield slightly but not significantly. Yield
increase was higher in the fields with lower yield level, therefore, inoculation is considered to contribute to
yield stabilization of soybean. It is concluded that Rhizobium inoculation can increase soybean yield through
increased nodulation in the region especially in lower fertility fields with lower yield level or fields with less
history of soybean cultivation. Rhizobium inoculation is recommended when farmers start to grow soybean in
a newly developed land in the arid area of China.
Key words: arid, inoculation, nodule, soybean, yield

111
Plant diversity of the drylands in upper Mesopoptamia (Turkiye) and their role
in food security
Münir ÖZTÜRK1*), Volkan ALTAY2), Zeki SEVEROĞLU3), Salih GÜCEL4
and Ahmet AKSOY5)
Author affiliations:
1) Ege University,Science Faculty, Botany Department, Izmir, Turkey
2) Mustafa Kemal University, Science & Arts Faculty, Boiology Dept., Antakya, Turkey
3) Manas-Turk University, Biology Department, Bişkek, Kirghizistan
4) Near East Univ., Lefkoşa, Turkish Republic of the Northern Cyprus
5) Akdeniz University, Science Faculty, Boiology Department, Antalya, Turkey
Contact details:
E-mail: munirozturk@gmail.com
Address: University, Science Faculty, Botany Department, E-Blok, 35100 Bornova, Izmir, Turkey
Phone: +90535309104
Abstract
The two of the gene centres namely the Mediterranean and the near east meet in Turkey, which is divided into
the Irano-Turanian, Mediterranean and Euro-Siberian phytogeographical divisions.The country is situated on
the crossroads of important migratory routes and has been home to several civilisaitons, later therefore
increases its importance. It is accepted as the centre of origin for several plants like pea, wheat, flax, lentil,
chichpea, beet, tuberous species, herbaceous species like clover, medics, oats, together with woody species like
pistachios, pear, vines, apple, plum and pomegranate. The wheat and barley are said to have been first
cultivated in the fertile crescent. Very recent studies have revealed that wheat was cultivated for the first time
at Karacadağ and its environs located in the southeast Anatolian part of Turkey. In this study we have
therefore included Diyarbakır, Gaziantep, Kahramanmaraş, Mardin and Şanlıurfa States from the upper
Mesopotamian region. The plants distributed in the region were evaluated for their role in the food security.
The references available on this topic were fully surveyed and current use by the local inhabitants was
recorded together with the way they use these species. The plant taxa distributed in the region and their
potential as animal feed was evalauted. Generally these belong to the families of Poaceae and Fabaceae. Our
investigations showed that the taxa like; Allium scorodoprasum, Anethum graveolens, Capparis spinosa var.
spinosa, Crataegus monogyna ssp. monogyna, Geranium tuberosum, Glycyrrhiza glabra, Gundelia
tournefortii var. armata, Lepidium sativum ssp. sativum, Malva sylvestris, M. neglecta, Mentha pulegium,
Morus nigra, Nasturtium officinale, Nigella sativa, Olea europaea, Orchis coriophora, Ornithogalum
narbonense, Rheum ribes, Rhus coriaria, Pistacia khinjuk, P. vera, Portulaca oleracea, Rubus sanctus, Rumex
acetosella, R. pulcher, Thymbra spicata var. spicata, Thymus sp., Trigonella foenum-graecum, Urtica dioica,
and U. urens are used by the locals as food, salad, spices and also consumed as tea. In addition to these the
taxa like; Capparis ovata, C. spinosa, Cerasus mahaleb, Glycyrrhiza glabra, Pistacia khinjuk, P. terebinthus,
Rhus coriaria and Thymbra spicata are collected from nature and sold in the country and at the same time a
part is exported. Many taxa distributed in the region are used in the traditional folk medicine. These are given
alphabetically with their botanical name, part used, ailment treated and information on the preparations used.
The taxa used as dye plants too were recorded. This investigation is expected to serve as a basis for the future
food security questions in the region.
Key words: Mesopotamia; Turkey; plants, food security

112
Inter-country comparison of food security schemes: lessons learnt
Alka PARIKH
Author affiliation: Social Science Group, D A Institute of Information and Communication Technology
Contact details:
E-mail: alka_parikh@daiict.ac.in
Address: Gh Zero Extension Road, Gandhinagar, Gujarat, 382007, India
Phone: +917930510653
+91 97255 03059
Fax: +91793052 0010
Abstract
Eradication of hunger is one of the important goals listed out in Millennium Development Goals (MDGs).
Most nations identified as vulnerable have taken some action against malnutrition and food insecurity. This
paper tries to compile the food security schemes initiated by 12 such vulnerable nations and their impact on
food security. The nations (India, Pakistan, Bangladesh, Nepal, Sri Lanka, Cambodia, Vietnam, China,
Mongolia, Myanmar, Indonesia and Thailand) have been taken from East, South East and South Asia – mainly
because their economies and economic history have some commonalities like legacy of colonial era, freedom
after the second world war, large population living below poverty line, absence of wild price volatility yet in
between periods of double digit inflation, high debt burden but no history of debt crisis, etc.
Most of these nations have large tracts of semi-arid tropics and hence many face problems of low agriculture
productivity. Yet some have been able to achieve very low levels of malnutrition and hunger in their countries
while some have been struggling to feed their masses. This paper gives a critical look at what has worked for
the successful nations and what have been stumbling blocks for the struggling nations, by taking the case
studies of government schemes of these 12 nations. The paper includes debates on cash transfer vs. food
transfer, import vs. self sufficiency in food, direct feeding programs vs. economic growth as tools for
achieving food security for the citizens. The reasons for lack of direct feeding program in some nations could
also be found in lesser extent of landlessness – they use agricultural growth as a solution. The paper examines
whether such strategy has worked. The paper also looks at the extent of government spending on such schemes
and then comparing their impact to check the effectiveness of the money spent. Such situations are also
highlighted in the paper.
The progress in achieving food security has been determined by reduction in the critical indicators of food
security like underweight children, extent of anemic mothers and infants, and the like. The paper concludes
with the lessons learnt from these 12 nations’ experiments with food security policies.
Key words food security schemes; trends in indicators of malnutrition; cost of food security schemes

113
Chenopod cultivation increases the forage base for domestic grazing animals in
Turkmenistan
Barry PERRYMAN1*), Muhammed DURIKOV2), Paltamet ESENOV2), and Robert NOWAK3)
Author affiliations:
1) Department of Agriculture, Nutrition, and Veterinary Sciences, University of Nevada-Reno
2) National Institute of Deserts, Flora, and Fauna, Ministry of Nature Protection of Turkmenistan
3) Department of Natural Resources and Environmental Science, University of Nevada-Reno
Contact details:
E-mail: bperryman@cabnr.unr.edu
Address: Mail Stop 142, University of Nevada-Reno, Reno, Nevada 89557 USA
Phone: +17757841265
Fax: +17757841375
Abstract
Rapid increase of livestock numbers urgently demands ways of improving and increasing the forage base for
domestic livestock in Turkmenistan. Progressive technologies and new innovations are needed to provide
necessary increases in forage production and quality. Currently, extensive areas of saline and sodic soils as
well as mineralized tailwater from large irrigation projects are underutilized. Halophyte species development
offers the potential to increase forage productivity on saline affected lands in Turkmenistan and other Central
Asian countries. In this study, Salicornia europaea, Suaeda acuminata, Climacoptera turcomanica, Atriplex
micrantha, and A. ornata showed potential as cultivated forage species on irrigated, salt affected soils.
Key words: chenopod cultivation; halophyte forages; Turkmenistan irrigation

114
Using satellite images for multi-annual soil salinity mapping in the irrigated areas of
Syrdarya province, Uzbekistan
Alexander PLATONOV*), Mirzakhayot IBRAKHIMOV
Author affiliation:
International Water Management Institute, Central Asia office, Uzbekistan
Contact details:
E-mail: a.platonov@cgiar.org
Address: room 123, bldg 6, Osiyo str., Tashkent, 100000, Uzbekistan
Phone: +998712370445
Fax: +998712370317
Abstract
Salinity of the agricultural land in the Central Asian countries is among the most important factors of extensive
land degradation. Identification and mapping of salinity-stressed agricultural areas is a first step to cope with
soil salinity. Since traditional method of soil salinity mapping is costly and of low precision, an alternative,
remote sensing based approach to identify and map the spatio-temporal changes in soil salinity has been
developed. From the seasonal Landsat images during 2000-2011 of 154/32 path/row, which cover the whole
area of Syrdarya province, Uzbekistan were calculated the radiance, reflectance and Normalized Difference
Vegetation Index (NDVI) raster layers. From seasonal NDVI were calculated the maximum annual NDVI and
mean NDVI for 3 periods: (2000-2003), (2004-2007), (2008-2011). Based on observed correlation between
multi-annual vegetation condition (maximum NDVI) and collected during (2005-2006) inside two farms
(Gafura Gulyama and Galaba), located in Syrdarya province, the ground truth data of soil salinity
measurements by traditional methods (soil sampling with chemical analysis and bulk electrical conductivity
measurements, using EM-38 device), was created the soil salinity maps with four classes (no salinity, low,
moderate, and high salinity) of Syrdarya province area for mentioned 3 periods of years. The statistic of
Syrdarya province’s area, occupied by each classes in (2000-2003) and (2008-2011) years indicates the regular
expanding of area with highly saline soil (from 10.48 to 11.39 %) and moderately saline soils (from 40.70 to
45.42 %), mainly due to decreasing of areas with low soil salinity (from 39.99 to 34.39 %).
Key words: soil salinity; satellite images; vegetation stress; NDVI; Syrdarya province

115
Sorghum and pearl millet for crop diversification and improving livestock feeding system
in Central Asia
Valentina POPOVA1*), Nasrullo BOBOKULOV1), Kristina TODERICH2), Shoaib ISMAIL2),
Bakhtyor RAFIEV1)
Author affiliations:
1) Uzbek Scientific - Research Institute of Karakul Sheep Breeding and Desert Ecology
2) International Center for Biosaline Agriculture (ICBA), Tashkent, Uzbekistan
Contact details:
E-mail: uzkarakul30@mail.ru
Address: 47, Ulugbeka Str, Samarkand, Uzbekistan, 140154
Tel.:+998362333279
Abstract
Ecosystems of marginal borderline areas, located between old irrigated and Kyzylkum Desert zones are
vulnerable in term of climatic extremes and availability of water resources, characterized by saline ground
water or mixed water quality. In addition soils are affected by secondary salinization being difficult to be
managed by using conventional methods. Therefore reclamation of these marginalized resources is growing
salt tolerant fodder crops, cereals and oil plants to enhance the natural resources management, improve food
security and diversify income of agropastoralists in these remote desert areas. International Center for
Biosaline (ICBA) and Uzbek Institute of Karakul Sheep Breeding and Desert Ecology in Uzbekistan have been
cooperating in joint projects on development and promotion of innovative low cost technologies biosaline
agriculture in the region. This paper aimed at evaluation environmentally and economically feasible dual –
purpose crops for improvement of forage production and livestock feeding system using artesian hydrothermal
saline water for irrigation. One of the promising research areas was the diversification of agro-biodiversity of
crops by use of alternative well adapted salt and drought tolerant crops, such as sorghum (Sorghum bicolor)
and pearl millet (Pennisetum glaucum). Diversification provides for replacement or alternating of traditional
crops (e.g. cotton, wheat, corn, rice), growing of which on marginal land is difficult or not possible. Adaptation
to local conditions and cultivation of sorghum and pearl millet has two main advantages: first, it creates a
stable grain production and fodder supply necessary for the development of local livestock feeding system, and
secondly, their cultivation will help prevent erosion and improve soil productivity.
Nutritional value and palatability of forage of Hashaki1 (new released early maturing local variety) and ICSV
93046.sorghum improved lines from ICBA germplasm in summer seed planting (CES) as second crop after
harvesting of winter wheat were analyzed. Nutritional advantages of sorghum and pearl millet hay was
determined based on the chemistry composition of forage before panicle insertion, as well as by direct feeding
balance experiments with one year old karakul sheep reaches 12.6% of crude protein at 25.12 % of cellulose
content. Hashaki1silage has proved itself the equal to maize silage when cut at 8 to 12 weeks (full flowering),
when dry matter yield compares favorably with maize. Forage of pearl millet can be ensilage alone (taking the
whole plant or only tillers or leaves) or mixed with other grasses and legumes. The fresh forage of Hashaki1
variety as it was demonstrated in our experiments done with tested small ruminant animals has fairly good
digestibility and palatability with DMD being about 66-69 % with an value of 0. 58 fodder units (FU) and
68.9g of digestible protein in 1kg of DM and total 7.21 MJ metabolisable energy, while one kilogram of
sorghum ICSV 93046 variety contains 0.56 feed units at 62.9 g of digestible protein and 6.76 MJ
metabolisable energy. Thus, pearl millet and sorghum are regarded as innovative measure for reclamation of
salt affected lands and also as an alternative source of high quality rough forage for large cattle, sheep and
goats. Hashaki1 variety produced a good quality seeds/grain, which was successfully used for small ruminants
in the lactation and lambing periods, as well as for poultry feeding.
Key words: reclamation of marginal lands; C4 sorghum and pearl millet; nutritional value, palatability,
Kyzylkum desert, Uzbekistan

116
Potential of some plants for phytorehabilitation of marginal lands of Kur-Araz lowland
Khatira QASIMOVA1), Vahid FARZALIYEV2), Valida ALI-ZADE1)
Author affiliations:
1) Institute of Botany of Azerbaijan National Academy of Sciences, Baku, Azerbaijan
2) Central Botanical Garden of Azerbaijan National Academy of Sciences, Baku, Azerbaijan
Contact details:
E-mail: vm_alizade@yahoo.com
Abstract
Unregulated land use for agricultural purpose and intensive irrigation as well as climate change and
desertification process in the dryland ecosystems lead to the increase of salinity and environmental pollution.
In its turn, it reduces the soil fertility and affects on plant diversity and productivity in extended areas.
Historical intensive exploitation of chemical and petrochemical industries, development of agro-technical
approaches in Azerbaijan resulted a sharpening of the situation, especially, soil salinization and pollution in
Kur-Araz lowland. The problem is on the agenda in arid and semi-arid areas of lowland and significance of the
territories for the economy and agricultural industry of the country dictates an improving of a quality of the
marginal lands for their utilization. Considering that agro-technical, chemical and meliorative approaches are
costly and time-consuming, the evaluation of potential use of halophytes for soil rehabilitation, forage and
food supply is gaining wide acceptability. In this aspect, an appropriate selection of new plant genetic
resources with the specific evolutionarily developed protective mechanisms, successfully growing and
producing seeds under strained conditions and possessing potential to remove pollutants from soils is assuming
priority.
As a result of survey, Salsoletum nodulosae (desert vegetation), Salsoletum dendroides (semi-desert
vegetation) and Artemisetum fragrans (semi-desert vegetation) are mainly revealed in marginal lands of Kur-
Araz lowland. The investigation of caloric values of these plants which is accepted as the energy allocation
within individual organisms and measurements of ecological performance revealed the highest value for
Artemisia shoots (4262 cal/g). This value for the shoots of Salsola spp., Suaeda spp. and Strobilaceum spp.
distributed in these areas also was found to be high, ranging from 3644 cal/g to 3989 cal/g.
Considering the great and diversified value of native halophytic and tolerant plants, their reproduction is
rational for their utilization in the rehabilitation of marginal lands and improvement of livelihood of
population.
Key words: soil pollutants , phytoremediation, halophytes; plant communities , Kur-Araz lowland, Azerbaijan

117
Integration of grazing gradient concept and remote sensing to detect rangeland
degradation in Uzbekistan
Toshpulot RAJABOV*), Bakhtiyor MARDONOV, Muhtor NOSIROV
Author affiliations:
Laboratory of Environmental Research, Samarkand State University
Contact details:
E-mail: rtoshpulat@yahoo.com
Address: University Boulevard 15, Samarkand 140104 Uzbekistan
Phone: +998 94 247 91 27
Abstract
Grazing-driven rangeland degradation became most common anthropogenic phenomenon throughout arid
zones of Uzbekistan. Overgrazing of livestock has standed as the most serious disturbance, comprising of
about 44% of the total degradation. At present, ecological state of rangeland ecosystems from one side, and
spatial extent of degradation from other are largely unknown. Lack of application of up-to-date research tools
and integrated ecological concepts in rangeland studies considerably inhibits understanding and forecasting of
the current trend of vegetation changes in a timely manner.
At present, integration of so called grazing gradient methods with sophisticated remote sensing (RS)
technologies has been offering substantial number of advantages in fine-scale detection of vegetation
alterations. Thus, we applied these integrated approaches to assess rangeland condition of Karnabchul semi
desert where vegetation degradation of Artemisia dominated rangelands is widespread due to poor localized
grazing management. This study demonstrates the potential of ecological concepts and RS techniques for
understanding of the spatial and temporal behavior of the rangeland ecosystems in the condition of livestock
grazing. Field measurements were conducted in two different rangeland sites in term of edaphic conditions and
grazing regimes: extended grazing regime in gypsous grey brown soils (39° 40'N; 65° 46'E, 460 m a.s.l.) and
radial grazing regime in sandy sierozem soils (39° 38'N; 65° 31'E, 334 m a.s.l.). Biophisical variables (plant
density, biomass, vegetative cover) of dominating vegetation (Artemisia diffusa, Cousinia resinosa, Iris
songarica, Poa bulbosa, Carex pachystilys) were measured on previously selected subplots along the grazing
gradient in order to understand the response function and interaction of individual species to a range of grazing
intensities.
Radial attenuation of grazing pressure from the watering points resulted in rapid changes of vegetation pattern
the character of which were directly corresponded to soil types and grazing regime. Pristine vegetation was
replaced by native pastoral invaders (e.g. Peganum harmala, Hordeum leporinum, Vulpia ciliata) eventually at
the immediate adjacent areas. Grazing gradient has well revealed to detect considerable changes of community
structure of understory dominating vegetation (P. bulbosa, C. pachystilys) caused by increased level of grazing
elements, particularly trampling of livestock. Signs and level of vegetation degradation were apparent as a
function of distance away from watering points.
Documented qualitative and quantitative plant data of key species were related to RS systems to understand the
spatial patterns of vegetation changes derived from Landsat imagery. Integration of obtained ground truth data,
particularly seasonal phenological changes, species composition and green biomass production of dominating
vegetation in remote-sensing based assessment well promoted to distinguish specific spectral characteristics of
desired vegetation (A. diffusa) from undesired ones (e.g. P. harmala) during different growing seasons.
Seasonal spectral response of dominating vegetation was one of the key indicators in remote sensing based
predicting of vegetation state in larger scales. Thus, combination of grazing gradient concept and remote
sensing is ideal system to assess actual pastoral value and current ecological state of vegetation in vast
rangeland territories, and subsequently to provide better framework for sustainable management of rangeland
resources.
Keywords: overgrazing; rangeland vegetation; monitoring; remote sensing; Karnabchul

118
Role of the flavonoids in salt tolerance of Chenopodiaceae halophytes growing in semi-arid
zones of South Urals
Zulfira RAKHMANKULOVA1*), Elena SHUYSKAYA1)*, Arkadiy SHERBAKOV2),
Vadim FEDYAEV2), Gulnas BIKTIMEROVA3) and Iskander USMANOV2)

Author affiliations:
1) K.A. Timiryazev Institute of Plant Physiology RAS, Russia
2) Bashkir State University, Russia
3) Institute of Regional Research of Republic of Bashkortostan, Russia
Contact details:
E-mail: evshuya@gmail.com
Address: Global photosynthesis ecology laboratory, K.A. Timiryazev Institute of Plant Physiology, RAS, Russia,
127276, Moscow, Botanicheskaya ul.
Abstract
Salt tolerance of halophytes depends on controllability of absorption and compartmentation of Na+, K+ and Cl-
ions, as well as the synthesis of organic "compatible" solutes. One of the well-studied osmolytes is proline,
which biosynthesis is species-specific in halophytes. Proline has different protective functions, acting as an
antioxidant or osmolyte. The antioxidant compounds, including flavonoids, are also involved in protection of
subcellular structures and macromolecules from oxidative stress induced by ions toxic effect. We studied the
content of proline, flavonoids, and cations (Na+, K+) in shoots of four Chenopodiaceae halophytes along
salinity gradient in South Urals. Ratio proline/flavonoids were used to characterize the role of these two
compounds in salinity adaptation. The greatest value of this ratio (4.9) is shown for Atriplex tatarica. In this
species proline was the main protective compound, which high content determined the intensity of dry biomass
accumulation. For Bassia sedoides, Atriplex verrucifera, Kochia prostrata this ratio was 0.2-0.9. In these
species flavonoids play a major role in the protective mechanism because their concentrations were higher
(compared with proline) and correlated positively with the K+ ions content. In these species high content of
flavonoids and K+ indicated high adaptive potential to these environmental conditions. Thus, we found various
biochemical protective strategies of salinity tolerance among halophytes in their natural habitat in South Urals.
The flavonoids comparing with proline can actively participate in protective mechanisms of salinity tolerance
in halophytes.
Key words: flavonoids; proline; salinity; adaptation.

119
Regulating water-salt regime of irrigated soils under water short conditions
A.RAMAZANOV, V.NASONOV,
Author affiliation:
Tashkent Institute of Irrigation and Melioration
Contact details:
E-mail: a.karimov@cgiar.org
Abstract
Sustainable agriculture on lowlands of the Aral Sea Basin is not possible without irrigation which is often
associated with salinization of the irrigated land. Increasing water shortage increases a risk of soil salinization
and degrading environment of old and newly irrigated land. In spite of intensive drainage system, the area of
secondary salinized land is increasing. The experience of Central Asian states of exploitation of deep pipe
drainage indicates complexity of maintaining of groundwater table below 3m. This trend is especially obvious
in the middle and the downstream of the Syrdarya River and the Amudarya River. From 1970 to 2010, the area
of medium and highly saline soils in Karakalpakistan is increased from 38.5 to 56.3%, in Khoresm from 22.4
to 46.9%, in Kashkadarya from 5.4 to 14.9%, in Bukhara province from 26.2 to 36.4%, in Syrdarya province
from 25.7 to 36.6% of the total irrigated land. In the upstream of the river these processes are very slow, thus
in Fergana province the area of highly and medium saline soils is reduced for the same period from 22.1 to
17.6%.
Under increasing water short conditions limited water use permit system was introduced in 1982. According to
the Scheme of Multi-objective water use (1984), limit for Uzbekistan from two rivers, Syrdarya and
Amudarya, is 72.4 km3, including 61.1 km3 for irrigation. These days water diversions reduced to 59.2 km3,
including 48 km3 for irrigation. In water short years, available water resources are even less. For example in
low water years, Karakalpakistan located in the downstream receives 56-59% of the limit and Khorezm 35-
39%. Under such conditions, groundwater table reduces below 2 m from the ground surface. However, the
available data indicates needs for increasing irrigation water applications to obtain the same yield. For example
for Khorezm region, under groundwater depths at 1-2 m to receive cotton yields at 4-4.5 t/ha, irrigation
applications vary from 2,200-4,700 m3/ha, while under groundwater depths at 1-1.5 m below the ground
surface irrigation requirements to obtain the same yield irrigation requirements are in range of 1,500-2,500
m3/ha. Similarly for Karakalpakistan, under groundwater conditions at 1.5-2m, irrigation requirements to
obtain cotton yield at 4-4.5t/ha vary from 3,200-4,000 m3/ha, while when groundwater table is in range of 1-
1.5m depths, irrigation requirements to obtain the same yield are in range of 1,600-3,300 m3/ha.
The experience of the states with arid environment shows that soil salinity levels could be maintained at
optimal levels under groundwater depth conditions at 1-2 m using horizontal drainage. For example,
groundwater depths in many parts of Azerbaijan are at 1.3-1.5 m and in India, Pakistan and China are in range
of 1.5-2 m. The above presented data indicates needs for reducing the intensity of the existing drainage system
and maintaining groundwater table at 1-1.5m depths. The objective of the drainage is not lowering the water
table but lowering salinity of the upper part of the groundwater, which will reduce expenses for soil leaching.
Key words: salinity; drainage; groundwater depth; water shortage; Central Asia

120
Use of ecologically pure polymer preparations for cotton sowing in arid region
of Uzbekistan
S.Sh.RASHIDOVA, D.K.RASHIDOVA, V.N.SHPILEVSKIY
Author affiliation: Institute of Polymer Chemistry and Physics of Academy of Sciences Republic Uzbekistan,
Research Institute of Seed-Growing Selection and Agrotechnology of Cotton Growing
Contact details:
E-mail: carbon@uzsci.net
Phone: +8371 2418594
Fax: +8371 2412660
Abstract
Polymeric coverings of seeds enable to dose the number of picklings with high exactness, to reduce their
crumbling, considerably improve sanitary and hygienic conditions of labor. Presence of growth stimulators in
composition provides intensification of spare substances inclusion in plants metabolism under unfavorable
weather conditions (drought, high humidity) at earlier stages of ontogenesis. The laboratory experiments
showed that polymeric preparation increase rate of growth of sprouts of cotton seeds. It allows to suppose their
further influence on the development of plants at later ontogenesis stages. The sowing with bare capsulated
seeds processed by UZHITAN preparation allow to accelerate the rates of plant development, cotton opening
and increasing yield.
Key words seeds; growth; plants development; polymer; UZHITAN

121
The role of weed plants in reduction of the grain harvest in irrigated lands
of Samarkand area
R.RASULOV, A.MAHMATMURADOV, T.GOZIEV and N.NISHONOV
Author affiliation:
Samarkand Agricultural Institute, Department of Agrochemistry, Soil Science and Plant Protection
Contact details:
E-mail: gozievt@mail.ru
Address: Mirzo Ulugbek Street, 77 Samarkand, 140103 Uzbekistan
Phone: +998933330327
Fax: +998662340786
Abstract
The weeds reduce not only the harvest, but also they spread many diseases and pests. Agropyrum repens and
other wild plants serves the carrier of the incitant yellow and stalk of the rust, mealy grow, root rotten. Weed
plants exist in great number in croplands of Uzbekistan. There are about 400 species of annual and perennial
weeds on irrigated lands. Coming from their accesories of certain family, their noxious is classified differently
by their cracking a hard nut.
All harmfull weeds have their main background factor. But there is a fact that any weed plant is capable in
receiving of mineral fertilizers in 4-5 times greater than usual plants or crops; presence of Cannabis arvenze in
the area of 1 square meter makes a loss of 5-6 kg of grain, whereas Capsella bursa-pastoris, Chenopodium
album, Artemisia absinthium - 2-4 kg. But particularly the species as Avena fatua, Lolium multiflorum and
wild barley (Hordeum spontaneum) belonging to Poaceae family represent the most threat.
According to the literature data, the reduction of the harvest of the corn crops due to Avena fatua in Saratovsk
area (Russian Federation) reaches 40%. One single plant of A. fatua produces about 1000 seeds. As of its
south-east habitat, on certain area number of seeds per plant rises 2500 seeds, but in the soil – more than 9400
seeds on 1 square meter, but this signifies that 700 kg of seed production is found on 1 hectar. When these
figures are re-calculated and seeding rate is fixed as 200-220 kg/ha, seed of A. fatua in the soil exceeds the rate
in 2,5 times.
There are few types of techniques and ways to control and stabilize community of A. fatua. Liquidate is
possible only by using the protection system during continious 5-7 years (the period of the conservation the
blubbering seed of A. fatua), including complex agrotechnical and chemical application under each crop. The
control facilities with weed must exclude formation and hit of its seed in the soil.
There is a positive experience of the control of A. fatua in the condition of our republic. According to this
experience repeated irrigation should be applied on strongly littered soil surface, and plowing of the land is
required before flowering of A. fatua. For complete removing of A. fatua from the land this method is required
to apply during 4-5 years, but here appears another question – is this way is sustainable in the condition of
water scarcity in the region?
As per herbicide, several types of herbicides are used in Uzbekistan: ovsyugen, topic, treflan, dual and others.
Positive effect can show using on dispensed from the main crop (corn) herbicide from glifosat group (the
hurricane forte, glifos, raundap and others), but they have very little application among people. Besides, all
above herbicides, except glifosats, give only insignificant effect.
Key words: weed control, harvest loss, herbicide, cropland, Avena fatua

122
Strategies of the rural population in Uzbekistan towards improving livelihoods and coping
with degradation of land and water resources
Inna RUDENKO*), Bahodir RUZMETOV, Mansur SOLIKHOV
Author affiliations:
NGO KRASS, Urgench State University
Contact details:
E-mail: irudenko@mail.ru
Address: H. Olimjon str. 14, 220100, Urgench, Uzbekistan
Phone: +998937547790
Fax: +998622266166
Abstract
Rapidly growing population especially in rural areas of Uzbekistan, Central Asia, exerts an increasing pressure
on available agricultural land and water resources. On the other hand continuing degradation of the agro-
ecosystems enhanced by extremes of drought and wet periods due to climate change-related uncertainty make
these resources and rural communities even more vulnerable. Agricultural production, both crop cultivation
and animal husbandry, given deteriorated soil quality, strong salinization, unacceptably shallow and saline
groundwater, erosion, poor land and water management, provides limited economic return, which threatens
food security, wellbeing of the rural population and further sustainable development of the region. Due to the
complexity of the existing problems, a search for solutions must follow a system approach and should be based
on a thorough knowledge and understanding of these factors.
A socio-economic survey of rural households has been conducted in the Khorezm region of Uzbekistan to
identify their perceptions with regards to environmental and degradation problems, their current management
practices and development strategies, the need of the population in innovative technologies for sustainable
agricultural production and most importantly, the level of readiness and acceptability of such technologies by
the vulnerable rural population. The survey showed that local population does recognize the existing
environmental and degradation problems and does understand a high need to reverse this negative trend and do
something to restore the degraded land and water resources. The paper provides insights on the current
resource management practices and wellbeing strategies by the rural population in the areas prone to soil
degradation, lack of knowledge on innovative technologies and sustainable agricultural practices. The paper
describes the requirements towards alternative innovative agricultural technologies, which: (1) should aim at
altering the reasons of land and other resource degradation, but not always for mitigating or coping with
consequences; (2) should be grouped according to the land degradation degrees – classes, so site specific
technological packages should be developed, which would include the set of measures instead of standalone
technological recommendations; (3) should be not worse compared to the current practices and (4) should not
negatively affect other aspects of wellbeing of the rural population. For example, land improvement options
through planting salt tolerant crops should not threaten the food security or income opportunities for the local
population. Last, but not least institutional frame conditions are important to study and consider since a change
in land use policies of marginal land may be necessary to implement some options. The institutional settings
must be screened for their role in providing direct economic benefits to rural households, income for the
government via taxes, and lead to an overall improvement in ecological conditions in the region.
Key words: sustainable development; agricultural innovations; rural population; wellbeing strategies;
environmental degradation

123
Numerical evaluation of alternative ground source heat exchanger configuration and
operation
Hirotaka SAITO, Dang Quoc THUYET, and Yuji KOHGO
Author affiliation: Department of Agricultural and Environmental Engineering, Graduate School of
Agriculture, Tokyo University of Agriculture and Technology
Contact details:
E-mail: hiros@cc.tuat.ac.jp
Address: 3-5-8 Saiwai-cho, Fuch, Tokyo 183-8509 Japan
Phone/Fax: +81423675584
Abstract
Heat energy stored in shallow ground and groundwater known as ground source heat or shallow geothermal
heat is viewed as one of the renewable energy sources. Ground source heat pump systems (GSHP) then use
ground or groundwater as heat sources/sinks. GSHP can achieve much higher coefficient of performance
(COP) than conventional air source heat pump systems because the temperature of the ground is generally
much more stable than that of the air. GSHP has been receiving great interests among countries in North
America and Western Europe, as well as some developed countries in Asia because it can potentially reduce
energy consumption and greenhouse gas emission. While GSHP can inject heat from the buildings to the
ground for cooling during the summer, it can pump heat stored in the ground for heating during the winter.
However there have been few studies investigating the potential of using ground source heat energy at arid or
semi-arid regions, for example, for air conditioning of greenhouses.
A typical closed-loop type GSHP system uses a U-shaped vertical-loop heat exchanger in which an anti-
freezing solution is circulated. This type of the heat exchanger is referred to as a U-tube. In the closed GSHP
system, a heat pump is combined with the heat exchanger. The authors have developed a numerical model to
simulate heat exchange processes between the fluid inside the U-tube and the ground by combining one-
dimensional convective heat transport model with three dimensional conductive heat transport model. The
main objective of this study was to thus evaluate numerically the effect of the heat exchanger configuration
and the condition of GSHP operation on heat exchange processes. This study used data collected during the
thermal response test (TRT) using a 50-m long U-tube installed at Tokyo University of Agriculture and
Technology. A numerical study was carried out first by varying diameter and material of the U-tube. Then the
velocity of the circulating fluid was varied to investigate the effect on heat exchange efficiency. This study
demonstrates that the numerical model developed by the authors can be used to evaluate the performance of
the ground source heat exchangers especially at arid and semi-arid regions.
Key words: ground source heat pump; numerical model; heat exchange

124
Modeling halophytic plants for sustainable agriculture and water resources
Laurel SAITO1*), Tanna DERUYTER2), Robert NOWAK3), Michael ROSEN4),
Colleen ROSSI5) and Kristina TODERICH6)
Author affiliations:
1) Department of Natural Resources and Environmental Science and Graduate Program of Hydrologic
Sciences, University of Nevada-Reno, Nevada, USA
2) Graduate Program of Hydrologic Sciences and Department of Natural Resources and Environmental
Science, University of Nevada-Reno, Nevada, USA
3) Department of Natural Resources and Environmental Science, University of Nevada, Reno, Nevada, USA
4) United States Geological Survey, Carson City, Nevada, USA
5) Bureau of Land Management, Salt Lake City, Utah, USA
6) International Center for Biosaline Agriculture (ICBA), Tashkent, Uzbekistan
Contact details:
E-mail: lsaito@cabnr.unr.edu
Address: 1664 N. Virginia Street, Mail Stop 0186, Reno, NV 89557 USA
Phone: +17757841921
Fax: +17757844583
Abstract
A major problem for irrigated agricultural production in arid and semi-arid environments is salinization of
land. Irrigated land accounts for about one third of the world’s food, but nearly one fifth of irrigated lands are
salt affected and suffer from reduced yield due to soil salinization. Most cultivated crops suffer from reduced
yield when subjected to salt stress. However, about 1% of the world’s flora are known as halophytes, or plants
that are capable of completing their life-cycle in higher saline soil or water environments. Halophytes are not
commonly cultivated, but may be useful for human consumption, biofuel, or animal consumption. As a first
step to assessing the potential of halophytic plants for salinity management, the Agricultural
Policy/Environmental Extender (APEX) model was updated with a module to simulate plant-water-soil salinity
dynamics using electrical conductance. The halophytes Atriplex nitens, Climacoptera lanata, and Salicornia
europeae were parameterized in the APEX model’s plant database. Plant, soil, and water data from field sites
in the Central Kyzylkum and Khorezm regions of Uzbekistan were used to set up APEX models for two field
sites. Measured data collected from the two field sites in 2013 were used to assess model performance.
Although APEX ran with the salinity module and produced output, analysis of the output indicated that further
work is needed to produce a model that will be useful for assessing salinity management with halophytes.
Suggestions for model improvements include enabling the modeling of individual salt ions because plants may
experience toxic effects of different ions, and modeling detrimental effects of salt on conventional and
halophytic plants. Additionally, future iterations of this project will benefit from more field data and
experiments to measure plant parameters.
Key words: salinity management; food production; APEX model

125
Sustainable water management in Central Asia and the role of foreign donors: сase study
of JICA’s “Water management improvement project” in Uzbekistan
Ryota SAITO
Author affiliation: Doctoral program in International and Advanced Japanese studies, Graduate School of
Humanities and Social Sciences, University of Tsukuba
Contact details:
E-mail: noppo6@gmail.com
Address: 1-1-1 Tennoudai Tsukuba Ibaraki 305-8571
Phone: +818052233084
Fax: +81298534038
Abstract
The purpose of this study is to present a case study of a third party’s role in water management improvement in
Central Asia through an analysis of JICA1’s “Water Management Improvement Project” in Uzbekistan.Water
allocation has been the dominant task of the central government. But as water scarcity has grown into a crucial
environmental issue at both the high-political level and the low-grassroots level, inclusion of water users is
becoming more and more important to achieve sustainable water management.
The framework of WUAs2 was established with the government’s contracting of the SANIIRI3 in 1996.
Although originally conceived as farmers-only organizations, today WUAs are increasingly expected to
incorporate different water users and uses4 in Central Asia. But due to a shortage of financial resources and
knowledge of WUA hydro-engineers, the associations have not been functioning well. In the ICWC5, hydro-
scientists have also frequently pointed to the problem of water loss at the grassroots level due to inadequate
water management.
Wegerich Kai made several studies regarding water management issues in rural areas of Uzbekistan, as well as
regarding WUAs6. But as far as the author knows, even though many projects for WUAs have been carried out,
the performance of international aids and interactions between farmers and international organizations have
not been investigated so much by researchers, except for Christine Bichsel’s work (2011).
According to the IWMI, USAID, World Bank, SDC, JICA and other agencies have conducted or conducted
assistance projects toward WUAs in Central Asia. In March, August, and September 2013, the author
accompanied JICA stuff and conducted field work on their project. The author made interviews and gathered
information about WUA activities and their performance, as well as their contributions to the project.
This work tries to contextualize JICA’s project with respect to previous studies. JICA’s project focused on
training for both the local elite and WUA engineers, and also organized workshops to spread the role of WUA
among farmers. According to Johnson et al, to adapt assistance schemes, it is important to consider local
customs and traditional rules7.Thus, the author’s assumption is that JICA has a very efficient approach toward
the local leaders of farmers’ organizations which is interrelated with the Japanese international cooperation
principle.
Additionally, this paper refers to the interrelation of Japanese international cooperation strategy and practice in
the field. Capacity building in many areas and levels has been one of the main subjects of JICA’s activities in
Central Asia8. Through the case in Uzbekistan, this study attempts an empirical analysis from the aspect of
constructivism in international relationship theory.
Key words: sustainable water management; international cooperation; Water User’s Association;
constructivist approach; Japan-Central Asian relationships
1Japan International Cooperation Agency
2Water User’s Association. In Uzbekistan, when the water code changed, the name of WUA was changed to “Water
Consumer’s Association (WCA)”.
3Central Asian Irrigation Research Institute.
4Poster presentation of IWMI, 20-21th August 2013 in Dushanbe.
5Interstate Commission for Water Coordination of Central Asia.
62003, 2004, 2005, 2006, and 2013 et al.
7Institutional Reform Option in the Irrigation Sector, Agriculture and Rural Development Discussion Paper 5, 2004.
8This often called kusanoneenjo(grass roots assistance).

126
Salt-affected soil amelioration with low-quality coalbio-briquette ash in northeastern China
Yuji SAKAI1*), Hironori MURATA1), Chie EBATO1), Dan LIU2), Chang WANG3),
Hidetoshi NAGAMOTO1), Masayoshi SADAKATA1)
Author affiliations:
1) Department of Environmental and Energy Chemistry, Kogakuin University, Japan
2) Department of Chemical Science and Engineering,Ariake National College of Technology, Japan
3) College of Marine Science and Engineering, Tianjin University of Science & Technology, China
Contact details:
E-mail: sakai@cc.kogakuin.ac.jp
Address: 2665-1 Nakano-machi, Hachioji-shi, Tokyo 192-0015, Japan
Phone: :+81426284523
Fax: +81426284523
Abstract
Sulfur dioxide (SO2) emissions have increased remarkably during the last decade following the dramatic
growth of the economy and energy use in China. SO2 is a major air pollutant and has significant impacts upon
human health. Therefore, it is necessary to make the desulfurization technologies to widespread across China.
In addition, China has become a major emitter of carbon dioxide (CO2).The sustainable utilization of biomass
contributes to the decrease in CO2 emissions. So we proposed the use of coal bio-briquettes that were made
with coal, biomass, and a desulfurizer such as calcium hydroxide by a high-pressure briquetting process in
China. The household use of coal bio-briquettes in rural areas of China also has merit owing to the potential
for desulfurization and their ability to use low-quality coal and biomass. In addition, the amount of salt-
affected soil is increasing due to the increase in the evaporation rate and excessive cultivation in China. The
reclamation of salt-affected soil involves the replacement of exchangeable Na with Ca. Because the coal bio-
briquette ash included the Ca compounds such as gypsum, calcium hydroxide, and calcium carbonate, we have
been investigated the utilization as soil amendments. Concretely, we have investigated the corn growth and
soil chemical properties on salt-affected soil amelioration with low-quality coal bio-briquette ash in
northeastern China.
Salt-affected soil amelioration tests were performed in 2008 in a semi-arid areaat Kangping (42◦70’N,
123◦50’E), which is located about 130 km north of Shenyang in northeastern China. Test field was divided into
60plots (3.6m×3.6meach). Two types of bio-briquette (BB 1 and BB 2) were made from low-quality coal
(sulfur content = 2.1% (BB 1)and 4.1% (BB 2)), biomass (cornstem), and desulfurizer (Ca(OH)2). Two bio-
briquette ashes were added to four experimental plots (Fields 1, 2, 3, and 4) of salt-affected soil at the
application rate of 0wt%, 0.5wt% (1.16kg/m2), 1.0wt% (2.32kg/m2), 2.0wt% (4.64kg/m2), and 3.0 wt%
(6.96kg/m2)in three replications.Their soil amendments were incorporated into the plow layer of the soil by
mixing with a scoop, and were added to all plotsat the same time as the seeding in the first year. Moreover, an
ammoniacal fertilizer was added to all plots and a pig manure as the organic fertilizer was added to two test
plots (Fields 2 and 4).Corn (Zea mays) has been grown in test field. Consequently, the corn production
increased with the increase of the application rate at all test plots. BB2 ash containing higher S in Field 3
indicated better effect on corn production than BB 1 ash in Field 1. In addition, with the increase of application
rate of bio-briquette ash, the pH, ESP and Na, CO3, and HCO3 concentration of soil solution decreased. These
results show that an increase in pH and ESP with an increase in Na compounds such as Na2CO3 and NaHCO3
give the adverse effect on corn production. In conclusion, the effectiveness as salt-affected soil amelioration of
bio-briquette ash from the low-quality coal could be confirmed.
Key words: China; coal bio-briquette; salt-affected soil; soil amelioration; sulfur dioxide

127
Registered representatives of flora and fauna of Kyzylkum reserve
Kh.V. SALIMOV1), N.Т. RUSTAMOV 2)
Author affiliations:
1) Samarkand State University
2) Navoi State Pedagogical Institute
Contact details:
E-mail: radjabov@mail.ru
Abstract
The creation of protected areas is one of the many activities of the Government of the Republic of Uzbekistan
to address environmental challenges; minors left humanity in an era of scientific and technical progress. In this
regard, the Kizilkum reserve in the South-Western Desert is of particular importance in maintaining floodplain
biodiversity of ecosystems of the middle stream of the Amudarya River and adjacent sandy deserts.
The natural environment of reserve allows the enrichment of species of flora and fauna, as it is not similar
between the two ecosystems: flood planetugai and sanddesert. Since the passage of the migratory bird path
runs along the River Valley, the world bird sanctuary is particularly rich in spring and autumn. Here you can
find, including the rarest species listed in the red books of various levels. Migration of some species is
associated with sand-pustyn′ej. Total list of families of higher plants consists of 182 species, and list of
vertebrates-356 species, endangered species is of interest. In the reserve there are two types-NIKA-Tulipa
korolkowi Regel and Calligonum matteianum Drobow. Typical of that found in the nature reserve Matteâ
kandym anywhere else in the protected areas of the Republic.
Within the reserve ecosystems are influenced by two powerful factors of own ecological resources is the Aral
Sea and the Nurek reservoir. Degradation of the Aral Sea basin clearly affects primarily at intermediate and
lower currents of the fish fauna of the Amu Darya. On the River are 8 species of fish: Red Book Pseudos
caphirhynchus hermanni, P. Kaufmanni, Abramis sapa aralensis, Aspiolucius esocinus, Barbus capito,
Barbus brachycephalus, Сapoetobrama Kuschakewitsh and Sabanejewia aurata.
Because the reserve stretches along the floodplain of the Amudarya bordering the desert zone, with its great
variety of avifauna, Only 32 species of birds listed. This is Pelicanus onocrotalus, Pelicanus crispus, Egretta
zeta, Ardeola ralloides, Ciconia ciconia, Ciconia nigra, Platalea leucorodia, Plegdis falcinellus,
Phoenicopterus roseus, Cygnus olor, Cygnus сygnus, Anas angusrirostris, Aythya nyroca, Pandion
haliaetus, Haliaeetus leucoryphus, Haliaeetus albicilla, Gyps fulvus, Aegypius monachus, Circaetus gallicus,
Circus macrourus, Aguila rapax, Aguila clanga, Aguila heliaca, Aguila chrysaetos, Falco naumanni, Falco
cherrug, Falco peregrinus, Chelamydotis undulate, Chettusia gregaria, Larus ichthyaetus and Columba
eversmanni.
Rare and endangered species of mammals are of 4 types: Hemiechinus hupomelas, Caracal caracal michaelis,
Cervus elaphus and Gazella subgutturosa.
As seen from the Faunistic materials, geographical location the reserve allows a wide variety, including rare
and endangered animals. Among them are many spans of birds that are feeding and rest on the way. Food of
the rodents in the sandy part of the primeval forest, attract birds of prey. Of particular interest the finds of the
Turkmen karakala, inhabitant of deserts of Kyzylkum disappeared over the last half century.
Key words: floodplain; Red Book: rare and endangered species; Kyzyylkum Reserve; Uzbekistan

128
Nevada (USA) range management school – adapting an American, grazing management
curriculum, to other continents
Brad SCHULTZ1*), Kent MCADOO1), Barry PERRYMAN2), Steve FOSTER1)
and Jay DAVISON3)
Author affiliations:
1) Northern Area, University of Nevada Cooperative Extension, University of Nevada, Reno, USA
2) Department of Agriculture, Nutrition and Veterinary Sciences, University of Nevada, Reno, USA
3) Central Area, University of Nevada Cooperative Extension, University of Nevada, Reno, USA
Contact details:
E-mail: schultzb@unce.unr.edu
Address: University of Nevada Cooperative Extension, 1085 Fairgrounds Road, Winnemucca, Nevada,
89445. USA
Phone: +7756236304
Fax: +775-623-6307
Abstract
In the state of Nevada(286,367 km2), USA, about 80 percent of the State is Federal (public) rangeland
administered by either the Bureau of Land Management or the United States Forest Service. Livestock that
graze public rangelands are privately owned, and grazing occurs under a fee-based permit system, in which
livestock grazing is one of many allowed uses. Contention about what constitutes good or acceptable grazing
management often occurs between livestock owners and government officials employed by the federal
agencies. To reduce conflict between livestock owners and government officials, the University of Nevada
Cooperative Extension, the outreach component of the University of Nevada, Reno, established the Nevada
Range Management School (NRMS) in 2005. This education program combines peer reviewed science with
common logic to improve the sustainability of grazed rangelands for not only livestock grazing, but also
wildlife habitat, watershed values, and other land uses. The published science provides a foundation upon
which livestock producers and government natural resource specialists can begin conversations that will
improve grazing management. The full curriculum was initially composed of eight technical modules: 1) the
growth, development and physiology of plants, and their response to grazing; 2) the interaction of plant growth
stage (timing) and duration of grazing; 3) grazing plan strategies; 4) considerations for riparian area grazing; 5)
monitoring of livestock grazing; 6) animal nutrition; 7) livestock behavior; and 8) the grazing response index –
a tool to assess the effects of grazing during the grazing season. As grazing and vegetation management issues
evolved in Nevada, information about targeted grazing and drought management were added to the curriculum.
The modules can be presented as stand-alone sessions or as a comprehensive curriculum. In Nevada, over 670
individuals have received training through the NRMS. In 2011, the United States Forest Service International
Program (USFS-IP) invited the NRMS cadre to teach the curriculum to six individuals from Morocco, for
evaluation of the material as a tool to address grazing issues in the Middle Atlas Mountains. Four modules
were selected and modified into a Moroccan Range Management Training (MRMT). Since 2011, the MRMT
has been used to teach government agency staff, livestock owners, and subsistence herders the basics about
plant growth and grazing, the influence of timing and duration of grazing on plants, the importance of
monitoring management outcomes, and the role of animal behavior in grazing management. One behavioral
change in Morocco was the switch from season-long grazing to a deferred rotation grazing system on over
12,150ha2. Positive outcomes in Morocco resulted in the USFS-IP including components of the NRMS as part
of their two-week International Rangeland Seminar in the United States, in June 2014. Components of the
NRMS were taught to 17 individuals from 11 countries on four continents. Discussion will include the process
of adapting the curriculum to other countries and common outcomes across participants, which have included
an improved understanding of complex plant-animal interactions and how to apply the newly acquired
knowledge to improve grazing management.
Key words: grazing management; extension education; herders

129
The ecology of halophytes of the Issyk-Kul region in Kyrgyz Republic
K.SHALPYKOV
Author affiliation:
Innovative Center of Phytotechnology National Academic of Science Kyrgyz Republic
Contact details:
E-mail: alhor6464@mail.ru
Address: Chui Avenue, 267 Bishkek, Kyrgyzstan 720071
Phone: :+ 996550121294
Abstract
Halophytes -environmentally, physiologically and biochemically specialized plants that can function normally
and produce under saline environment and / or salt-water irrigation. In the world there are flora 2000-2500
halophyte species, including 900 species of Central Asia and in arid regions of Russia more than 500 species.
Material for research was collected in Biosphere territory "Issyk-Kul" in stony rubbly desert at an altitude of
1650-1750 m above sea level near the village “Akulen”. We mention only some of the features of the area: the
combination of a relatively small area of different soil types, sand, sandy loam soil, clay, saline, rocky,
urticular and wet salt marshes, variegated with gray-brown soils of the general predominance of gypsum
platform. All this creates a mosaic of edaphic environment and provides a variety of plant communities using
numerous ecological niches; concentration in this region xerothermic whole complex of factors: extreme
dryness of the air and soil, the minimum rainfall, high summer and relatively low temperatures in winter,
accompanied by strong winds, abundance of species of halophytes, thorn, with a predominance of
xerophyticshrubs, subshrubs, shrubs, dwarf shrubs and perennial polycarpous and monocarpic herbs, biennials,
annuals at relatively low participation and ephemera ephemeroids in addition phytocenoses data and the typical
flora for Western Issyk-Kul region.
In characterizing the water regime of plants under natural conditions is very important to know the degree of
undersaturation leaves with water, their real water deficit (RWD), which is one of the most reliable indicators
of water exchang. This indicator is defined in plants in typical habitat for them, reveals the close relationship
between the state of water in plants and environmental conditions of the environment.
When comparing the average daily or most frequently occurring values of these differences are still great.
Therefore, species which evolve the same RWD may have different values of SWD. Irreversible inhibition of
the ability of turgor recovery occurred at different times. The other halosucculent drainage rate was in the
range of 21 to 26 hours of exposure.
With respect to real sublethal water deficit can be judged on the potential dryness (drought intensity), ie what
degree of dehydration plants can tolerate. Lower values of this index indicate more severe plant adaptation to
extreme environmental factors. Thus, the water balance is strongly in tense Caraganaleucophloea (75.6%) and
Ceratoidespapposa (69.3%). Do tsenoobrazovateley community potential dryness decreases from 53.7 to 35%.
The lowest values (28.2-30.3%) were found in the leaves and Cleistogenessquarrosa Ephedraintermedia.
In general, the definition of water deficit showed that the investigated ecobiomorphs during growing seasons
not encountered such undersaturation their tissues, which can cause irreversible damage to the assimilating
organs, indicating that large supplies of drought resistance of plants.Thus, among the complex ecological-
morphological and eco-physiological methods adaptation of plants to extremely arid conditions fell fieldof the
Western Issyk-Kul region main role belongs to the nature of balancing water management.
Key words: phytoindication of halophytes; halosucculence; water deficit; Issyk-Kul, Kyrgyzstan

130
Experience on control of matrix and osmotic soil moisture potential under conditions of
saline soils of Uzbekistan
Naylia SHARAFUTDINOVA, Gaukhar PALUASHOVA and Yulia SHIROKOVA*)
Author affiliations:
Laboratory of soil research and ameliorative processes, Research Institute of Irrigation and Water Problem
Contact details:
E-mail: yulia_bonn@rambler.ru
Address: Karasu district, B11, Tashkent, Uzbekistan, 100187
Phone: +998712651251
Fax: +998712653241
Abstract
Soil salinization is typically wide-spread on plains and in desert areas and it can lead to significant yield losses.
Presently, about 50 % of irrigated land in Uzbekistan is saline, 16.9% of which are in medium and strong
degree. Out of 13 provinces only in three provinces, namely Tashkent, Samarkand and Andizhan salinization
has limited distribution. Almost all provinces of the Amudarya River basin have medium or strong saline
irrigated land. The downstream of the river the number of degraded land increases. In Khorezm and
Autonomous Republic of Karakalpakstan reaches amount of saline soil almost 50 % of the total irrigated area.
Processes of soil salinization have a severe impact on the productivity of agricultural crops; e.g. cotton crop
losses from salinity ranged from 15% over 30-40% to 60-80 % (low, medium and strong salinity respectively).
Soil salinity combined with low moisture is mostly dangerous. Under such conditions plants suffer double
stressю Hindered moisture withdrawal by plant roots (soil suction, which is determined by lack of moisture,
available to plants), and presence of salts in the soil solution create an additional negative pressure of soil
moisture, so-called osmotic pressure.
According to Uzbek researchers total pressure in the root zone in the period between first and forth phases of
the cotton development should not exceed 4 atm. For reduction of total pressure is recommended to irrigate.
Duration of irrigation for agricultural crops should consider influence of both moisture and soil salinity. In
order to monitor these indicators and to determine irrigation based on maximal value of osmotic potential, a
simple and user-friendly methods and devices, which indirect take into account both indicators need to be
developed.
Application of electrical conductivity for soil salinity monitoring allows determination stress state of plants in
practice and initiation of prompt action for reduction of crop losses, by irrigation at the right, to plants, time.
Matrix and osmotic potentials (total negative pressure) in saline soil can be determined based on measurements
of moisture and salinity. We have calculated and analyzed results of such observations for concrete cases in
Khorezm and Karakalpakstan.
Calculating method of osmotic potential is quite simple. For this, electrical conductivity of the soil suspension
should be measured, multiplied by the experimentally determined factor of 3.5 by getting the value of
electrical conductivity of saturated soil extract - ECe. Afterwards, moisture content (in parts of the FC) should
be determined and divided by ECe. In such a way, actual soil conductivity at a time will be calculated. An
osmotic potential in the atmosphere is determined by the multiplication of this value by 0.36. For calculation
of the capacity of the matrix potential two determinants are needed: a pF curve and the actual soil moisture.
With the proper equipment for real-time measurement of electrical conductivity of soil solutions and soil
moisture, a monitoring of the situation on saline fields is possible; stress of plants could be prevented by
regular and necessary irrigation schedule.
Key words: soil salinity control; electrical conductivity; osmotic and matrix potentials; irrigation schedule

131
Production of high quality potable water for sale from atmospheric moisture in coastal
areas of semi-arid north-west India
Girja SHARAN and Anil Kumar ROY*)
Author affiliation:
Dhirubhai Ambani Institute of Information and Communication Technology
Contact details:
E-mail: girja_sharan, anil_roy}@daiict.ac.in
Address: Dhirubhai Ambani Institute of Information and Communication Technology, Gandhinagar, 382007,
India
Phone: +00917930510613, 00919376163094
Fax: +00917930520010
Abstract
Shortage of potable water is chronic and widespread in Kutch - a hot semi-arid region in north-west India. It is
especially acute in villages near the coast where groundwater is not potable. They get water on tanker-trucks
daily from long distances. Residents are all increasingly resorting to RO filtration to produce potable water
from brackish groundwater. Potable water obtained from RO process is about 50%. The rest is disposed off in
the surrounding leading to accelerated degradation of top soil and groundwater. The RO process, although
efficient and increasingly less expensive, is not a sustainable solution of drinking water problem in the long
run.
Greater use of atmospheric moisture - dew and rain water - can reduce dependence on RO process. The Kutch
region gets ~ 300mm of rain over 15 to 20 days during the monsoon season, June to September. Dew occurs
from October to May with 100 to 115 dew-nights and 20-25mm of dew water over the season. Thus, a suitably
designed plant can potentially harvest of 320-325mm of atmospheric moisture during the year. Collecting rain
water is simple, but harvesting dew is very challenging. We have designed and developed a novel dew
condenser and field-tried here in the recent years. Condensers are planar panels made of high emissivity plastic
film insulated underneath. These get cooled by re- radiation at night and can harvest 15-20mm of dew water in
the season. Throughput of these condensers is comparable to plant leaves, blades of grass. While the
condensers are specifically engineered to condense dew, rain is routinely harvested using the same surface.
In this paper we describe details of a drinking water production plant designed to harvest atmospheric moisture
and process it into drinking water for local sale. Plant is rated to process on an average 500 liters of water
daily. It consists of three main components - condenser field or catchment to harvest moisture, raw water
storage, and filtration equipment. Condenser field is made of 30 rows of condenser panels, each 18m long and
1 m wide. Panels are ‘sandwiches’ with 25mm thick styrene foam board in the middle and special plastic film
wrapped around. Panels are mounted on angle iron frames at a height of 1.5m from ground. The film is 300µm
thick polyethylene mixed with small amount of TiO2 and BaSO4. Panels are mounted on angle iron frames
inclined at 300 from horizontal. Two adjacent panels drain into a common gutter running longitudinally in the
middle. Condenser field has 540m2 surface areas. Raw water storage is made of masonry with 70,000 liter
capacity. Filtering equipment has sediment filter (5µm), granular activated carbon filter (5µm), UF membrane
(0.1µm) and UV light cartridge followed by post-carbon filtration to produce 200 liters per hour of product
water meeting WHO guidelines.
The aim of the project is to demonstrate that atmospheric moisture can be harvested and processed into safe
drinking water comparable in quality and price to RO processed water available in the market.
Key words: dew harvest; rain harvest; drinking water; coastal arid areas; dew condenser

132
Investigation of salt and dust transfer processes using passive dust traps in Uzbekistan
Lyudmila SHARDAKOVA1*), Yulia KOVALEVSKAYA1), Nataliya VERESCHAGINA1) and
Leah ORLOVSKY2)
Author affiliations:
1) Hydrometeorological Research Institute (NIGMI), Uzhydromet
2) Department of Solar Energy and Environmental Physics Jacob Blaustein Institute for Desert Research
Ben Gurion University of the Negev
Contact details:
E-mail: uzcalter@mail.ru
Address: 72, 1-st Bodomzor yuli str., Tashkent, 100052, Uzbekistan
Phone: +99871235 9140/ 235 8468
Abstract
Natural geographic and climatic features of Uzbekistan, limited water resources determine the fragility of arid
systems and induce processes of their degradation. The eolian erosion is one of these processes, which leads
to a decrease in soil fertility and crop yield losses.
The article discusses some experimental results obtained in the framework of the international project
CALTER to study the eolian erosion in Uzbekistan in the period 2007-2010. Dry atmospheric fall-out (DAF)
can serve the important environmental indicator of eolian soil erosion. Dry atmospheric fall-out - is the coarse
fraction of particulate matter (particle size> 100 micron), which are fall out from the atmosphere by gravity on
the underlying surface. Quantitative characteristic of DAF is the flux density (P) (kg / ha • month, kg / ha •
year), which characterizes the total mass of the substance, falling out per unit time per unit area of underlying
surface.
As part of research the methodology for monitoring eolian soil erosion using passive traps in Uzbekistan had
been developed; ground observation network had been organized at 10 stations Uzhydromet; the qualitative
and quantitative analysis of dry atmospheric deposition based on monitoring data , composition of the soils,
related meteorological data has been conducted.
To assess the dynamics of process of salt and dust transfer in Uzbekistan for the period 1980-2010 years was
determined DAF flux density (monthly, seasonal, annual, perennial), was investigated the particulate
composition of the surface layer of soil for every monitoring points, was carried out zoning flux densities of
dry atmospheric deposition for Uzbekistan territory.
To assess the influence of meteorological parameters on the quantitative characteristics of the DAF was
created database containing basic monthly averages of meteorological parameters. Comparative analysis of the
data series of the DAF quantitative characteristics and meteorological parameters showed that the changes in
the flux density of the DAF due to the different meteorological situation during the year.
Experimental studies have shown that dry atmospheric fall-out are closely associated with topsoil blowing
processes and can be used to assess its deflationary compliances. During the study, estimates of the
mechanical and particulate (particle size) of the surface layer of soil sampling points were made.
Studies of the chemical composition and quantity of samples DAF in Uzbekistan led to the following
conclusions:
− quantitative characteristics of the DAF (total flux density and flux density of water-soluble components)
have a pronounced annual dynamics;
− dry deposition total content of soluble salts is much higher than their content in soils at all sampling points.
The ratio of water-soluble components are also markedly different for the soil and for the DAF;
− the highest values of the relative content of soluble salts obtained at stations Takhiatash, Bukhara, Fergana
and Chatkal;
− the composition of dry deposition varies throughout the year. The maximum amount of salts in the DAF
recorded in the period April-June, the minimum - from December to February;
− obtained DAF flux densities comparable to conventionally used to determine the intensity of the flow of
wind erosion. The developed method is cheap and easy to use, allows you to cover large areas.
Key words: dry atmospheric fall-out, flux density, eolian erosion, soils

133
Institutional transition for sustainable management of dryland pastoral systems in
Uzbekistan
Makhmud SHAUMAROV1), Regina BIRNER2) and Kristina TODERICH3)
Author affiliations:
1) The International Center for Agricultural Research in the Dry Areas (ICARDA), Uzbekistan
2) Institute of Agricultural Economics and Social Sciences in the Tropics and Subtropics, University of
Hohenheim, Germany
3) International Center for Biosaline Agriculture (ICBA), Tashkent, Uzbekistan
Contact details:
E-mail: makhmud.shaumarov@gmail.com
Address: ICARDA-CAC, Osiyo Street, 6/106, 100000, Tashkent, Uzbekistan
Phone: +998712372130
Abstract
This paper contributes to the ongoing discussion of the post-Soviet agricultural transformation reforms in the
dryland pastoral systems. The authors emphasize on the current institutional and governance challenges of
pastoral management of Uzbekistan from a demand and supply perspectives. The paper highlights the results
of participatory mapping analyses conducted in selected districts of Navoi (desert) and Jizzah (semi-desert)
provinces.
Our analysis shows that pastoral transformation s has largely been lagging behind in spite of major agricultural
reforms in the past decades. The state retains the large scale Karakul cooperatives (shirkat) for genetic
conservation of the Karakul sheep, to maintain district-level social-infrastructure services, and to ensure food
security in the drylands. Shirkats still participate in state-induced procurement for Karakul pelt, meat and even
cotton or wheat that have to be supplied annually at fixed prices. It is observed that Shirkats’ pastures are also
being used informally by local households for livestock grazing, and since the past two decades its ratio
reached 2/3 of the total animal population in rangelands. This has led to unsystematic grazing practices and
caused regular conflicts among resource users, and service provision institutions have failed to monitor and
serve them effectively.
Obviously, these policies hardly reflect the present needs of emerging regional market demands for livestock
products. In addition, economic feasibility of such top-down procurement system has not been considered.
Moreover, the current practices and corresponding institutions barely meet environmental and socio-economic
demands of the resource-poor communities in the drylands. Thus, there is an urgent need to develop viable
political/economic incentives both at the decision-making and community levels to replace the present
inefficient structures with sustainable pastoral management practices.
The authors suggest that political/economic incentives should be created through payment of ecosystem
service from the national land reclamation fund, from agro/eco-tourism industry, as well as from the newly
emerged financial schemes of soil carbon sequestration in large-scale pastures. As a step forward, the authors
discuss an enabling environment for community-driven pasture management, whereby formal rangeland-user
rights are granted to household groups either by Shirkats or directly by district Hokim’s Office. Traditional
community leaders would be helpful in better communication, facilitation, monitoring and pastoral resource-
use planning. The current practice of seasonal pasture lease implemented by the Forestry Department is one
example for feasibility of such a scheme in the present regime conditions. Economic valuation of pasture
degradation, mapping of depleted zones and livestock value chain analysis would also be vital to improve
demand and supply side communication and respective policy-level decision-making.
Key words: drylands; institutions; pasture degradation; state-procurement; transition reforms

134
Frothy bloat potential (primary ruminal tympany) and nutrient content of Forage Kochia
(Bassia prostrata L.)
Teshome SHENKORU1), Antonio FACIOLA1), Brad SCHULTZ 2) and Barry PERRYMAN3*)
Author affiliations:
1) Department of Agriculture, Nutrition, and Veterinary Sciences, University of Nevada-Reno
2) College of Extension, University of Nevada-Reno
3) Department of Agriculture, Nutrition, and Veterinary Sciences, University of Nevada-Reno
Contact details:
E-mail: bperryman@cabnr.unr.edu
Address: Mail Stop 142, University of Nevada-Reno, Reno, Nevada 89557 USA
Phone: +17757841265
Fax: +17757841375
Abstract
Forage kochia (Bassia prostrata L.) has been extensively used by grazing animals for millennia in central
Asia. It has high crude protein content during the critical fall/winter grazing period, non-toxic levels of
oxalates, acceptable digestibility, and is highly preferred by grazing animals. Forage kochia was introduced
into the U.S.A. in 1966 from a planting in Stravopol Botanical Gardens (USSR), and released as a cultivar
(Immigrant) in 1984. It has been included in fire and rangeland rehabilitation seed mixes and planted on at
least 200,000-400,000 ha in the USA. However, in central Nevada (USA), it has been linked to cattle mortality
by frothy bloat (primary ruminal tympany) under specific ecological site conditions. In order to assess its
potential to cause frothy bloat in free roaming cattle, we investigated the nutritive value of forage kochia
across a grazing season (September-January), measured in vitro gas production compared to fresh alfalfa, and
assessed foam production and strength with respect to fresh alfalfa. Crude protein values were highest in
October and November (23.3 and 21.5%, respectively), while neutral detergent fiber (NDF) was lowest during
the same period (38.8 and 39.3% respectively). Gas and foam production were both higher for alfalfa than for
kochia over a 12 hour incubation period. In general, alfalfa produced twice as much gas and foam as forage
kochia (P<0.001). However, foam strength (gDM) was twice as much for forage kochia (P<0.002), and by 6
hours of incubation time the foam height of forage kochia was twice that of alfalfa (P<0.001). Forage kochia
does have the potential to cause frothy bloat in cattle. Although fresh alfalfa digestion is likely to create more
gas in the rumen, the foam strength and persistence of forage kochia is likely to be retained over longer periods
of time, creating rumen conditions that would lead to frothy bloat and eventual mortality.
Key words: Bassia prostrate; frothy bloat; foam strength

135
Preliminary results of chemical analysis of the soil of dry seafloor of the Aral Sea
S.G.SHERIMBETOV
Author affiliation:
Laboratory of Genomics, Institute of Bioorganic Chemistry, Academy of Sciences Republic of Uzbekistan
Contact details:
E-mail: sanjarbeksherimbetov@gmail.com
Abstract
According to the latest scientific data, more than 5 mln hectare areas of Aral Sea water disappearance were
recorded. The dried areas of Aral Sea mainly contain variety level of soil salts and sands. Within typical salt-
marsh, over existence of salts and based on high mineralization level of underground waters, vegetation of the
annual halophytes are becoming more complex.
The reason, chemical composition of soils in current territory contains following minerals, such as: sulfate,
chloride, sodium, magnesium, which are increasing from year to year. It is important to note that, the
improvement process of soil in current territory is still being continued.
According to the our research, the water released territories of the southeast Aral Sea (2006-2014 years)
adaptation of variety of plants to the current natural environment was identified. First of all, this phenomenon
of soil types and its mineral structure in direct association with specific policy will be improved. At the
moment, the main water released territories was identified halophytes, which consists of variety level of salted
soils.
The variety parts of water released territories of Aral Sea were obtained soil samples during chemical analysis,
firstly the concentrations of 36 chemical elements was identified. The majority of these elements were found in
plant examples as well. The foundation of the soil micro elements is the parent rock. The high concentrations
of Ca, Cl, Fe, K, Mg, Na, Sr, Ti, Ba, Cu, Mn, Ni, Rb, Zn and other elements were identified. The clay, salted-
marsh in the cost of sea is salted mainly with sulfate-chloride salts.
The highness or lowness level of each element’s concentration depends on soils geographic characteristic and
typical features is one of the important index of it. The concentration of majority of microelements analyzed in
different soil samples depends on humus level of soil, pH composition of granulometry and surely studding
areas, following: in ecotope biological diversity level is directly associated.
Content of chemical elements in plants varies considerably. For example, the defined high sodium content in
Kalidium capsicum, Climacoptera aralensis, Halostachys belangeriana, Haloxylon aphyllum and other large
concentration of chlorine was detected in Kalidium capsicum. Magnesium concentration lowers in comparison
with other elements, especially in Kalidium capsicum, Climacoptera aralensis, Halostachys belangeriana. It
was also found that in Salsola richteri, Tamarix hispida, Haloxylon aphyllum calcium, potassium, magnesium,
and Halostachys belangeriana, Tamarix hispida chlorine concentration corresponds to an average
characteristic of these plants.
The micro flora of ecosystem, plant and animal types and in association with their life style cycle, in
microelements of soil composition might change seasonal or over the years. The elements of soils types and in
association to geographic areas in variety of level found, soil-geochemical studding current areas
regionalization and it gives a lot of possibilities to use in geological search.
Our findings contribute to a better understanding of the fundamental mechanisms of plant adaptation to stress
environmental factors, as well as to develop a strategy periodic seeding promising forms and plant species in
the area of the seafloor of the Aral Sea.
Key words: Aral Sea: soil; plants; chemical elements

136
Salt-accumulating indicator plants on the dry seafloor of the Aral Sea
Sanjar SHERIMBETOV
Author affiliation:
Laboratory of Genomics, Institute of Bioorganic Chemistry, Academy of Sciences, Republic of Uzbekistan
Contact details:
E-mail: sanjarbeksherimbetov@gmail.com
Abstract
The biosphere is the environment with a dynamic equilibrium at both the macro- and micro-level. For elements
in the biosphere it is typical for intra- or extracellular space distribution. Biological role of chemical elements
are very diverse and numerous, and the elements being considered are much enough that’s why it is a
challenge to cover such a large and controversial material.
Dry seafloor of the Aral Sea – an open, deserted and unique "laboratory" emerged in Central Asia. Due to the
current ecological condition of the dried bottom of the Aral Sea, comprehensive study of biological objects of
Aral Sea region has a great scientific and practical importance not only in science and technology, but also in
the country's industry.
The variety parts of water released territories of Aral Sea were obtained soil samples during chemical analysis,
firstly the concentrations of 36 chemical elements were identified. The majority of these elements were found
in plant examples as well. 37 trace elements of the periodic Table were identified in plants for the first time.
Content of chemical elements in plants varies considerably. For example, the defined high sodium content in
Kalidium capsicum, Climacoptera aralensis, Halostachys belangeriana, Haloxylon aphyllum and other large
concentration of chlorine was detected in Kalidium capsicum.
Our findings contribute to a better understanding of the fundamental mechanisms of plant adaptation to stress
environmental factors, as well as to develop a strategy periodic seeding promising forms and plant species in
the area of the seafloor of the Aral Sea.
Key words: Aral Sea; soil; plants; indicator; elements

137
Dam gate operation for turbid flood water venting in the reservoir in Tunisia
Megumi SHINTAKE1) and Mitsuteru IRIE2*)
Author affiliations:
1) Faculty of Life and Environmental Science, University of Tsukuba
2) Alliance for Research on North Africa, University of Tsukuba
Contact details:
E-mail: irie.mitsuteru.fu@u.tsukuba.ac.jp
Address: 1-1-1 Tennodai, Tsukuba, Ibraki, 305-8572 Japan
Phone/Fax: +81298537442
Abstract
The amount of water resource in a high dam is visible as its storage capacity, while the groundwater resource
amount has the difficulty of volume estimation. Therefore, the water resource in dams is most reliable water
resource. However, in the arid area, due to the low vegetation land cover, the land erosion from the catchment
area is quite serious. The eroded soil enters to reservoirs, then, it is settled as sediment and reduces the water
storage capacity of the dams.
There are some countermeasures against the sedimentation, such as dredging, sand discharge bypass and
sediment flushing etc. However, due to the financial reason, these countermeasures are not carried out in a lot
of cases, especially in the developing countries. One of the inexpensive ways to reduce the sediment amount is
density flow venting. The high turbidity water with high density forms a bottom density flow and reaches to
the dam body without high rate mixing with the clear reservoir water. By opening the gate on the dam timely,
the turbid flood water discharged to the downstream with little amount of sedimentation. Whether the flood
water forms the bottom density flow depends on the difference of the density which is defined by the
temperature and the concentration of suspended solid. Therefore, in order to optimize the open/close gate and
reduce the loss of water resource, the standard for decision making is required.
In this study, Joumine dam located in the north of Tunisia is selected as study site. First, sediment traps were
fixed at 3 points in 3 depths during the rainy seasons of (1) December 2011- March 2012 and (2) December
2012-March 2013. Two rainy seasons gave the different raining scale and different run-off of the river. The
observed behavior of the turbid flood water in the reservoir was also different. The first term had big flood and
high turbidity water enter to the reservoir as bottom density flow was observed. On the other hand, the second
term, there were only small scale runoffs and the entered flood water was dispersed to the middle layer of the
reservoir. Under the situation of the second term, if the gate was opened for aiming bottom density flow
discharge, the efficiency is very low, while we can expect the very effective venting for the case of the first
term.
Then, the numerical experiment with the hydraulic computational simulation model was carried out. The water
temperature of inflow river and flooding scale which defines the concentration of the suspended solid; these
parameters that decide the density were varied as experimental condition for finding the threshold between
bottom forming density flow and dispersing in the middle. As a result, the influence of the change of the water
temperature on the form of flood water is not so strong. It is defined by the scale of the flood and its maximum
concentration of suspended solid mainly. In the cases that the maximum flow rate is above 70m3/sec shows
forming of the bottom density flow.
Key words: reservoir; sedimentation; density flow venting; numerical experiment; suspended solid

138
Water conflict resolution in rural Central Asia: a historical perspective
Akifumi SHIOYA
Author affiliation:
Faculty of Humanities and Social Sciences, University of Tsukuba
Contact details:
E-mail: krasilnikov@ecfs.msu.ru
Address: 8A105b, 1-1-1 Tennodai, Tsukuba, Ibaraki, Japan 305-8571
Phone: +81298535264
Abstract
Although irrigation and the issue of water management in Central Asia is a well-researched and popular topic
in the social sciences, historical research on the same, based on primary sources written in Persian and
Chaghatay Turkic languages, remains undeveloped. This study is a preliminary survey of the settlement of
water disputes in Khorazm, one of the major oases regions of Central Asia.
The Khorazm oasis, situated in the lower basin of the Amu Darya, has had extensive irrigational networks
since the ancient period. Even under the nomadic Uzbek rule from the 16th century to the first decade of the
20th century, the networks were maintained, though a series of political crises in the eighteenth century caused
a temporary destruction of irrigation facilities. In the first decade of the 20th century, the yasavulbashi –
originally a supervisor of yasa (the laws of Chinggis Khan) – came to control a part of judicial procedures that
included water disputes in Khorazm. This was according to the reform initiated by Sayyid Islam Khoja, the
Grand Vazir of the Khanate of Khiva (1512-1920), during the reign of Isfandiyar Khan (r. 1910-1918). In
2012, Uzbekistani historian Ulfat Abdurasulov was the first to reveal the importance in the involvement of
yasavulbashis in judicial procedures.
This presentation aims to contextualize Abdurasulov’s new findings with my intensive research on over 100
documents connected to the issue of irrigation from the yasavulbashi documents. Following this, I will show
the process of settlement of water disputes under the yasavulbashi and then compare them with the
‘traditional’ customs of irrigation practiced before the 20th century, as described by Western and Russian
Orientalists, scholars, and irrigation technicians as well as the local court chroniclers.
The presentation will offer a concrete picture of the settlement process of water disputes before Russian
Revolution and the establishment of the Soviet regime in Central Asia, which brought about serious
environmental crises in rural Central Asia on the one hand, and the modernization of water management on the
other.
Key words: water conflict resolution; arid region, Central Asia; Khorazm Oasis; documents in Chaghatay;
Turkic language

139
Impact of reduced water supply for irrigation in dry years on hydrogeological measures
and soil salinization in the lower reaches of the Amudarya River
Yulia SHIROKOVA*) and Gaukharay PALUASHOVA
Author affiliations:
Laboratory of soil research and ameliorative processes, Research Institute of Irrigation and Water Problem
Contact details:
E-mail: yulia_bonn@rambler.ru
Address: Karasu district, B11, Tashkent, Uzbekistan, 100187
Phone: +998712651251
Fax: +998712653241
Abstract
In Khorezm region, located in the Amu Darya River lower reaches, changes in the water management and
reclamation situation were observed from 1984 to 2012:
- reduction of specific annual water intake from 27 to 15 m3/ha;
- decline in cotton yields average for the region from 35 to 20 t/ha;
- stable quantity of moderately and highly saline land in the region came to: 36.4 % of the irrigated area (at the
very beginning of the period), 46 % of the monitored over a relatively long period up to the present time), and
over 50 % in some periods.
2000, 2001, 2008 and 2011 were water shortage years on the Amu Darya River; water shortage was most
profound during the growing season 2001. The lowest specific annual intake observed in dry years: 8.6 m3/ha
in 2001; 10.7 m3/ha in 2008; and 9.1 m3/ha in 2011.
Based on the statistic processing of long-term data by water organizations, including data on intakes, location
of groundwater, salinity distribution over irrigated lands, and crops, the tendencies of low water impact on
them under real conditions of Khorezm region were determined by statistic processing. It was found that water
shortage most affects groundwater depth as well as harvest.
The tendencies of low water impact on them under real conditions of the Khorezm region are as follows:
1. Given slight slope and geomorphology, the groundwater level is steadily shallow: in medium water
availability years, average groundwater level varies from 140 to 170 cm. Based on long-term data it was found
that depending on water availability, groundwater level lowers when growing cotton: for example, during the
average water availability period, the groundwater depth ranged within 119 ... 140 cm, while in dry years it
dropped to 157-166 cm. By processing the long-term data for each of the 11 districts, an equation of the effect
of specific water supply volume on groundwater depth was derived.
2. Effect of dry years on change of the distribution of irrigated land areas with varying groundwater salinity (at
widespread shallow groundwater with their prevailing salinity of about 3 g/l) was not observed.
3. Nor significant dependence of cotton crop on groundwater depth was observed: apparently, at their close
bedding, irrigation regime has a greater effect on crop yield.
4. Low effect of water availability on salinity distribution in normal years is probably due to inadequate
drainage conditions of particular areas and consequently stagnation of groundwater. However, expanding of
the saline land areas with decreasing water availability was revealed by the example of water shortage in 2001.
The quantitative values and relations of the effect of specific water supply volume on groundwater depth,
which were obtained in this study, can be used for simulating and forecasting processes with expected changes
in water availability at water scarcity and, in long-term forecasts, related to supposed climate change.
Key words: water shortage; lower reaches of the Amu Darya River; water availability and water scarcity;
hydrogeological measures; soil salinization

140
Genetic basis for the reintroduction of Haloxylon aphyllum (Chenopodiaceae) on degraded
pasturelands in Kyzylkum desert
Elena SHUYSKAYA1*) and Kristina TODERICH 2)
Author affiliations:
1) Global photosynthesis ecology laboratory, K.A. Timiryazev Institute of Plant Physiology, RAS
2) International Center for Biosaline Agriculture (ICBA), Tashkent, Uzbekistan
Contact details:
E-mail: evshuya@gmail.com
Address: Russia, 127276, Moscow, Botanicheskaya ul., 35

Abstract
Haloxylon aphyllum (Minkw.) Iljin (Chenopodiaceae) is a tree-like stem succulent xerohalophyte characterized
by high edafic plasticity allowing to occupy various ecological niche (Nikitin 1966; Gintzburger et al. 2003).
In pure or mixed with others woody desert species is largely used for creation of artificial windbreaks and forest
shelterbelts plantations. In Kyzylkum desert H. аphyllum populations are representing mostly as artificial
(agropopulations, 20-40 years old). The main purpose of our studies was to assess the genetic diversity in
agropopulations and self-regenerated populations of H. аphyllum, grown under Central and South-West
Kyzylkum desert environments.
Mean level of genetic polymorphism (P95 = 30%, А = 2.09), except observed heterozygosity (Но=6%) in H.
аphyllum populations are comparable to mean level of genetic polymorphism in perennial anemophilous cross-
pollinated species (Hamrick et al., 1992). Significant deficiency of heterozygotes in H. аphyllum (61%) was
found that is uncommon for anemophilous cross-pollinated species (Hamrick et al. 1992). Such deviation in
the genetic structure of populations due to inbreeding has serious effect on reduction of genetic variability and
adaptive potential. We used model “agropopulation—self-regenerating population” to understand how genetic
structure (level of genetic polymorphism, heterozygosity, deficiency of heterozygotes) is changed in self-
renewing population. It was found that in self-regenerating population level of genetic polymorphism (P95)
decreased by 50%, and observed heterozygosity increased in 4.3 times compared with agropopulation.
Moreover deficit of heterozygotes has changed to excess of heterozygotes, that indicate to the selection in
favor of heterozygous genotypes. The heterozygous genotypes of H. aphyllum have shown significant
advantages in their productivity and sustainability under moderate and high salinity (Shuyskaya et al., 2014).
Thus, taking into consideration the inherent ability of H. aphyllum to tolerate salinity there is comparatively
easier and more practical option of screening and selection of suitable populations from the already available
germplasm attempting to carefully use them for rehabilitation of salt affected lands. Cultural practices were
recommended for improving growth of woody species, H. aphyllum inclusive, for utilization of degraded
pasturelands in Uzbekistan.
Key words: genetic polymorphism; deficit of heterozygotes; salinity; desert

141
Spatial distribution of salts in Solonetz complexes of arid zone of the Caspian, using field
data and remote spectral data
Ulyumdzhi ULYUMDZHIEV1), Maria KONYUSHKOVA2) and Alexey SOROKIN2*)
Author affiliations:
1) Faculty of Geography, Lomonosov Moscow State University, Russian Federation
2) Eurasian Center for Food Security, Lomonosov Moscow State University, Russian Federation
Contact details:
E-mail: alexey.sorokin@ecfs.msu.ru
Address: Eurasian Center for Food Security, Lomonosov Moscow State University GSP-1, Leninskie Gory,
Moscow, 119991, Russian Federation
Phone: +79266767333
Fax: +74959394239
Abstract
The area of distribution of the saline soils in European part of Russia (Caspian lowland) is characterized by
complex structure of the soil cover and, as a result, extremely variegated soil salinity. Assessment of the
direction of the processes of salinity-desalinity due to the climate aridity and the processes of desertification in
these conditions is complicated, since in the limits of small areas (100x100 m) there are all variants of saline of
soils - ranging from non-saline, gradually passing through any intermediate variants to very strongly saline
Solonetz. In order to move forward to solving the problem of assessing the impact of climate on the salinity of
soils of the South part of Russia, it is necessary to develop approaches to areal operational assessment of
distribution of soils of various degree of salinity.
In existing publications (Konyushkova, Kozlov, 2010) were shown that in the South part of Russia using
remote information it is possible to allocate only two categories of saline soils: non-saline and the all others
(i.e. saline in different degrees). Such a drastic distinction is not enough to identify the dynamics of soil
salinity in the South part of Russia. To separate the soils of various degree of salinity it is necessary, in
addition to the analysis of spectral data, also carry out analysis of the structure of soil cover, because according
to the data for the study of heterogeneity of soil salinity in different natural zones and under different
anthropogenic impact (Zimovets (1991), Pankov, Soloviev (1992)), was shown that it was natural related to the
dimensions of spots non-saline and saline soils. A schematic representation of the spatial distribution of salts
within the topsoil shown that, it likely will take the form of “salt body” with highly saline core and with
gradually decreasing salinity from the centre to the periphery. And there is the following pattern: the larger the
size of salt body, the higher the average value of its salinity.
On the soil transect, located on Solonetz complex in the zone of Brown semi-desert soils (Ustinsky district of
Republic Kalmyk), the collection of samples with step of 1-3 m (depending on the linear size of the elementary
areas of soils) was conducted. Values of pH, pNa, pCl were determined in soil pasta using ion-selective
electrodes. In the aqueous extract 1:5 the conductivity was determined using the conductometer HANNA.
In parallel, an analysis of detailed space images GeoEye (resolution 2 m) was conducted. Comparison of field
data and remote spectral data confirmed the previously identified regularity (Konyushkova, goats, 2010),
which is based on the spectral space imagery data it is possible to allocate non-saline soils. They were
automatically highlighted on the image; as a result a map of the distribution of non-saline soils of the area of
study was made.
It was further analyzed how the parameters of soil salinity (pNa, pCl, EC) change depending on the distance
from the border area with non-saline soil, and depending on the space area with saline soils. Based on the
obtained patterns a map of the salinity of the research area was made
Work is executed at financial support of RFFS (grant № 14-04-31436 and 13-04-00107).
Work was recommended by Leading Researcher, Dr. M.V. Konyshkova.
Key words: soil salinity; the Caspian; climate change; arid landscapes; mapping

142
Halophytic and Salt Tolerant Feedstuffs and livestock performance
Victor SQUIRES1*) and Hassan el SHAER2)
Author affiliations:
1) Gansu Agricultural University
2) Desert Research Center, Cairo, Egypt
Contact details:
E-mail: dryland1812@internode.on.net
Address: 31 Yeronga Ave. Unit 4 Kensington Park, 5068 South Australia, Australia
Phone: +61400104775
Abstract
Halophytes (salt loving plants) occur naturally in a wide range of habitats ranging from arid inland regions to
coastal locations. Halophytes are being grown in many places ranging from coastal deserts to inland regions
where soils and/or water are saline. We attempt to quantify the amount and type of halophytic or salt tolerant
fodder/forage/brose that is available for incorporation into livestock diets. To be a viable proposition for
commercial users there must be both sufficient quantity of feedstock (straw, oilseed residues etc) and
continuity and reliability of supply. We attempt to quantify the amount and location of fodder sources from
halophytic and salt-tolerant plants.
Much irrigable land especially in Central Asia and other places in the former Soviet Union and western China
has been abandoned. Halophytes can rehabilitate these lands and provide a resource for livestock and a cash
flow to improve household income. Salt-tolerant species are also important because in terms of the sheer bulk
of feedstuffs there will be more that is from a non-halophyte source. Salt tolerant plants can be watered with
saline waters or grow on saline soils. They have lower salt content in the fodder but are still way above the
“normal”.
Much literature exists on the physiology of halophytes under regimes ranging from inland playa lakes to
coastal deserts where they were irrigated with sea water. Our emphasis is on the animals, and their
performance, when fed salty foods either “straight’ or, more likely, in mixed rations. The potential value of
halophytes as feedstuffs for livestock has been recognized for decades and incorporation of halophyte
feedstuffs into mixed rations has been advocated as a way to increase intake and mitigate the anti-nutritional
compounds that reduce palatability and food value. The interactions (nutritional, physiological and
reproductive) between halophytic feedstuffs and both ruminant and non-ruminant livestock have been studied
to a greater or lesser extent by researchers from a number of regions( Australia, Southern Africa, the Gulf Arab
region, North Africa and Central Asia.
Much data has accumulated now on the response of both ruminant livestock (sheep, goats, cattle, camels) non
ruminants (rabbits etc) and poultry to rations containing halophytic ingredients. We illustrate this with
selected examples. In Egypt, and elsewhere, camels are fed on halophytes without much dilution with other
fodders. There is a range of tolerances among livestock species and between breeds within a species.
We summarize years of experience from work in Egypt, Australia, USA, Mexico, Pakistan, North Africa and
the Middle East and shed light on the problems and prospects for increasing the utilization of halophytes as
animal feed and for rehabilitation of saline lands throughout the world
Key words: fodder; browse; mixed rations; camels; diet
References
Squires, V.R. and Ayoub, A.T. (Eds) 1994 “Halophytes as a resource for livestock and for rehabilitation of
degraded lands”. TASKS FOR VEGETATION SCIENCE, Kluwer Academic, Dordrecht,
El Shaer, H. And Squires ,V. (in press) Halophytic and salt tolerant feedstuffs: Impacts on nutrition,
physiology and reproduction of livestock CRC Press, Boca Raton 2015, 525 p.

143
The availability of moisture as the indicator of pastures productivity of Kyzylkum desert
Nigora SULAYMONOVA, Oleg BABUSHKIN*), Nurmuhammad MAMAZHONOV
Author affiliation:
Hydrometeorological Research Institute (NIGMI) of Uzhydromet
Contact details:
E-mail: ufo789@mail.ru
Address: 72, 1st Bodomzor yuli street, Tashkent, 100052, Uzbekistan
Phone: :+998(93)5750406
Abstract
The main part of karakul sheep of the Republic of Uzbekistan is located in Kizilkum desert. Presence on
karakul pastures of Uzbekistan various on growth conditions, fodder properties and productivity of groups of
plants allows to graze a livestock within all year.
Stocks of forages on pastures are formed during the spring period. The development, growth and formation of
a crop of pasturable vegetation is entirely defined by the conditions of the weather which have developed in
autumn, winter and spring months. During this period (October-May) in territory of pastures the most part of
precipitation (85-95 %) drops. Precipitations of the fall-winter-spring period is a unique source of a moisture
for pasturable vegetation.
Total amount of precipitation in this period that supplies the territory with rain is a traditional
agrometeorologic indicator. The average long-term quantity of precipitations for this period on territory of
pastures fluctuated from 81 mm in Buzaubay to 144 mm in Mashikuduk.
The availability of moisture on pastures depends on concrete meteorological conditions which are a
consequence of synoptic processes observed over given territory. It is observed that in formation of damp
conditions exits southern and western cyclones which bring a moisture on territory of plains of Uzbekistan.
Repeatability of this process in those wet years is much more to 5% compared to the dry years. Formation of
damp years is brought on also wave activity on cold front both northwest and western cold intrusions at which
repeatability excess make, respectively by 2,8 % and 1,7 %.
On formation of dry years is highly influenced by anticyclonic processes, smallgradient fields of the high and
low pressure and northern cold intrusions. In dry years their repetition is much more to 6.2 %, 2.3 %, 1.3 %
and above, than in the damp.
Nowadays research an new agrometeorological indicator for an estimation of conditions of growth of
pasturable vegetation during the spring period and formations of stocks of forages is conducted. The
thermohygrometric coefficient of dryness of air (THC), closely connected with heat and availability of
moisture territories can become one of such agrometeorological indicators.
On the average long-term ТHC increases from 26-39 ‰ (promile) in the beginning of March to 70-74 ‰ in the
end of May. Factor variations on territory will be co-ordinated with distribution of precipitations in these areas:
the drier area, the above value of thermohygrometric factor.
Key words: pasture productivity; thermohygrometric coefficient of dryness; moisture factor; Kyzylkum desert

144
Some data on wood decay fungi in Zarafshan Reserve of Uzbekistan
Shaxob SULAYMONOV1), Yusufjon GAFFOROV2*)
Author affiliations:
1) Navoi State Pedagogical Institute, Uzbekistan
2) Institute of the Gene Pool of Plants and Animals, Uzbek Academy of Sciences, Uzbekistan Swami
Contact details:
E-mail: gafforov@mail.ru
Abstract
Zarafshan Reserve, located along the right channel of the Zarafshan River, is of particular importance. Mainly
riparian vegetation, represented by trees, shrubs and herbaceous plants grows here. In this study, fungal fruit
bodies were collected. The fruit body samples were identified with their morphological characteristics.
Through the investigation, 25 species belonging to 10 genera, 7 families were found so far and 20 species were
identified into species level. Most of the species belonged to Polyporales followed by Hymenochaetales. In
Polyporales, most species were from Polyporaceae and Meruliaceae. Most frequent genera of recorded are
Laetiporus, Bjerkandera, Fomes, Inonotus, Phellinus, Stereum, Trametes and Schizophyllum.
Key words: fungal diversity; wood-decaying fungi; Zarafshan Reserve

145
Productive improvement of soil by the application of phosphoric fertilizers
Bokhodir SULTONOV1*), Shafoat NAMAZOV1) and Bakhtiyar ZAKIROV2)
Author affiliations:
1) Laboratory of Phosphoric Fertilizers, Institute of General and Inorganic Chemistry, Uzbekistan
2) Laboratory of Nitrogen fertilizers, Institute of General and Inorganic Chemistry, Uzbekistan
Contact details:
E-mail: bse-chemist-68@mail.ru, igig@rambler.ru, ionxanruz@mail.ru
Address: 100170, M. Ulugbek Street, 77a, M. Ulugbek district, Tashkent, Uzbekistan
Phone: +998903292759, + 998908060187, +998712625660
Fax: +99871 262 79
Abstract
Phosphoric fertilizers in the first year of action are usually used on 10-15 %. The low operating ratio is
connected not with transition of the brought phosphates in indigestible form plants, but with the limited item
availability of reactions of fertilizer and soil, possessing weak ability to movement in a soil solution. Fastening
of phosphates by soils prevents their washing away; this is an account part of phosphoric balance that can have
some value only on sandy and highly saline soils which is available in set in our republic.
Interaction of phosphoric fertilizers with soil goes by the way of formation of the steady mineral connections,
the structure of which is defined by genetic features of soil and the reaction of the soil environment. In sour
soils phosphates of one-and-a-half oxides, in neutral and carbonaceous soils - calcium phosphates are formed
basically. Formation of the most stable forms of soil phosphates is very slow process accompanied by
accumulation of intermediate metastable products of reactions, keeping rather big solubility in a soil solution
and is considerably the best availability to plants in comparison with natural soil phosphates. Character of
transformation of fertilizer introduced in soil is also defined by its chemical compound. This explains the
effectiveness of different forms of phosphate fertilizers in the first years after their introduction. At longer
influence of fertilizers with soil all readily soluble phosphoric fertilizers make about identical impact on soil
fertility. Therefore at entering of phosphoric fertilizers it is necessary to consider quantity of brought fertilizers
and type of soils. It is known that the basic type of soils in our country is grey soil. An optimum level of the
maintenance of mobile phosphorus on such types of soils is 3-4 mg/100 g of soils. For increase in the
maintenance of mobile phosphorus at 1 mg/100 g soils is required to be brought Р2О5 over carrying out of 100-
130 kg/hectares, but on grey soils of a new irrigation these expenses can increase considerably. One of such
phosphoric fertilizers is precipitate (hydro phosphate of calcium) which can be made from local waste. At
present, at processing of Kyzyl-Kum phosphorites on the washed burnt concentrate, about 40-42 % P2O5 goes
in sailings in the form of mineral mass and slime phosphorite with the content of 12-14 % P2O5. One of such
decisions is the way of processing of such poor phosphate raw materials on the qualified unary (single)
phosphoric fertilizers like precipitate. Therefore we develop a way manufacture precipitate from such
phosphorite with the simplified technological scheme. As the fertilizer, precipitate possesses many advantages:
high concentration of indigestible Р2О5, high agrochemical efficiency on all types of soils and for all cultures.
Precipitate is neutral, therefore it does not break natural structure of soil microbial communities. Increase of
efficiency of phosphoric fertilizers, including precipitate and their ratio of use promotes also optimum spatial
distribution of phosphoric fertilizers in soil to decrease their fixing and increase of concentration of
phosphorus radical zones that is to increase the coefficient of use.
Key words: productivity of soil; phosphoric fertilizers; precipitate

146
Response of wetland ecosystem developing to climate changes in the cold alpine and dessert
biomes of east Pamir region: a pilot study of multi proxy analysis
Małgorzata SUSKA-MALAWSKA1*), Monika METRAK1), Mateusz WILK1),
Marcin SULWINSKI1, Elżbieta ROJAN2
Author affiliations:
1) Faculty of Biology, Biological and Chemical Research Centre, University of Warsaw
2) Faculty of Geography, University of Warsaw
Contact details:
E-mail: malma@biol.uw.edu.pl
Abstract
Due to their geographical location, extreme climatic conditions, isolation and exceptionally short growing
season, high-mountain wetlands of Pamir developed a unique landscape and soil properties. Because of the
extreme conditions in the Pamir mountains (cold desert biomes), lake-side and riverine wetlands play crucial
role for many species of plants and animals and, from the biogeographical perspective, can be treated as
isolated islands.
Isolated river valleys surrounded by inaccessible mountain peaks, extreme weather and water shortage resulted
in sharp filtering from the geographically available plant species. Hence, floristic analyses of occurring
vegetation will enable us to test hypotheses on geographical and ecological filters, that shape the species pool
of high-mountain wetlands. . The high mountain vegetation is generally considered to be particularly
vulnerable to climate change. Therefore, this vegetation can be used as a sensitive "ecological indicator" for
climate change effect.
The main purpose of this pilot study was to use these wetlands as model ecosystems in ecological studies on
wetlands habitats.
This study is also a part of the international cooperation for scientific research, conservation and sustainable
development in the Central Asia region. Thanks to this project we will provide documentation on the Pamir
wetlands’ biota, explore wetlands’ potential and prepare recommendations for collaborative conservation of
key species, habitats and high altitude ecosystems in the Central Asia region.
Key words: desert biomes; ecossytem resilience; Pamir wetlands, bioversity conservation; climate change

147
Production of water filter from reservoir sediment in Tunisia
Sena TAGA1) and Mitsuteru IRIE2)
Author affiliations:
1) Graduate School of Life and Environmental Science, University of Tsukuba
2) Faculty of Life and Environmental Science, University of Tsukuba
Contact details:
E-mail: irie.mitsuteru.fu@u.tsukuba.ac.jp
Address: 1-1-1 Tennodai, Tsukuba, Ibraki, 305-8572, Japan
Phone: +81298537442
Abstract
Reservoir, that dams river and retains water, is mass intensive water resource with high reliability of stable
supply of water. However, suspended solids in river water settle down and cause sedimentation. This
sedimentation decreases capacity of reservoir so that is anxiety factor of sustainable use of reservoir. On the
other hand, some regions cannot construct new reservoir due to suitable area for constructing is limited. In
such area, adequate reservoir management for existing reservoirs must be practiced.
The study site reservoir locates in Tunisia. Despite reservoir management is necessary for Tunisian reservoirs,
due to the management such as dredge is costly, suitable management haven’t been practiced so far as similar
as other developing countries.
In this study, way of effective utilization of sediment which is waste substance in the process of dredge will be
examined. Due to the diameter of sediment is in micro meter order, the possibility to exploit sediment as water
filter is conceivable.
Feasibility of sediment as ceramic material had been reported by Irieet al.1), but only the hardness of the
ceramics made from sediment was examined because the ceramics targeted the use as construction bricks. The
permeability and porosity which are the important parameters for the use as filter were not discussed.
First the author pictured SEM image of the ceramic sample in order to confirm if it’s porous ceramic or not.
The sample was made of only sediment with the water content of 45 % and sintered at 850°C. The SEM image
showed a porous surface of the ceramics. However, it got cracked and broke down when it was left into water
bath. The cracks were due to the expansiveness of the clay in water and lack of vitreous matter that functions
as bond. The sample made of sediment and Toyoura sand didn’t get crack in water bath.
Optimum proportion of sediment and sand discussed from perspective of strength and porosity. On the other
hand, the porosity and porous size can be controlled by the specific additives. In this study, availability of this
technic to enhance quality of water filter is shown. In addition, potential of the ceramics filter was examined
by the water permeability experiment.
Prospect of water filter is not only financial assist for dredge, also water filter may help environmental problem
caused by contaminant water by providing natural material filter with low cost.
Key words: ceramic; filter; sedimentation
Reference:
1) Mitsuteru. I, et. Al:Feasibility of Exploitation of the Sediment in the Reservoirs for the
Sustainabilityof Surface Water Resource in Tunisia: J.Japan Society of Civil Engineering Ser.G, 68,
6, II41-46: 2012

148
Restoration for ecological functioning of degraded terrestrial ecosystems:
case example from Kuwait
Faisal K. TAHA
Author affiliation:
Kuwait Institute for Scientific Research (KISR), Kuwait
Contact details:
E-mail: ftaha@kisr.edu.kw
Address: P.O. Box 24885, Safat 13109, Kuwait
Phone: +96524956690
Fax: +965 24836637
Abstract
As a result of Iraqi invasion to Kuwait in 1990 significant damages occurred to the terrestrial, marine and
atmospheric environmental compartment of Kuwait due to the military activities in the desert as well as due to
degradation effects from the detonation of oil wells by Iraqi forces resulting in the release of over 1 billion
barrels of crude oil into the environment. These environmental disturbances manifested themselves in
accelerated soil erosion, increased sand movement, increased incidence of sand storms and dust and damages
to natural vegetation and wildlife. Kuwait submitted environmental claims for compensation for expenses for
measure to remediate and restore its ecosystems. The United Nations Compensation Committee (UNCC)
awarded Kuwait US $2.9 Billion for this purpose.
For the purpose of this paper we will only focus on research and development efforts geared towards Kuwait
Environmental Restoration Program (KERP). Emphasis will be given to terrestrial ecosystems where large
scale revegetation of almost 1600 km2 is currently being planned in different ecosystems of major plant
communities, Rhanterium epapposum, Haloxylon salicornicum, Cyperus conglomerates and Panicum
turgidum. Simultaneously, a comprehensive Environmental Monitoring Program will be carried out to ensure
that ecological functioning is moving towards restoration of environment to pre-invasion of Iraq in 1990. This
will be achieved through planning of well designed monitoring protocols supported by various indicators for
ecosystem structure and functions. The implementation for KERP will take place between 2014 to 2026 and
will be coordinated among different stakeholders. This project represents the largest restoration program of
dryland terrestrial ecosystem ever carried out in recent times in arid zones.
Key words: detonation; crude oil; environmental restoration

149
New records for north-west Kyzylkum
Dilarom TAJETDINOVA1*), Qidirbay KAIPOV2), Gulnaz BEGDULLAEVA2)
Author affiliations:
1) Institute of the gene pool of plants and animals Academy of science of the Republic Uzbekistan
2) Karakalpak State University names Berdax
Contact details:
E-mail: dilarom.tajetdinova@yahoo.com
Address: 32, F. Hodjaev, c. Tashkent, 100125. Uzbekistan
Phone/Fax: +998712890338
Abstract
North-west Kyzylkum (Karakalpakstan) bordered on the north of the Aral Sea in the west and south by the
area of irrigated agriculture, on the east by the Central Kyzylkum. Occupy more than 5 million hectares.
Paramount problem of animal industries of the Central Asian republics is the problem of security the forages
which decision depends on presence of representatives of one of typical deserted families of
Monocotyledoneae. The families of Monocotyledoneae in the flora of north-west Kyzylkum occupies special
important position and represents huge scientific interest, as the largest families of the flora of this region.
According to their literary (Korovin et all.,1983; Sherbaev, 1988) was including 4 species Juncus L., 6 species
of Gagea Salisb. and 1 species Rhinopetalum Fisch ex Alexand.
During floristic study (2011-2013), the collection and study on plant specimens (herbarium of TASH) in the
north-west Kyzylkum, interesting species were found. Among them 5 species (Juncus compressus Jacq.,
Gagea deserticola Levichev., Gagea gagea x ovastia Levich. (f. ova x stipitata), Rhinopetalum gibbosum
(Boiss.) Zosinsh et Vved., Henrardia persica (Boiss.) Hubb.) were provided for the first time for the flora of
north-west Kyzylkum. The database was established for Monocotyledoneae (TASH) of the Karakalpakstan.
Specimens were identified primarily using the “Flora of Uzbekistan” (1941), “Flora of Kazakhstan" (1956),
“Flora of Turkmenistan” (1932), “Conspectus Florae Asiae Media” (1968) “Illustrated determinant of the
plants of Karakalpak and Khorezm” (1982).
Juncus compressus Jacq. Jacq. Enum. Stirp. Vindob. (1762)60.
Specimen seen TASH: Kyzylkum of Karakalpakstan: Aktau. Atamtay guzhumdy. Muravlyansky K.
27.04.1934. №377, 378, 379.
Others specimens seen TASH: Experimental field of Chimbay. Alfalfa field of at the bottom of the ditch, rare.
A. Moskvina 07.06.1928. 31183.; Karakalpakstan. Kungrad district. At the bottom of the old duct. Maylun Z.A
05.30.1952. Navikom V. 02.75.; On the south side of the lake. Khodjakul, the coastal zone of Kipchak.
Taubaev. 25.09.1975. det. Navikom V. 02.75.; Karakalpakstan. Kungrad district. Dumzak count (flow
Kyzsovma). Ashirova A. 08.24.1954.
Gagea deserticola Levichev.
Specimen seen TASH: Kyzylkum of Karakalpakstan. Muravlyansky K. 04.08.1934. def. Levichev. 10-
13.06.1983; 09.06.1983. №49, 93, 95, 99.
Gagea gagea x ovastia Levich (f. ova x stipitata).
Specimens seen TASH: Kyzylkum of Karakalpakstan. Tamdy Muravlyansky K. 04.08.1934. det. Levichev.
10.10.1986. Number 102.; Kyzylkum of Karakalpakstan. Aktau soft sediments. Muravlyansky K. 17.04.1934.
det. Levichev. 13.10.1986. №218, 219.
Rhinopetalum gibbosum (Boiss.) Zosinsh et Vved. in Fl. URSS. 4(1935)297.
Specimen seen TASH: Kyzylkum of Karakalpakstan. 8 km south of Dzhetimtau. Muravlyansky K. 25.03.1934.
№15.
Henrardia persica (Boiss.) Hubb. in Blumea. Suppl. 3(1946)15.
Specimen seen TASH: Kyzylkum of Karakalpakstan. Oh-chemen, broken sands. Muravlinsky K. 04.34.
Thus, in the present time in the territory of Karakalpakstan are grow 5 species of Juncus L., 8 species of Gagea
Salisb., 2 species Rhinopetalum Fisch ex Alexand. and 1 species Henrardia Hubb. Also the genus Henrardia
Hubb. was included first time for the flora of Karakalpakstan.
Key words: north-west Kyzylkum; Monocotyledoneae; new record; genus; species.

150
The chemical elements of species of the genus Artemisia L. of Ustyurt
Dilarom TAJETDINOVA
Author affiliations:
Institute of the gene pool of plants and animals, Academy of science of the Republic Uzbekistan
Contact details:
E-mail: dilarom.tajetdinova@yahoo.com
Address: 32, F. Hodjaev, c. Tashkent, 100125. Uzbekistan
Abstract
Salinization is one of the major environmental and production problems currently agricultural sectors in the
countries of Central Asia. The Ustyurt presented all known types in the Central Asian desert - sand, gypsum,
saline. Desert area covers the territory of Kazakhstan, Uzbekistan (Karakalpakstan) and Turkmenistan. In these
Republics are focuses on the development of scientific bases of reproduction, rational use of natural and
including plant resources. Providing with fodder problem, the solution of which depends on the presence
representatives of one of the dominant genus of desert - Artemisia L. in the flora Ustyurt are occupies a special
and important provision represents a huge scientific interest as the largest genus of deserts of the Central
Asia.According to their literary (Adilov et all.,1993; Sarbaev, 1994) was including 16 species of the flora of
Ustyurt.
During floristic study (2010-2013), the collection and study on plant specimens (TASH, AA) were found 1
(Artemisia campestris L.), new recordsfor the first time for the flora of Ustyurt. Among them were provided 2
species were new locality for the flora of Ustyurt. The 20 species belonging of the genus Artemisia L. had been
registered from Ustyurt. The database was established for ArtemisiaL.(TASH and AA) of the Ustyurt.
Specimens were identified primarily using the “Flora of Uzbekistan” (1941), “Flora of Kazakhstan" (1956),
“Flora of Turkmenistan” (1932), “Conspectus Florae Asiae Media” (1968) “Illustrated determinant of the
plants of Karakalpak and Khorezm” (1982).
Artemisia campestris L.in Sp. Pl. (1753) 846 et (1763) 1185.
Specimen seen AA:North of Ustyurt.3 km north-eastfrom Sam.The hilliest sand. 17.06.1987, Kudabaeva GM
Nelina N. Kyzylkum of Karakalpakstan: Aktau. Atamtayguzhumdy.MuravlyanskyK.27.04.1934. №377, 378,
379.
Others specimens seen TASH: Karaganda region. Mountains of Orta.Gravelly hills.28.08.1935, B. Mironov,
Pazy B. 797; River valley.Sarysu.To the west from the Myng-adyr.Plain.06.24.1937, V.Pazy. 740.
A study of chemical composition of some dominant species of Artemisia (A. terrae-albae Krasch. ,A. turanica
Krasch.) revealed that the species studied contains 38 chemical elements. In the composition of microelements
in aboveground dry matter field grown plants Ustiurt 16 transition metal (Re, Ag, Au, Co, Cr, Cu, Fe, Hf, Hg,
La, Mn, Mo, Ni, Sc, Ta, Zn), 2 semimetal (As, Sb), 4 alkaline earth metal (Ba, Ca, Mg, Sr), 4 alkali metal (Cs,
K, Na, Rb), one nonmetal (Se), 2 halo (Br, Cl), 7 rare earth (Ce, Eu, Lu, Sm, Tb, Nd, Yb) and 2-radioactive
rare earth (Th, U) elements. Re of them as part of rare plants.Using rhenium (Rhenium) in major productions
lamps, photographic flash, and thermostats. It is also used as a catalyst in some chemical reaction. This metal
is added to the alloys used for medical instruments and jewelery. Re additive compounds has been recently
used in some cancer patients.
Key words: Artemisia L.; Ustyurt; new records; species; chemical elements

151
Projection of future change in aridity index and evaporation ratio in the arid and semi-arid
region
Kenji TANAKA 1), Shunji KOTSUKI 2)
Author affiliations:
1) Disaster Prevention Research Institute, Kyoto University, Kyoto, Japan
2) Advanced Institute for Computational Science, RIKEN, Kobe, Japan
Contact details:
E-mail: tanaka.kenji.6u@kyoto-u.ac.jp
Abstract
Annual evapotranspiration approaches annual precipitation in arid and semi-arid regions where the available
energy greatly exceeds the amount required to evaporate annual precipitation. Evapotranspiration is a key
information for water management in the region where available water resources are limited.This study aims to
estimate the impacts of climate change on the aridity index (AI) and evaporation ratio (ER) using climate
model and land surface model. Surface energy and water balance is calculated by the land surface model
(SiBUC). The super high-resolution global climate model (MRI-AGCM3.2S) with 20km resolution provides
the present (1979-2003) and future (2075-2099) climate conditions. By analyzing the 25-year average value of
precipitation, available energy (net radiation), and evapotranspiration, AI and ER are calculated for each
climate condition. In general, ER is expressed by the monotonically increasing function of AI. Then, the
climate change signals for AI and ER are generally same. This tendency can be seen in Atacamadesert, Sahara
desert, Namib desert, Arabian Peninsula, Aral Sea, and Australia. On the other hand, some regions such as
California, Tibetan Plateau, and Gobi desert, have negative impact on AI and positive impact on ER. Negative
impact on AI is consequence of the increased precipitation. In those regions, not only the total amount of
precipitation, but also snowfall ratio will be affected from the climate change. Positive impact on ER can be
explained by the decreased snow-covered period.
Key words: aridity index; evaporation ratio; global climate model; land surface model

152
Seasonal development of indicator-saprob in the middle flow of the Zarafshan River
Yigitali TASHPULATOV
Author affiliations:
Department of Botany and Plant Physiology, Faculty of Natural Sciences, Samarkand State University
Contact details:
E-mail: yigitali_t1981@mail.ru
Address: University Boulevard 15, Samarkand, 140104, Uzbekistan
Phone: +998933432921
Abstract
Indicator-saprob organisms present ecological conditions of their living place. By searching spreading,
biomass, biologic-physiologic changes of the algae in the open water fields we can conduct ecologic
monitoring of ecotop.
Algae 5 section which including 331 types were found in the middle flow (from 1st May water reservoir to
Hatirchi region Samarkand province). From these 97 types, in other words, 29, 30% consists of indicator-
saprob algae. They are: 20 types are xenosaprob, 18 types are oligosaprob, 51 types are beta-mezosaprob, 5
alfa-mezosaprob and 3 types are polisaprobs.
59 types of algae were found in spring: from searching place: Merismopedia elegans A.Br., Stephanodiscus
dubius (Fricke) Hust., Stauroneis anceps Ehr., Navucula cryptocephala var. intermedia Grun., Diatoma
hiemale (Lyngb.) Heib., Synedra ulna (Nitzsch) Ehr., Cocconeis placentula Ehr., Gomphonema clevei Fricke.,
Euglena gracilis Klebs, in summer 45 types (46.39 %): Microcystis aeruginosa Kutz.emend.Elenk.,
Gomphosphaeria lacustris f. compacta (Lemm.) Elenk., Nostoc verrucosum Vauch., Oscillatoria nigra
Vauch., Fragilaria virescens Ralfs., Peridinium cinctum (O.F.M.) Ehr., Ulothrix zonata (Web.et Mahr.), 50
(51.54 %) types were found in autumn: Fragilaria capucina Desm., Synedra berolinensis Lemm.,
Trachelomonas hispida (Petry.) Stein. emend. Delf., Euglena acus Ehr., Pediastrum duplex var.cornutum
Racib. 29 (29,89 %) types were found in winter: Ceratoneis arcus var.amphioxys (Rabehn.) Brun., Synedra
ulna (Nitzsch) Ehr., Achnanthes lanceolata (Brev.) Grun., Euglena gracilis Klebs., Spirogyra tenuissima
(Hass.) Kutz. were mostly found.
In spring the index of saprob is much more than other season (1.67), in winter (1.22), in summer (1.47), in
autumn (1.52). The fact that, the limit of saprob is beta-mezosaprob in spring, and other seasons in of
oligosaprob. Medium index of saprob is equal to1.47 in other words beta-mezosaprob.
Under the influence of spring rains the index of saprob increased because of the increase of falling organic
elements and decreasing temperature to the river.
Increasing temperature of the water compared to other seasons in summer brought increasing of the algae in
the river. Increasing temperature and sun shine support producing much oxygen in the water by algae. It brings
about to increase speed of the split organic elements. As a result organic elements become less in the water.In
autumn the increase of the rains and decrease temperature of the water brought about to become less number of
indicator saprobs and increasing of index of saprob.
Low temperature in winter limits developments types of the indicator-saprobs.
Key word: algae; types; indicator-saprob types; beta-mezosaprob

153
Risk assessment of health of the population relating to the pollution of the environment
Zukhrakhon TILLYAKHODJAEVA
Author affiliation: Hydrometeorological Research Institute (NIGMI) of Uzhydromet
Contact details:
E-mail: tilla.79@mail.ru
Address: 72, 1st Bodomzor yuli street, Tashkent 100052,Uzbekistan
Phone: +998911332000
Abstract
Origination and growth of the number of diseases of the cardiovascular system, respiratory, oncology,
endocrine and other diseases largely depends on pollution and unfavorable environmental conditions, the
negative effects of human impact on natural resources. An important place in securing and maintaining the
capacity of health is the identification of risk factors and conditions of their occurrence.
The emergence and growth of a number of diseases of cardiovascular system, respiratory, oncology, endocrine
and other diseases depends largely on pollution and adverse environmental conditions, the negative
consequences of anthropogenic impact on natural resources.
Influence of water quality on human health is directly related to the effectiveness of existing preventive
measures for the protection of water basin from pollution and ways to clean drinking water. Study of the
influence of water quality on human health need for direct prediction of real consequence of pollution of water
sources for human health for the near and distant future. Health status is a reflection of a complex set of
phenomena in the environment. The process of its formation are influenced by a number of biological, socio-
economic, anthropogenic, climatic and other factors. Thus, according to the World Health Organization,
human health by 50-60% depending on the conditions and lifestyle, 15-20% of the state of the environment
and for 10-15% of the quality of care.
Slow and chronic exposure to low concentrations of the chemical components of the water, oppression
protective functions of the body by the respective degree reduce the overall resistance of the organism to other
damaging factors and are promoting increase overall morbidity, including incidence of infectious diseases by
reducing the of the immune confrontation.
In many studies, the development of cancers associated with the detection of underground water sources is
carcinogenic organic compounds of anthropogenic origin. Special attention at pesticide contamination of
surface waters. In particular, as the Republic of Karakalpakstan, Khorezm region, and Bukhara region, the
impact of underground water on population health is very high. The reason for these consequences is the
ecological condition and salinization of lands. The above-mentioned regions remain the leading diseases such
as kidney and urinary tracts diseases. In this case we consider only the diseases associated with surface water
and underground water. As the Karakalpakstan Republic and Khorezm region is situated in the lower reaches
of the Amudarya river, which is becoming a cause of the spread of infectious diseases. The population does not
attend enough attention to hygiene, boiling before using water from wells and irrigation ditches watershed that
is the cause of the highest rates of infectious intestinal diseases.
Thus the whole chain of the water cycle way or another will render its direct impact on the environment as a
whole and the person is fully dependent on it: "Soil -> Drinking Water -> person." Keeping in mind the
environment, we mean the interconnection of all the components of nature together, landscape and soil and
surface water and underground water air, etc Subsequently anthropogenic influence in the river basin are
affecting to the quality of water downstream.
A large number of works devoted to the dangers of anthropogenic chemical and biological pollution of
groundwater. In many studies with pesticide pollution of groundwater and surface water is associated risk of
increasing the level of cancers.
There was conducted an inventory of the existing system of observations over the surface water quality, and a
retrospective and spatial analysis of the quality of watershed of the republic, the identification of impacts of
anthropogenic sources of pollution on the ecological status of natural waters in Uzbekistan.
Key words: risk factor, underground water, pollution of the environment, chemical components.

154
Crops diversification and agricultural use of marginal water adaptation measures to
climate change
Kristina TODERICH1*), Temur KHUJANAZAROV 2) Elena SHUYSKAYA3) and Yoshiya
Touge4
Author affiliations:
1) International Center for Biosaline Agriculture (ICBA), Tashkent, Uzbekistan
2) Water Resources Research Center, DPRI, Kyoto University, Japan
3) K.A. Timiryazev Institute of Plant Physiology Russia Academy of Sciences, Moscow, Russia
4) 1) Graduate School of Engineering, Kyoto University
Contact details:
E-mail: krisitna@biosaline.org.ae
Abstract
Marginal water (brackish, drainage and hydrothermal artesian water) can become an effective source to cope
with increasing deficit of freshwater and low rainfall in the arid and semi-arid areas. The water collected from
drainage system after applied in irrigated fields is mostly highly mineralized in downstream of the rivers of
Central Asia. Usage of such waters can decrease water stress in the area and provide additional strategy for the
basin development under increased water demand in the downstream areas. There are several strategies
available that include: mixing marginal and fresh water to extend water supplies and to save fresh water when
possible, rotation of the high-value crops and lower-value salt-tolerant; diversifying water-intensive crops
towards salt-tolerant crops; rotations of crops with livestock forage production, promotion of dual-purpose
crops withstanding marginal waters irrigation.
This article includes original data collected during implementation of Desert Ecosystems and Livelihoods
project (DEL) within the period 2011-2014 on reclamation of marginal lands (abounded or salt affected lands)
in a downstream of Zeravshan river delta being high saline (186-200 mS/m 0.5m). We have identified
opportunities for agricultural demand into a model of closed river water systems management instead of open
canals that are largely practiced today. Virgin desert sites, characterized by several halophytic shrub-grass,
perennial halophytic-xerophytic grass and annual halophytic grass communities were turned into an
agroforestry, dual-purpose crops and halophytic pastures improvement trials. Hydrothermal artesian low
mineralized (2000.8200 mg l-1.) water was serving as a single source of irrigation in these desert ecosystems.
Despite of regional climatic disadvantage lower Stream of Zarafshan River in Uzbekistan it still has very high
agricultural water productivity compared to similar downstream areas of Syrdarya and Amudarya Rivers
Basin. Also any measures to increase yields (e.g. crop breeding towards salt-drought and heat tolerant
varieties, changed/or shifting sowing dates and fertilizers regime and/or to reduce crop losses from different
biophysical stress impact) simultaneously reduce unproductive water flows and increase overall water
productivity. Therefore, crop diversification systems based on salt-tolerant plant species are likely to be the
key to future agricultural and economic growth in the regions where salt-affected soils exist, saline drainage
waters are generated, and/or saline aquifers are pumped for irrigation. Incentives for farmers and
agropastoralists to invest in the rehabilitation and increasing productivity of marginal lands and to establish
small alliance (cooperatives) and investments in market outlets has to be considered as an important step in
promotion of adaptation measures to climate change. Our research on improved management of drainage
water quality for reuse, would address an urgent need in climate change adaptation, given the strong reliance
of downstream users on drainage water from upstream. The DEL project conducted by us in the downstream of
Zarafshan River basin provides an example which aims at sustaining natural resources and ecosystem services
and livelihoods through rangeland rehabilitation, utilization of low quality water for biosaline agriculture (tree-
farming, pond aquaculture, agroforestry, crop-livestock associations, silvicultural practices) and other income
diversification for rural communities.
Key words: marginal water; biosaline agriculture; ecosystem services; climate change adaptation; Aral Sea
Basin

155
Developing water circulation model in the Aral Sea basin based on in situ measurement in
irrigated area
Yoshiya TOUGE1*), Kenji TANAKA2), Kristina TODERICH3), Timur KHUJANAZAROV 2),
Eiichi NAKAKITA2)
Author affiliations:
1) Graduate School of Engineering, Kyoto University
2) Disaster Prevention Research Institute, Kyoto University
3) International Center for Biosaline Agriculture (ICBA), Tashkent, Uzbekistan
Contact details:
E-mail: toge.yoshiya.77n@st.kyoto-u.ac.jp
Abstract
In the Aral Sea Basin, serious drought has been induced as a result of irrigation projects. For sustainable
development, water resource and demand are required to be estimated from the past to the future as basic and
scientific information. However, accuracy of statistical estimation, which is popular in this basin, is uncertain
to estimate impacts of climate change or future irrigation projects.
Therefore, authors have tried to develop physical water circulation model in the Aral Sea Basin, which is
mainly composed of land surface model SiBUC. Through water and heat balance analysis, hydrological
processes, such as evapotranspiration and infiltration, can be physically calculated in the whole target area.
However, strong regionality in irrigation water management makes modeling process difficult. Thus, in situ
measurement was started from 2011 in two testing farms, which are Kyzylkesek and Bayavut sites located in
arid and semi-arid region, respectively. Since both sites are highly salinized, salt leaching is important
operation in seasonal irrigation cycle. Soil moisture and electric conductivity are measured at two depth by
WET-sensor (Delta-T), and DL/N70 (Koshin) was used to observe ground water level.
As a result, by comparing two sites, soil moisture in arid farm sharply fluctuated because of high intensity of
evapotranspiration and infiltration, on the other hand in semi-arid farm, it moderately changed since water is
supplied from high ground water level. By comparing with model output, fluctuation of analyzed soil moisture
was relatively higher especially in semi-arid farm since ground water level was not considered in the model.
Kew words: soil leaching; soil moisture; evapotranspiration ; water salinity; water calculation model; Aral Sea
Basin

156
Soil and hydrological survey for retrieving the characteristics of surface runoff on
Kourtimalei reservoir watershed in Djibouti
Hiromichi TOYODA1*), Sawahiko SHIMADA1),Tatsuya HIROKANE2), Ayako SEKIYAMA1),
Fadoumo Ali MALOW2), Tomoki HOTTA3), MichimasaMENJO3), Shinji SUZUKI1)
and Fumio WATANABE1)
Author affiliations:
1) Faculty of Regional Environment Science, Tokyo University of Agriculture, Japan
2) Graduate Schoolof Agriculture, Tokyo University of Agriculture, Japan
3) Engineering Division, NTC INTERNATIONAL Co., Ltd., Japan
Contact details:
E-mail: h1toyoda@nodai.ac.jp
Address: 1-1-1, Sakuragaoka, Setagaya, Tokyo, Japan
Phone: +81354772494
Fax: +81354772620
Abstract
Djibouti is located in the north-eastern part of Africa and the most of the land is covered by desert area.
Although Djibouti is a country with little rainfall, the high intensity rainfall, which may cause flood runoff,
sometimes occurs. When such rainfall occurs in the closed watershed, rainfall water accumulates in a basin and
the ponding area stays for several months. However, ponding water is lost by evaporation and infiltration to
ground in a few months later without utilizing it. In order to secure irrigation water in Djibouti, we attempted
to find a way to make use of the surface runoff water effectively.
We selected the Kourtimalei reservoir watershed as the target area of this study. We started to record the
weather data near the Kourtimalei reservoir and the water level data of the reservoir from August, 2012.We
also set up the rain gauges and pressure type water gauges at three places within this watershed area in June,
2013 for observation of precipitation and temporal surface water distribution. Furthermore, we have done the
field experiments on the infiltration capacity, the soil texture, and saturated hydraulic conductivity of the soil
where the rain gauges were set.
The relation between the rainfall and water level at the observation point was insignificant. The result suggests
the localized runoff was occurred by torrential rain within this watershed. We are in the process of collecting
data, and trying to clarify the regional distribution of the rain and the relationship between rainfall amount and
the water level of the reservoir.
Key words: surface runoff; reservoir; infiltration capacity; soil texture

157
Integrated research approaches to increase resilience and improve well-being: launching
the CGIAR Research Program on Dryland Systems in Central Asia
Jozef TUROK1*); Botir DOSOV1), Timur ABDURAKHMANOV2), Carlo CARLI2,9), Akmal
KARIMOV3), Mariya GLAZIRINA1), Mohan Reddy JUNNA3,8), Ravza MAVLYANOVA4),
Shukhrat MUKHAMEDJANOV5), Ram C. SHARMA1), Kristina TODERICH6),
Muhabbat TURDIEVA7) and Kai WEGERICH3)
Author affiliations:
1) International Center for Agricultural Research in the Dry Areas (ICARDA)
2) International Potato Center (CIP)
3) International Water Management Institute (IWMI)
4) AVRDC – the World Vegetable Centre
5) Scientific Information Centre of Inter-State Coordination Water Commission
6) International Center for Biosaline Agriculture (ICBA), Tashkent, Uzbekistan
7) Bioversity International
8) currently affiliated with Colorado State University, Fort Collins, USA
9) currently affiliated with Agriculture Division, CNF Floerger, France
Contact details:
E-mail: ICARDA-Tashkent@cgiar.org
Address: ICARDA-CAC, Osiyo Street, 6/106, 100000, Tashkent, Uzbekistan
Phone: +998 712372130/69
Abstract
The agricultural sector in Central Asia is experiencing considerable difficulties in the management of
production factors, specifically owing to soil and water salinity. The Soviet-era plan for development of
irrigated area around the Amu Darya and Syr Darya rivers caused irreversible damage to the environment
around the Aral Sea: ecosystem degradation, water quality and health issues, waterlogging and salinization of
agricultural and pasture lands. With the subsequent low productivity, the lives of the farmers are significantly
impacted. Climate variability, drought and extreme heat and cold stress exacerbate the situation in the Aral
Sea Basin, which comprises the largest area of persistent severe droughts in the world. In addition, people in
mountainous areas are eking their lives due to meagre agricultural and livestock production during short
growing season, mudslides, poor accessibility to agricultural inputs and markets, lack of access to credit and
agricultural extension, land degradation, lack of clean drinking water and heating in winter. Conversely, there
are areas, such as the Fergana Valley, where irrigated agriculture has been very productive. However, due to
high population density, lack of crop rotation, deteriorating state of irrigation and drainage infrastructure,
inadequate market conditions, sustaining the profitability of irrigated agriculture is becoming an issue. The
factors influencing agricultural production are inter-related and should be addressed through systemic,
integrated research. And the solutions need to be based on a multi-disciplinary approach in identifying, testing,
customizing, implementing and out-scaling relevant technology and innovation.
Following a two-year inception phase, the CGIAR Research Program on “Integrated Agricultural Production
Systems for Improving Livelihoods in the Dry Areas" – or Dryland Systems in short was launched in October
2013. The research agenda was developed by an inter-disciplinary research team composed of ICARDA as the
lead center and the partner international centers in close collaboration with national agricultural research
partners, policy makers, farmers’ associations and development organizations. The results of the inception
phase can be found at http://cac-program.org/projects/crp. The Program aims to pursue new technology,
institutional and policy options for enhancing productivity and managing risks through diversification,
sustainable intensification and integrated agro-ecosystem approaches in three selected Action Sites. These are
the Aral Sea Region, Fergana Valley and Rasht/Kyzyl-Suu Valley.
The presentation will provide background information about key factors in agriculture and opportunities to
address them through integrated research approaches; goals and expected impact pathways of the Dryland
Systems Program. Results of studies carried out to date, and projected joint research activities will also be
highlighted. They will lead towards (i) more resilient livelihoods for vulnerable households in marginal areas
and more sustainable; and (ii) higher income and well-being in the areas with high potential for intensification
in the Action Sites.
Key words: drylands; integrated research; marginal areas; irrigated agriculture; Aral Sea Basin

158
Comparison of grazing behavior of sheep between different herders in steppe region of
Mongolia
Aritsune UEHARA1*), Erdenechimeg AYUSH2), Onontuul GANBAATAR2)
and Seishi YAMASAKI3)
Author affiliations:
1) Rural Development Division, Japan International Research Center for Agricultural Sciences, Japan
2) School of Biological Resources and Management, Mongolian State University of Agriculture,
Mongolia
3)
Crop, Livestock and Environment Division,
Japan International Research Center for Agricultural
Sciences, Japan
Contact details:
E-mail: aruehara@affrc.go.jp
Address: 305-8686, 1-1 Ohwashi, Tsukuba, Ibaraki, Japan
Phone/Fax:
+81298386677
Abstract
Democratization in the early-1990s in Mongolia was one of trigger to change the systems of animal husbandry.
Demising collectives which called a negdel, and livestock privatization were some of the factors of transition
that management style of herders was changed from cooperatives to individuals. Specific skills based on
collaborative work were dispersed into each individual household, herders technique was differed individually.
The difference of this technique effects not only livestock productivity but also resistance against to the natural
disaster such as Dzud, which is animal loss by severe winter. And the difference of technique of each
household may affect herder’s livelihood, especially to the small herders. The objective of this study was to
compare the difference of grazing behavior of sheep on two different herder’s households. The experiment
was conducted on September 2012 at steppe region in Uvrkhangai province, Mongolia. Experimental animals
were wether of two years old and selected one sheep from two different herders (herder-A and herder-B)
respectively. The major difference between two experimental herders was the number of working person of
household. Small GPS device (iGot-u) was attached on the experimental sheep before start grazing of the first
day and removed after grazing of fifth day. Latitude, longitude and the time were measured. Distance was
calculated from latitude and longitude and grazing speed was calculated from distance and the time. Then 30-
point moving average of grazing speed at each time was calculated. Start time of grazing of each day was
almost same in herder-A. But in herder-B, the start time was different on each day. In herder-A, grazing
speed exceeded 1.5 km/h was seen only in the morning, but in herder-B, grazing speed exceeded 1.5 km/h was
seen not only in the morning but also in the afternoon. The length of transferred periods will affect time of
forage intake. This means the sheep of herder-A seems to be transferred first to the suitable area then start
grazing. But the sheep of herder-B seems to be grazing with searching grassland.
Key
words:
g
razing behavior; grazing speed; nomadic sheep, Mongolia, steppe

159
Evaluation of interpolation methods for spatial modeling of reference evapotranspiration
using modified Hargreaves equation
Saidislomkhon USMANOV*), Yasuhiro MITANI, and Tetsuya KUSUDA
Author affiliation:
Department of Civil Engineering, Graduate School of Engineering, Kyushu University
Contact details:
E-mail: said@doc.kyushu-u.ac.jp
Address: 774 Motooka, Nishi-ku, Fukuoka 819-0395, Japan
Phone: +81928023399
Fax: +81928023396
Abstract
Accurate estimation and interpolation of reference evapotranspiration (ETo) is very important in arid and semi-
arid environment.This is often problematic reasoning insufficientof full climate data set and scarce of
meteorological stations especially in developing countries. Reliable ETo are required for sustainable water
management in agricultural water management, improving crop water productivity and other hydrological
analyses.The Hargreaves semi empirical model only requires temperature data to estimate ETo but calibration
is needed under the local climatic condition for acceptable prediction accuracy. This paper introduces the
procedures of generation of accurate ETo surface from a locally calibrated Hargreaves semi empirical model
for Tashkent province, Uzbekistan. In this studythe Hargreaves model was calibrated under climatic conditions
of Tashkent province. The meteorological data was obtained from 14 weather stations within Tashkent
province for 2009-2012 and the original empirical coefficient (0.0023) of the Hargreaves equation was
modified using standard Penman Monteih FAO 56 (FAO-56 PM) model estimates for every month of the
years.The FAO-56 PM model is considered to be the most accurate model to estimate ETo under a variety of
climatic conditions (Allen et al., 1998). For that reason FAO 56 PM model was selected to calibrate the
Hargreaves model in this study.
Statistical comparison was made in ArcGIS platform (ver. 10, 2 ESRI, Redlands, Cal) among deterministic
(inverse distance weighting, spline and natural neighborhood), geostatistical (Kriging and Co-kriging) and
regression (Ordinary Least Square and Geographically WeightedRegression) methods to evaluate the
performance of interpolation methods, concerning suitability for spatial prediction of monthly average ETo.
The best interpolation model of ETowas obtained from Co-kriking methods using elevation data as an
auxiliary secondary variable. The results revealed that the incorporation of elevation improved spatial
prediction of ETo in Tashkent province. The spatial distribution maps of ETo indicated that the ETo value
decreased from southwest to northeast as the altitude increased in the study area.
The modified Hargreaves model provided the best performance to estimate ETo in Tashkent province as an
arid and semiarid climate. Over and under estimations of ETo with the original Hargreaves model were
significantly reduced by 80 % as an average using new empirical coefficients for all 14 weather stations.
New monthly empirical coefficients were very sensitive depending on spatial and temporal changes. The
variation coefficient of new monthly adjusted empirical coefficients for 2009-2012 were estimated to be very
small particularly in vegetationperiods (Mach-September).
Key words: arid; interpolation; geostatistics; reference evapotranspiration

160
The spatial distribution of C4 chenopods of Kyzylkum Desert flora along a salinity and
relief gradients
Pavel VORONIN1), Elena SHUYSKAYA1*), Kristina TODERICH 2), Toshpulot RAJABOV3)
and Naoko MATSUO4)
Author affiliations:
1) K.A. Timiryazev Institute of Plant Physiology RAS, Russia
2) International Center for Biosaline Agriculture (ICBA), Tashkent, Uzbekistan
3) Department of Environmental Research, Samarkand State University, Uzbekistan
4) Graduate School of Bioresources, Mie University, Japan
Contact details:
E-mail: evshuya@gmail.com
Address: Global photosynthesis ecology laboratory, K.A. Timiryazev Institute of Plant Physiology, RAS,
Russia, 127276, Moscow, Botanicheskaya ul. 35
Abstract
This collaborative study suggests soil salinity and soil moisture regimes that further understanding of on
distribution of C3 and C4 plants is by landscape elevation. It was determined that halophytic flora of
Kyzylkum Desert comprises mostly by C4 species that occurring mostly in salt depression and saline plains.
There is a strong positive correlation between soil salinity and moisture and botanic diversity of plants in the
sandy desert soils. Low soils salinity content of high elevation landscape in Kyzylkum Desert is accompanied
by a sharp decrease of halophytes occurrence. During the summer extremely dry and hot period C4 pathway
could give plants an edge in the competition with C3 plants for occupation of plots with low soil salinity and
water content. Though, the distribution of C4 chenopods also decreases with elevation in Kyzylkum Desert.
The natural occurrence of plant associations with C4 chenopods achieves 80% at the lands with elevation in
the range from 50 to 200 m and falls to 20% from foothills towards medium mountains landscapes with the
elevation higher than 200 m above sea level. The positive correlation between soil salinity and soil moisture,
change of ratio of C4 chenopods in the plant associations along landscape elevation support the hypothesis that
Chenopodiaceae C4 syndrome presents an evolutionary response of the C3 chenopods to topographical soil
desalination and increasing aridity of Kyzylkum Desert.
Key words: C4 photosynthesis; Chenopodiaceae; landscape; soil salinity; adaptation

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163
Transfer and localization of sericulture technology for redeveloping silk industry in
Central Asia - an integrated effort of research, education and extension by Tokyo
University of Agriculture and Technology
Masaaki YAMADA1*), Yoshiko KAWABATA2),Mitsuo OSAWA1), Makoto IIKUBO3)
and Vyacheslav APARIN 4)
Author affiliations:
1) Institute of Agriculture, Tokyo University of Agriculture and Technology
2) International Center, Tokyo University of Agriculture and Technology
3) The United Graduate School of Agriculture Science, Tokyo University of Agriculture and Technology
4) Hydrogeology and Engineering Geology Institute, Ministry of Geology of Republic of Uzbekistan, Republic
of Uzbekistan
Contact details:
E-mail: masaakiy@cc.tuat.ac.jp
Address: 3-5-8 Saiwaicho, Fuchu, Tokyo 183-0054, Japan
Phone: +81423675886
Fax: +81423675890
Abstract
Tokyo University of Agriculture and Technology has been collaborating with Ministry of Agriculture and
Water Resources (MAWR) of the Republic of Uzbekistan and Uzbek Research Institute of Sericulture (URIS)
in two projects, under the partner-type grassroot technical cooperation scheme of the Japan International
Cooperation Agency (JICA). The initial project was titled “Revitalization of the Silk Road Silk Industry in
Uzbekistan - Developing a Rural Income Generation Model by the Improved Sericulture in Fergana Valley”
(September 2009-August 2012), and the second one is ongoing “Technical Cooperation Project for Promotion
of the Silk-Road Industry in Uzbekistan - Developing a Technical Transfer Model to Increase Sideline Income
of Remote Villages” (March 2013-September 2015). After successful conclusion of the first project in the
favorable environment of Fergana Basin, the University and local counterparts planned its subsequent step in
one of the harshest climate of the country to test nationwide applicability of introduced sericulture technology
in Uzbekistan. In 2013, the second project was launched at four farming hamlets, namely Shavat (15 families)
and Buyrachi (1 family) Townships, and Beshmergen (10 families) and Hitoy (6 families) Rural Citizens'
Assemblies of Shavat District (41°39'36" N 60°17'24" E) in Xorazm Province. The Japanese Kinshu × Showa
autumn-breed and Shungetsu × Hosho spring-breed silkworms (Bombyx mori) were distributed to cocoon
producers, and experts were dispatched from Japan to cooperate with Uzbek counterparts (government
administrators, researchers, sericulturists, textile manufacturers, and cloth-goods producers and retailers) for
facilitating reestablishment of local silk industry. All participating farmers received regular technical visits,
and were asked about their impression and evaluation of the introduced silkworm breeds and rearing systems.
Participant farmers of the project were satisfied with the increased cocoon harvests, and expressed their
interest in acquisition of Japanese mulberry (Morus alba) cultivars which may better feed the voracious
Japanese silkworm breeds. Besides, a laborsaving technique with plastic net for removal of leftover mulberry
branches and silkworm feces on the rearing bed received special appreciation of farmers. The Uzbek
government adopted a policy to promote sericulture nationwide, and requested continuous technical
cooperation from the University on silkworm foundation stock and improved lines.
Key words: T.U.A.T.; outreach; international technology transfer; Khorezm Province; silk thread

164
Soil salinity and gypsum content in soils of piedmont plain of Turkestan ridge (Uzbekistan)
Irina YAMNOVA 1*) and Dmitriy GOLOVANOV2)
Author affiliations:
1) Dokuchayev Soil Science Institute, Russia
2) Geographical Faculty of Lomonosov Moscow State University, Russia
Contact details:
E-mail: irinayamnova@mail.ru
Address: V.V. Dokuchaev Soil Science Institute, 7 Pyzhevskii per., Moscow, 119017 Russia
Abstract
The digital maps of soil salinity, gypsum, and gypsum pedofeatures in soils (gypsic calcisols, gypsisols, and
solonchaks) of the Dzhizak experimental station (Uzbekistan) are compiled from the results of soil survey
conducted during 1980 and 2008, using digital elevation model (DEM) and remote sensing data. The study
area represents a part of the Golodnaya Steppe piedmont plain to the north of Turkestan ridge. The macro- and
micromorphological descriptions of gypsic horizons made it possible to distinguish three different
morphotypes. The morphological features of gypsic horizons were classified, and their distribution map was
prepared using GIS tool. The spatial distribution of different morphotypes of gypsic horizons showed distinct
correlations with the soil salinity, the groundwater level, and the character of soil water regime. It was
established that the presence of different gypsic horizons should be taken into account in the new substantive-
genetic classification of Russian soils at high taxonomic levels. Studies completed after 20 years, when the
groundwater level dropped by about 1 m, confirmed that the gypsum content decreased in soils; however, the
major morphotypes were preserved. The micromorphological investigations demonstrated that certain changes
took place in the microfabric of gypsum pedofeatures. Thus, fine dispersed crystals of gypsum disappeared
from the soil profiles, and the number of pseudomorphic substitutions of calcite for gypsum crystals increased
significantly attesting to the progressive calcification of soil profiles.
When comparing the results obtained to determine the gypsum content in the horizon of its maximum
accumulation in the same soil pits described in 1987 and 2008 it seemed reasonable to conclude: the gypsum
content showed changes being practically decreased in all the soil pits under study; its decrease varied in a
wide range: absolute decrease accounted for 2.5 to 70%, relative decrease – from 5 to 50%; there is no linear
correlation between the initial content of gypsum in 1987 and its content in 2008 (R2=0.0002); at the same
time, there exists a clearly expressed dependence between the decrease in gypsum and its initial content
(R2=0.82 for absolute and R2=0.56 – for relative decrease).
It gives the possibility to assume that the gypsum decrease resulted from dropping the groundwater depth may
be described by using the following exponential dependence:
dX/dt = - kX, а X = X0 * exp(-kt) +C,
where X0 – initial content of gypsum, t - time, k and С – constants determined empirically.
Based upon the data obtained in 1987 this equation allows not only compiling the map of gypsum content in
soils for 2008 but also forecasting its content for the next 20 years under the unchangeable conditions (climate,
groundwater depth, land-use regime).
Soil salinization is closely related to the behavior of gypsum.
Key words: digital mapping; gypsum; micromorphology; soil salinity; Uzbekistan

165
90 100 110 120
40
50
90 100 110 120
40
50
AO
SOI
Fig. 1 Link of precipitation with AO and SOI
(significance level < 0.05).
Teleconnection of rainfall in inland Mongolia with global sea surface temperature
H. YASUDA1*), R. BERNDTSSON2), N. BANZRAGCH1,3), T. KAWAI4), A.KAWAMURA5)
and M. SHINODA6).
Author affiliations:
1) Arid Land Research Center, Tottori University, Japan
2) Division of Water Resources Engineering, Lund University, Sweden
3) Institute of Meteorology, Hydrology and Environment, Mongolia
4) Research Institute for Natural Hazards & Disaster Recovery, Niigata University, Japan
5) Graduate School of Urban Environmental Sciences, Tokyo Metropolitan University, Japan
6) Graduate School of Environmental Studies, Nagoya University, Japan
Contact details:
E-mail: hyasd@alrc.tottori-u.ac.jp
Address: Hamasaka 1390, Tottori 680-0001, Japan
Phone/Fax: +81 857 21 7033
Abstract
While Mongolia is located in inland Asia, there are effects of teleconnection of rainfall time series. Significant
cross-correlations of precipitation time series with Southern Oscillation Index (SOI) and Arctic Oscillation
(AO) are found out. Both correlations with SOI and AO are negative as shown in Fig. 1.
Summer rainfall of various areas in Mongolia
indicated significant correlations with sea surface
temperature (SST) of some regions over the Oceans.
Some sea regions indicated positive correlations and
others indicated negative correlations. There are
positive and negative correlation of summer rainfall in
various areas in Mongolia with the southern Pacific
and northern Atlantic Ocean respectively. Examples of
positive and negative correlations are shown in Fig. 2.
Summer rainfall at almost all of area in Mongolia
indicates positive correlations with SST over the
southern Pacific Ocean and that at most of Mongolia
indicates negative correlations with SST over the
northern Atlantic Ocean. Difference of SST time
series of some pairs of sea regions with positive and
negative correlation indicated higher correlation with
the summer rainfall. So, these pairs of sea regions
suggest the dipole effect.
Key words: Mongolia; precipitation; sea surface temperature; teleconnection.
Fig. 2 Significant correlations of SST with summer rainfall in Mongolia.

166
National action plan on afforestation mobilisation in Turkey
Ozlem YAVUZ
Author affiliations:
Division Director of Combating Desertification, General Directorate of Combating Desertification and
Erosion, Ministry of Forestry and Water Affairs, Ankara, Turkey
Contact details:
E-mail: ozlemyavuz@ormansu.gov.tr
Abstract
The problems evolving due to climate change and global warming as a result of greenhouse gases released into
the atmosphere are increasing day by day. Our country is among the countries that would be affected severely
by these problems. In order to re-establish the greenhouse gas balance in the atmosphere, greenhouse release
should be decreased as well as the carbon sinks should be increased.
Our greatest aim is to increase the forestlands, which are important carbon sink areas, in order to have a
balance in the greenhouse gases in the atmosphere. On the soonest occasion, forest assets should be increased,
degraded forests should be rehabilitated, soil loss through lakes, dam reservoirs and seas should be prevented
by combating erosion. Therefore, we must mobilise resources of our country and accelerate the works in order
to achieve this aim as soon as possible.
Between 2008 and 2012, Turkey conducted a national action plan depending on voluntary actions held by
various partners, ranging from individuals to public institutions, private sector, schools, universities, NGOs
and so on. With the action plan, afforestation and rehabilitation of 2.3 million ha area was aimed. The need for
coordinated work among the public bodies and institutions as well as all the parties of the community is
prescribed. First seedling was dibbled by the President. Within the scope of the action plan, many projects
were put out suitable to the social structures and needs of the country; some projects can be listed as fallows;
“15 million seedlings for 15 million students” campaign organized and seedlings were planted in all provinces.
Private sector (companies, banks etc.) gave great importance to private afforestation activities and they have
been increased as much as 5.5 times. Companies promoted their members and gave them seedlings.
Government promoted farmers for guaranteed purchase seedling production. Turning out to become a race,
targets were exceeded and 2,42 million ha area is rehabilitated. After this action plan, public awareness on
afforestation has increased.
Key words: desertification; afforestation; rehabilitation

167
International training on land degradation in Turkey
Ozlem YAVUZ
Author affiliations:
Division Director of Combating Desertification, General Directorate of Combating Desertification and
Erosion, Ministry of Forestry and Water Affairs, Ankara, TURKEY
Contact details:
E-mail: ozlemyavuz@ormansu.gov.tr
Abstract
General Directorateof Combating Desertification and Erosion is considered as theeducatingcountry on the
Combat Desertification, Afforestation, Erosion Control, Integrated Watershed Rehabilitation techniques,
especially by UN and other international organizations. To share these experiences with other countries,
especially the DevolopingCountries, Turkey regularly arranges training programs.
The Regional Technical Cooperation Project about Land Rehabilitation/Combat Desertification and Forestry
prepared with TIKA, put into practice to the20 developing countries (Albania, Afghanisthan, Pakistan, Syria,
Palestine, Senegal, Etiopia, Sudan, Bosnia Herzegovina, Macedonia, Montenegro, Kosovo, Moldovia,
Ukraine, Georgia, Azarbaijan, Turkmenistan, Kazakhstan, Kyrgyzstan, Tajikistan, Uzbekhistan, Mongolia). In
2009 a training course on Watershed RehabilitationTechniques was given to the 211 experts from17 countries’
participants. After the training, certificates are given to the participants.
In the evaluations the participants stated that the training was intense but very useful, the theoric courses and
field works are completing each other. The participants from Africa told that they specially want to benefit
fromTurkey’sexperience in combating wind erosion. The participants from the Balkan countries expressed that
they want to cooperate withTurkey on these edling production and land rehabilitation subjects and if they
apply these trainings in their countries they would done an important job, and want these trainings to continue.
Among the countries of theregion, exchange of information shall be carried out for the role of
nongovernmental organisations in seed and seedling production, erosion control, afforestation, developing
seedling techniques, participatory and integrated watershed management and land rehabilitation; experience
shall be gained, there will also be some indirect contributions of development of regionalcooperationand in the
long term the project will be helpful in reducing the effects of climate change and desertification.
Keywords: cooperation; desertification; erosion; capacity building

168
Preliminary results of experimental arid land afforestation in the Central Anatolia region
of Turkey
Oktay YILDIZ1), Ernaz ALTUNDAĞ2), Bilal ÇETİN1), Ş. Teoman GÜNER3),
İsmail GURSOY3), Murat SARGINCI1), Bulent TOPRAK1) and Özgül MUTLU1)
Author affiliations:
1) Düzce University, Forestry Faculty, Turkey
2) DuzceUniversity, Faculty of Art and Sciences, Turkey
3) General Directorate of Forestry, Turkey
Contact details:
E-mail: oktayyildiz@duzce.edu.tr
Address: DüzceUniversity, Forestry Faculty, Konuralp, 81620, Duzce, Turkey
Phone: +905336343670
Fax: +903805421136
Abstract
The study is conducted as an experimental aridland afforestation practice in Aksaray, Incesu, Karapınar and
Emirgazi located in the step region of Central Anatolia. Russian-olive, locust, ash and black-pine are used as
tree species in the experiment. These are the most promising ones for aridland afforestation practices in the
region. Seeds are collected from the region and seedlings are grown in Ereğli and EskişehirForest nurseries. In
three of the treatments, Amygdalusorientalis, Calligonumpolygonoides and Spartiumjunceumare included as
shrub species. Onobrychisviciifolia, Vicia sativaandAtriplexhortensis were selected as herbaceousto include
intwo ofthe treatments.
The study areas are scattered in the region from the vicinity of TuzGölü (Salt Lake) Aksaray and extended
through to southern part of the plateau in İncesu, Karapınar and Emirgazi. This area covers the driest part of
the region with less than 300 mm annual precipitation and 11 C0 average temperature. Randomized block
design is used for the experiment. Treatment are included; 1-Only tree, 2-Tree + shrub, 3-Tree+shrub +
herbaceous, 4-Shrub+herbaceous. Tree control units without any plantation or seeding are scattered in each
block.
At the end of summer 2012, sub-soil down to 80 cm depth were ripped using a caterpillar tractor equipped with
three-shank ripper (220 HP). Then the surface soil was tilled with a 4 x 4 rubber-tired tractor equipped with
two shank ripper to prepare beddings for planting. In December 2012, 1+1 (for broad-leaved) and 2+1(for
pine) seedlings were planted using 3 x 3 spacing.At the beginning of the experiment soils were sampled for the
first 20 cm depth at 5 randomly located spots in each experimental unit. Two sets of soil sample were taken at
each spot. The first set of the soil samples were used for bulk density measurement. The second set were used
for physical and chemical analysis.
Soil texture forthe first 20 cm soil depth were ranged from clay to sandy clay loam with less than 1 % organic
matter content. Average bulk density were 1.2 g cm-3. Soil pH were around 8. CEC were35 Cmolckg-1. Lime
concentration of soil is more than 30 %. Soil moisture throughout summer of 2013 were less than 2 % by
volume across all the treatment sites.
At the end of the first vegetation season the highest survivalfor the tree specieswith 85 % rate were measured
for Russian-olive. The same figure for locust was around 76 %. For the shrubs, almond were the most
successful species with more than 90 % survival rate. Spartiumwere the second successful shrub species with
70 % survival rate. Calligonumhad the lowest survival rate with about 30 %.Germination rate forVicia
sativawas around 70 %, but it was declined to 50 % for atriplex.The growth performance of these species will
be evaluated for the next several years for their potentials usage in afforestation practices in the region
Key words: aridland; Turkey; afforestation; Anatolia
Acknowledgement
This study is funded byTÜBİTAK (The Scientific and Technological Research Council of Turkey) through a
project no: 112O946 and titled as “Kurak Bölge BitkilendirmesindeFarklıAğaç, Çalıve Otsu
TürlerKullanımınınFidanBüyümesiveBeslenmesiileBazı Toprak DeğişkenlerineEtkisi

169
Evaluation of the ecological role of seed gum in the germination of Prosopis under drought
stress conditions
Kiyotsugu YODA1*), Ryo MIYAWAKI2), Tadaomi SAITO2), Mohamed ELBASIT3),
Ahmed ELDOMA4), Tomoe INOUE5), Hiroshi NAWATA6), Hiroshi YASUDA5), and
Wataru TUJI2)
Author affiliations:
1) Faculty of Science and Engineering, IshinomakiSenshu University, Japan
2) Faculty of Agriculture, Tottori University, Japan
3) Faculty of Science, University of Johannesburg, South Africa
4) College of Forestry and Range Management, Sudan University of Science and Technology, Sudan
5) Arid Land Research Center, Tottori University, Japan
6) Faculty of International Resource Sciences, Akita University, Japan
Contact details:
E-mail: yoda@isenshu-u.ac.jp
Address: 1 Shinmito, Minamisakai, Ishinomaki, Miyagi 986-8580, Japan
Phone: +81225227716
Fax: +81225227746
Abstract
Mesquite (Prosopis juliflora (Sw.) DC.), native to South to Central America and Caribbean, has been
introduced repeatedly into arid and semi-arid regions of the worldto solve the problem about desertification.
Recently, however, this species spreads widely and invade into agricultural fields rapidly, inducing a threat to
human subsistence. In arid regions, rainfall occurs in irregular and intensively, and soil desiccates
immediatelyafter a single rainfall, such as ‘wet-dry cycle’ of soil. To access and control the invasion of
Prosopis under such fluctuating condition, we focused on the establishment process of Prosopis seedling,
especially the property of seed germination. Prosopis seed has ‘seed gum’, composed mainly of polysaccharide
such as galactomannan (GM).The purpose of the present study was to evaluate the ecological role of this
saccharide for seed germination and seedling establishment.
Germination tests of P. juliflora were done under eight osmotic potentials using PEG solutions (0, -1.0, -1.5, -
1.6, -1.7, -1.8, -1.9 and -2.0MPa: 20 seeds per osmotic condition, with three repetitions), which simulated
different drought stresses, during eight days in 30˚C incubator.All these conditions were common in the
following three experiments. Experiment 1: Intact seeds were soaked into theeightPEG solutions, and recorded
the number of germinated seeds. Experiment 2: After been imbibed enough in distilled water, intact seeds were
divided in two groups and GM of the imbibed seeds in one of them were removed. Intact and GM-removed
seeds were soaked into three PEG solutions (-1.5, -1.7, -1.9MPa), recorded the germination rate and radicle
length. Experiment 3: Other sets of intact and GM-removed seeds (both imbibed) were dried up in wind for
one or two weeks, and soaked again into PEG solutions (-1.5, -1.7, -1.9MPa), then germination rate and radicle
length were recorded.
Germination rates of seeds in 0 and -1.0 MPa treatments were 100%, that in -1.5 MPa condition was slightly
lower, and the rate decreased according to much lower osmotic potentials. Generally, -1.5MPa is a wilting
point and fail to germinate for many plant species, thus the former results indicate that Prosopis seed is highly
drought tolerant. Intact seeds showed higher germination rate than GM-removed seeds in -1.5 and -1.7MPa
treatments, and the germination rate between the intact and GM-removed seeds was not significant in -1.9MPa
treatment. Radicle length of intact seeds was longer in -1.5MPa than in -1.7 or -1.9MPa treatments, which
suggest that GM might act as substrate for root growth in moderate drought stress condition. Both after one or
two weeks desiccation treatments, intact seeds kept germination rates similar to those of no-desiccation seeds
in every osmotic conditions, and higher than those of GM-removed seeds. These results suggest that seed gum
(GM) has some role to keep germination ability of Prosopis seeds throughwet-dry cycle in rainy season of arid
environments.
Key words: imbibitions; Prosopis; seed gum; wet-dry cycle

170
Adaptation of soybean in the condition of continental climate of Uzbekistan
Dilarom YORMATOVA
Author affiliation:
Uzbek State Word Language University
Contact details:
E-mail: soya-oliva@mail.ru
Abstract
Among the numerous problems occurring in the period of consolidation of sovereign Republic of Uzbekistan,
one of the important problem is ensuring the requirements of the national economics of vegatabling of protein
and oil. Accumulative information’s don’t give permission for making a generalization about possibilities and
expedience’s growing of soya at the dry and hot climate of Uzbekistan and other republics of the Middle Asian
region.
In 1976, sorts were landed at a different zone of USSR with the purpose of revealing the most suitable place
for growing in our condition.There were a lot of sorts of soybean, which were 60 sorts, of Krasnadarskiy krai
were 18 sorts were landed, in Ukraine 10 sorts, in Moldavia and Georgia 8 sorts, in Amur region 12 sorts, at
another region there was gathered 12 sort from native people.
For receipts of contrast information collection of sorts except the drain age-basin of the Zarafshan River, with
the relatively hot climate soya was sowed in the district of Kasan, in Kashkadarya region, where in Summer
maximal temperature rises up 500C. Climatic characters of regions researching was shown at the table 1.
Sorts of Krasnodar, Ukraine, Moldavia and another regions prolonged time are growing under the temperature
in Summer about 350C.The humidity of air also doesn’t put down lower 40-50%.
In the Valley of Zarafshan River temperature of air in the mother after sowing in May reached to 300C and in
the middle of May frequently reached up to 380C. in June when soya blossoms, it rises higher, in several days
it reaches to 400C and higher there.
In the Karshi steppes the district of Guzar was selected, as one of the hottest regions.
By the middle of June the temperature was higher than 300C. In July it was marked higher than 450C and even
it reached to 500C. The humidity of air was lower about 20%.
Investigation shows, that all of the sorts, independently of the other, where they were sowed earlier, in the
condition of Uzbekistan remarkable is accelerated ripening. Even ultra precocious sort of Amur region was
accelerated ripening in 30-35 days during spring, and in 22-25 days in summer sowings. In the sorts at periods
of the vegetation in 70-80 days shortening periods of the vegetation in 2-3 days didn’t play an essential role;
but in the sorts at periods of the vegetation more 90 days; seeds are ripen in 10-12 days earlier and it would be
of much importance and etc, after harvesting soybean even in July-August didn’t allow to cultivate reaping
cultures.
Consequently, in the sorts of soya, ripening in Karshi steppes was limited by only thermal regimes and
humidity of soils, although elements of technologies of growing were identical.
Key words: soybean; drought tolerance; Karshi steppes; deficit of irrigation; Uzbekistan

171
Genetic diversity of Gray Mangrove (Avicennia marina (Forssk.) Vierh.) growing on the
Red Sea Coast
Ken YOSHIKAWA*), Ichidoh YOSHIMORI and Aiko ISHIHARA
Author affiliation:
Graduate School of Environmental and Life Science, Okayama University
Contact details:
E-mail: kenchan@cc.okayama-u.ac.jp
Address: 1-1-1 Tsushima-naka, Okayama Japan 700-8530
Phone/Fax: +81-86-251-8376
Abstract
From the survey of satellite image, 248 mangrove stands were identified on the Red Sea Coast of Egypt, Sudan
and Saudi Arabia. Size of these stands ranged from 0.05 to 450 ha and about 30ha in average. Coastal dry
hinterland of the Red Sea was dotted with such small stands at a mouth of wadi and/or in small lagoon.
Average distance between adjacent stands was 20km, which was long enough to be a barrier of propagule
dispersion. They can grow under severe environmental conditions with heavy destructive pressures including
overgrazing by livestock, overuse by local people, coastal line development by government and global climate
change. To analyze the changes of genetic diversity in regional scale, leaf samples were collected from 3368
trees in 60 stands on 1600km coast of the Red Sea from Egypt to Sudan. Genetic structure was analyzed by six
microsatellite markers and allelic richness of each stand was calculated. Because of the low possibility of
genetic exchange among stands with longer distance, significant trend of gradual decrease in genetic diversity
was detected from south to north. Two types of genetic group were detected by the structure analysis and these
genetic groups showed rather discrete distribution in northern and southern part of the coast, respectively.
Compared with the northern group, genetic composition of the southern group was more ancestral which
suggested the direction of gray mangrove extension along the African Red Sea coast from south to north. The
effect of current direction on the expansion was discussed.
Key word：forest structure; genetic diversity; Gray Mangrove; Avicennia marina; Red Sea Coast

172
Conservation agriculture: a sustainable system to improve sorghum yield in rainfed areas
Southern Gedarif State, Sudan
Lotfie A. YOUSIF1*) and Ebtehag H. BABIKER2)
Author affiliations:
1) Agricultural Engineering Research Program, Agricultural Research Corporation (ARC)
2) Agricultural Economics Research Program, Agricultural Research Corporation (ARC)
Contact details:
E-mail: lotfie.yousif@yahoo.com
Address: Gedarif State, Sudan
Phone: +249121355569
Abstract
Rainfed agriculture in Gedarif state, Eastern Sudan represents the main producer of sorghum, the stable crop.
The conventional farming system (CFS) for sorghum is achieved by the use of Wide Level Disk (WLD) for
seedbed preparation and broadcasting seeds and no use of fertilizers besides hand weeding. The resultant is
low sorghum yield compared to potential. Conservation agricultural system (CAS) was tested elsewhere and
proofs its efficiency. This system could be accomplished by seeding crops directly in previous crop residues
via special planter concurrently with applying fertilizers and herbicides. However, the integrated effects of the
technical packages used in CAS were not studied collectively yet. Sustainable improvement of sorghum yield
is necessary to secure food for the growing population this could be attained through implementing a new
adaptive cropping system. The objective of this study was to assess the performance of rainfed sorghum under
CFS and CAS in rainfed areas. The CAS was conducted during two seasons (2012/2013 and 2013/2014) in 21
ha in farmer's fields Southern Gedarif State and compared with the neighboring CFS fields. The soil is heavy
cracking clay soil. The effective rainfall occurs during July to September, with annual rain amount of 600 mm
or more. Data on machines performance, soil moisture, and sorghum yield were taken simultaneously from
each system. Economic evaluation including partial budget and sensitivity analysis was also implemented. The
results indicated that the required time to established one hectare was 0.65 and 0.86 hour for CAS and CFS,
respectively. CAS conserved 25% of fuel consumption. Visual assessment showed that CAS field was free of
weeds compared to CFS field. CAS significantly out yielded CFS by four folds. Economic and sensitivity
analysis showed the profitability of CAS. The breakeven point was 964 kg/ha for CAS and 375 kg/ha for CFS.
Farmers in rainfed areas can obtain higher and economic sorghum yield by practicing CAS. The effect of CAS
on environment and soil need more experimentation.
Key words: dry land farming; conservation agriculture; sustainable sorghum production; Gedarif- Sudan

173
Development and introduction of resource-saving technologies of winter wheat cultivation in the
conditions of the Republic of Karakalpakstan
Z.S.SULTANOVA1*), E.P.SADIKOV 2), D.UTAMBETOV3)
Author affiliations:
1) Nukus branch of Tashkent State Agrarian University
2) Karakalpakstan Research Institute of Agriculture
3) Karakalpakstan Agricultural Firma on producing oil seeds cultures
Contact details:
E-mail: z_sultanova@yahoo.com
Abstract
Weather and climatic conditions of the Republic of Karakalpakstan are distinguished by unfavorable
conditions in winter-spring period, soil salinity within an area, leading to a reduction in wheat yield. Our task
was to develop and implement agro-technical activities to overcome the impact of unfavorable factors during
winter wheat cultivation. There is evidence in the literature that legumes have a beneficial effect on growth,
development and grain production of winter wheat. The main aim of our studies conducted during 2012 -
2013 within framework of national innovation project were to determine the impact of legume predecessors
such as mung and soybean on yield formation of Tanya and Krasnodar 99 winter wheat varieties. Field
experiments were conducted in “Seyit" dehkan- farm” in Nukus district at the area of 3.5 ha, leguminous crops
were planted at 0.5 ha, and winter wheat was placed at the area of 2.0 ha. Soil of plots is meadow alluvial,
medium-loamy in mechanical composition; humus content varies 0.7-0.9 mg/100 g. Generally accepted field
and laboratory investigation techniques were used in the experiments.
The results showed that when planting winter wheat after mung, soy and bean the seeds germinate uniformly
and completely. A rapid development of plants and good over wintering (frost tolerance) winter crops is
observed. During the spring-summer growth period plants formed a good haulm stand - 570-647 productive
sprouts per 1 m2. Accumulation of dry substance was higher compared to the seeding production by 5.8-10.9
kg/ha, leaf area in flowering stage was 36.4 - 42.5 m2/ha. According to our data legumes predecessors
contributed to increase of winter wheat yields of Krasnodar 99 varieties by 0.72 t/ha when planting it after
beans and by 1.05 t/ha (when planting it after soybean). The values for Tanya variety were slightly lower.
Soybeans were more efficient precursor for winter wheat. Yield increase was of 3.3 t/ha compared to it after
sowing beans. Quality of grain improved: grain hardness increased compared to the control value (85%) by 7%
- 19%; grain unit increased from 750 g/l under normal sowing, to 806 and 784 g/l after seeding of soybean.
Thus, the cultivation of legumes in rotation with winter wheat positively contributes to growth, accumulation
of green biomass and grain yield as well as allowing better frost withstanding of winter wheat under saline
environments of central region of Karakalpakstan (Prairalie). Yield increase occurred due to better plant
growth, increase of productive grasstand and grain weight per one spike. Grain quality was increased
significantly.
Key words: winter wheat; salinization; predecessor; soybean; bean

174
Aydarkul Arnasay Lake System (AALS) – ecological disaster or a new paradise
Bogusław WIŁKOMIRSKI1), Marcin BRZEZIŃSKI2), Małgorzata SUSKA-MALAWSKA2)
Author affiliations:
1) Department of Environmental Protection and Modeling, the Jan Kochanowski University in Kielce
2) Faculty of Biology, Biological and Chemical Research Centre, University of Warsaw
Contact details:
E-mail: bowi@biol.uw.edu.pl
Address: Świętokrzyska 15, 25-406 Kielce, Poland
Abstract
Wetlands cover less than 6% of the world’s land surface but their contribution to the global biodiversity by far
exceeds this share. Moreover, wetlands provide ecosystems goods and services of great importance for human
directly and for the global environment. In arid and semi-arid areas wetlands have even more spectacular
functions, forming absolutely unique type of ecosystem, offering the special refuge for biodiversity. The
recognition what happens if a new large wetland is created can be considered as a one of crucial problems for
understanding the changes in arid and semi-arid areas, caused by men activities.
The AALS (mostly Aydar Lake) is a large man-made saline lake-wetland ecosystem created during the last
few decades by water release from the adjacent Chardara Reservoir located on Syrdarya River. This new man-
made ecosystem can be treated as one of the world’s largest lakes/wetland creation projects and, given its
geographical isolation, offers almost ideal experimental conditions for studying foundation and succession of
the new ecosystem.
The need to assess both the biodiversity and abiotic changes of the AALS system and to understand
mechanisms underlying its development is vital for several reasons. One can say that this new large man-made
lake system creates the unique chance to investigate important ecological problems on abiotic and biotic levels,
as well as on socio-economic layer.
For fundamental ecology, the AALS offers a unique opportunity for studying mechanisms that restrict a
species pool in course of lakes and wetland succession. The relatively well-defined local species pools of all
organisms (due to limited dispersal from other flooded systems) and an interplay of several strong physical
factors make Aydar Lake a perfect ground for testing numerous ecological hypotheses related to ecological
filtering, assembly rules, competition along resource gradients or interactions between trophic levels. The lake
exhibits a sharp gradient in salinity, which rises from the water inflow (north-eastern part of the lake) towards
the opposite end of the lake. Assuming that most wetland and aquatic species colonising the lake immigrate
from the Chardara reservoir, this gradient of salinity is also related to the gradient of age of ecological
communities, especially with respect to organisms with smaller dispersal abilities. In addition, along the
shoreline, a lot of separated smaller lakes occur, which may differ in respect to local species pools, offering
interesting ground for research on biodiversity i.e. species interactions. Adjacent soil suffer from increased
salinization, whereas methane produced in the flooded sites may contribute to global climatic changes. Huge
area of water appearing at the desert forms a new possibility for colonization by flora and fauna species.
The special character of such man-made ecosystem and above described problems suggest the urgent need of
fundamental and applied ecological and biogeochemical research.
Key words: wetlands ecosystem; flora and fauna conservation; ecosystem services; Aydarkul Lake ,
Uzbekistan

175
Sweet Sorghum in the North Kazakhstan
Rauan ZHAPAYEV1*), Kulyash ISKANDAROVA2), Kristina TODERICH3),
Daniyar ANDYBAYEV1), Abdullah J. AL-DAKHEEL3), Shoaib ISMAIL3),
Srinivasa Rao PINNAMANENI4), Irina PARAMONOVA5), Nina NEKRASOVA5),
Darhan BALPANOV5), Oleg TEN5), Muratbek KARABAYEV1)
Author affiliations:
1) International Maize and Wheat Improvement Center (CIMMYT), Republic of Kazakhstan
2) National Center for Biotechnology (NCB), Republic of Kazakhstan
3) International Center for Biosaline Agriculture (ICBA), UAE
4) International Crops Research Institute for the Semi-Arid Tropics (ICRISAT), India
5) Scientific and Analytical Center “BIOMEDPREPARAT”, Republic of Kazakhstan
Contact details:
E-mail address: r.zhapayev@cgiar.org
Postal address: 51 Zhandosov str., Almaty, Republic of Kazakhstan
Contact Phone number: +77273036509/3036537, +77017260794
Contact Fax number: +77273036509/3036537
Abstract
Climate change, nature and soil degradation, desertification, water scarcity and frequent droughts, unavoidable
decrease of natural primary energy minerals resources threaten to food and energy security both in the country
and in the world. Livestock sector and biofuel production declared as priority directions of the Kazakhstani
economics are becoming more and more competitive/rival for the common substratum/host material –
vegetable substance, and urgently need in actively amended plant raw materials. Prompt introduction of high
yielding and drought-resistant crops capable to grow in all territory and climatic zones of the country,
conservation agriculture and biotechnologies for their production and processing can be one of the most
effective ways and solutions of the problems. The research and extension activities based on Sorghum, one of
the most drought resistant, high-yielding and low-input crop in the world, can enable in short time to create in
Kazakhstan sustainable basis for intensive livestock and biofuel productions – important components of the
national food and energy security.
In 2011 CIMMYT, ICBA, ICRISAT initiated trials of sorghum genotypes in all main agricultural regions of
the country: South, South-East, Central, North, and North-West Kazakhstan. The main results of the field
assessment of different sorghum varieties in the arid conditions of the North Kazakhstan can be concluded as
follow.
28 sweet sorghum genotypes of the different ecological and geographic origin: Kazakhstan, Russia, India,
Uzbekistan, and China have been tested in rainfed conditions of Northern Kazakhstan. The varieties
“Krepysh”, “Kinelskoye 4” and “Saratovskoe 90” were selected as genotypes of early maturation with the
average green biomass yields 55-70 t/ha in North Kazakhstan. “Stavropolskoe 36”, “Kazakhstanskoe 20”,
“Larets”, “Kulzha”, “ICSSH 58”, “Galiya”, and “Kazakhstanskoe 16” varieties were selected as the most high
yielding genotypes with green biomass of over 90 tons/ha in the conditions of Astana region.
The results of biochemical analyses of sorghum and maize as green fodder demonstrated that sorghum was not
inferior to maize in terms of all feed quality indicators, and sorghum surpassed maize in content of raw and
digestible protein, fiber and carotene. “Krepysh”, “Kinelskoye 4”, and “Saratovskoe 90” varieties maturing to
full reproductive seeds were selected for seed production and introduction in the North Kazakhstan conditions.
The preparation developed on the basis of lactic acid bacteria strains Lactobacillus bulgaricus F-2 and
Lactococcus lactis F-4 essentially accelerates the ensilage process.
Potential yields of sorghum in high latitude conditions are relatively high and to realize this potential and
improve sorghum productivity in further research activities should be continued.
Key words: sweet sorghum genotypes, seed production; lactic acid bacteria strains; North Kazakhstan

176
Mineralogical and micromorphological investigations of the salt accumulations in
Solonchak of Uzbekistan
Marina LEBEDEVA*, Natalia CHIZHIKOVA
Author affiliations:
V.V. Dokuchaev Soil Science Institute, Russian Academy of Agricultural Sciences, Russia
Contact details:
E-mail: m_verba@mail.ru
Address: Pyzhevskii per. 7, Moscow, 119017 Russia
Abstract
The studies of mineral associations in salt crusts have been performed in many parts of the world (Mermut,
1986; Mees and Stoops, 1991). In this paper, we consider the results of special investigation into the
composition and properties of different types of salt accumulations sampled from the surface salt crust of a
crusty Solonchak in Uzbekistan. The main goals of our study were to (1) typify the morphologically different
parts of the salt crust, (2) determine the chemical properties, mineralogical and micromorphological
composition of different types of salt accumulations.
The soil profiles were dug in the dry delta of the Zeravshan River in Uzbekistan. The particular minerals were
diagnosed with a help of X-ray diffraction and thermogravimetric (TG) methods using an XZG-4a
diffractometer (Carl Zeiss Jena, Germany) and a Q-1500 D derivatograph (F. Paulek &t K˚). This study was
conducted using microscopes Olympus BX 51 and SEM JSM-6610LV combined with a system of X-ray
microanalysis INCAx-act.The analysis of water extracts (1:5) from salts crusts was performed to determine the
chemical type of salinity. The surface salt crust of the crusty Solonchak can be differentiated into three major
morphological types. Chemical analyses of water extracts from these types of the crust suggest that all of them
consist of a mixture of sodium and magnesium sulfates and chlorides with somewhat different Cl/SO4 ratios.
The specificity of the predominant first type of the crust consists of its high alkalinity (both total and
bicarbonate), which is absent in the other two types confined to microhollows and microelevations of the
surface. The appearance of high alkalinity in the first type of the crust might be related to the activity of
microbiota concentrated in certain microzones in the lower crust layer. Micromorphological and mineralogical
investigations showed that each morphological type of the salt crust is characterized by its own paragenetic
association of mineral salts with a predominance of sodium and magnesium sulfates: thenardite, mirabilite, and
bloedite (astrakhanite); more careful examinations with the use of TG and SEM techniques have shown the
presence of glauberite, polyhalite, and gypsum. Different morphological forms of thenardite and mirabilite
have been registered. The possibility of the presence of small amounts of trona cannot be excluded judging
from chemical data, though we failed to detect this mineral by mineralogical methods. It is important that only
a combination of different investigation techniques makes it possible to identify different minerals of salts in
their mixture and suggest a reliable interpretation of the obtained data. The research was supported by the
Russian Foundation for Basic Studies (project 12-04-00990.).
Keywords: salt minerals, spatial and vertical heterogeneity of the salt accumulations

177
About growing of vegetables in arid conditions without irrigation
B. A. KAMALOV*, S. T. ABDURAHMANOV
Author affiliations:
Namangan State University,
Department of General Geography and Fundamentals of Ecology, Uzbekistan
Contact details:
E-mail: kamolov-1942@inbox.ru
Address: Namangan State University, Namangan, Uychi str.; 316, 716019
Abstract
According to the findings made by P. Baratov, Uzbekistan has 18 million hectares of land suitable for crop
production. However, due to lack of irrigation water in irrigated agriculture is used only 4.2 million hectares,
about 1.1-1.2 million hectares - under rain-fed agriculture. The remainder, where annual rainfall is less than
100-200 mm, is used as a pasture with a crop of 1-2 t / ha of biomass per year. As a result, a large number of
settlements in the desert zone of the Republic do not have necessary conditions for the cultivation of
agricultural products. By solving of this problem may be useful experiments on growing vegetable crops in
arid conditions without irrigation using plastic film mulching, conducted by the department of Geography and
the basics of ecology of Namangan State University.
For substantiation of the possibility in the arid conditions of the collection of humidity contained in the air
should be used following method. In the pit dug in the ground 70h80h90 cm is drained tank. The pit is fixed at
the edges closed with polyethylene film, with a small but heavy object in the middle. Under his weight formed
conical deflection of the film, which had to be positioned just above the tank. When relative humidity in the pit
reaches 100%, condensate water fell out on the film which flowed into the container through the cone. These
measurements were carried out during April-August 2009 in village Laskidon of Chartak district of Namangan
region, 15 km from the weather station Namangan, which is considered as arid. Mean annual rainfall does not
exceed 200 mm. Agriculture is based on irrigation.
The measurement results showed the possibility of deposition of humidity in arid conditions. Moreover, the
collected water was more than expected in the hottest months. The total amount of precipitation of humidity
was in April 2199 g., in May-3781 g., in June-6113 g., in July-8675 g. and in August 7813 g.
After receiving such a result in the beginning of 2011, we conducted our experiment to determine the
feasibility of growing vegetables without irrigation in the area of 0.25 hectares, allocated by farm enterprise
“Murodilla-Usta Pakhtakor” in Chartak district near the village Laskidon. In the experiment, we tried various
options mulching and determine the best of them.
Tomato seedlings “Volgograd”, eggplant “Yaponcha” and bell pepper “Lastochka” per 2000-2500 units from
each crop was made on the experimental plot 3 in April 2011.
The experiment was carried out in the period from April to July 2011, which is characterized by unusually dry
period: rainfall during this period amounted to only 6.3 mm. Total crop until July 11 was 707 kg, which gives
a yield of 236 kg / ha. Pepper gave harvest 80-90 kg / ha, eggplant -125 kg / ha.
The test results for the period of 2011-2013 indicate the possibility to harvest crops without irrigation in arid
conditions.
Keywords: vegetables, arid conditions

178
Anthropogenic desertification and remote monitoring over the salinity of irrigated soils
within the cotton-growing zone
Ye.I. PANKOVA
Author affiliations:
V.V. Dokuchaev Soil Science Institute, Russian Academy of Agricultural Sciences, Russia
Contact details:
E-mail: pankova@agro.geonet.ru
Address: Pyzhevskii per. 7, Moscow, 119017 Russia
Abstract
Anthropogenic desertification in the countries within the Aral Sea basin is primary determined by the salinity
of irrigated soils. Under consideration are problems of remote monitoring over the salinity of irrigated lands. It
is shown that the given problem has become very acute not only in Central Asia but also in the southern part of
Russia. The experience gained in studying the soil salinity under cotton plantations can be applicable for soil
monitoring in the other regions including the irrigated soils in the south of Russia.
The investigation results presented in this paper clearly demonstrate the following conclusions.
The salinity of irrigated soils within the Aral Sea basin including Uzbekistan serves as evidence of limiting
their productivity.
The space-borne images provide the reliable and objective information on the soil salinity, that is why they
may be the basis for monitoring over the salinity of irrigated lands in arid regions. The images answering the
definite requirements permit to recognize saline and non-saline soils, to determine the share of saline soils and
their salinity degree within the 1 m layer.
Not all the images are informative for assessing the soil salinity. At the irrigated territory of the cotton-growing
zone the most informative are only multizonal and synthesized images with the high resolution obtained early
in the autumn. The cosmic images obtained in the other time are practically unsuitable to estimate the soil
salinity in fields occupied by cotton. Unsuitable are also the images obtained many years ago because they
permit to judge about the soil salinity that has taken place in the past.
A comprehensive analysis of remote images obtained with the high resolution permits to estimate the salinity
degree in the 0-100cm soil layer under cotton plantations irrigated for less than 5 years. The reliable
information may be obtained to show four salinity degrees including non-saline, slightly, moderately and
strongly saline soils. For purposes of monitoring the inventory of saline soils should be conducted by using
aerial or satellite imagery of high resolution.
Decoding features are determined to recognize the different salinity degree by using space-borne imagery; a
GIS-technology is proposed to compile the maps of soil salinity within the cotton-growing zone as well as the
maps of the soil salinity dynamics.
The program of monitoring over the soil salinity of irrigated lands should be oriented to solve the following
tasks: (1) inventory of saline soils, (2) study of the soil salinity dynamics and (3) forecast of salt processes and
recommendations to govern them.
The results obtained in the course of our studies may be useful and suitable for solving the two first tasks
mentioned above. The research was supported by the Russian Foundation for Basic Studies (project 13-04-
00107).
Key words: Remote Sensing Techniques, Interpretation of Soil Salinity, Monitoring over the Soil Salinity.