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Species recorded for the first time in Serbia: A) Leucocoprinus brebissonii; B) Marasmius epodius; C) Mycoacia fuscoatra; D) Odontia fibrosa; E) Psathyrella rostellata; F) Psilocybe cubensis; G) Schizophyllum radiatum; H) Sistotrema coroniferum; I) Trechispora stellulata; J) Subulicystidium longisporum.
Source publication
At locations in the outdoor area and in the greenhouse of the Botanical Garden “Jevremovac”, a
total of 124 macromycetes species were noted, among which 22 species were recorded for the first
time in Serbia. Most of the species belong to the phylum Basidiomycota (113) and only 11 to the
phylum Ascomycota. Saprobes are dominant with 81.5%, 45.2% bei...
Citations
... Our findings suggest that spatial processes, perhaps dispersal limitation, and light availability were the most important factors affecting macrofungi community in broad-leaved forest. zsxdeSimilar results have been obtained by various researchers [27,28,29]. From the collected soil samples, theoccurrence of species in different samples soil is shown in Table 2 (presence"+" and absence"-"); S=saprotrophic; M = mycorrhizal. ...
The publication is devoted to the study of the diversity of the species composition of macromycetes on different soils of Adjara, Georgia. The aim of the study was to identify and determine the composition of on different macroscopic fungi in different soils; establishment of the scale of development and spread of macromycetes in adverse and favorable conditions. Morphological features of collected fruiting bodies, such as shape, size, colour, odor, hymenophore and velum types, etc., were analysed. Spore slides were prepared in glycerin and fuchsin acid and observed under a light microscope. Some samples were isolated on a Malt agar medium, and macroscopic and microscopic characteristics of isolates were observed for precise identification. Identifications were done using relevant literature. At locations in the outdoor area and in the greenhouse, a total of 165 macrofungal species were recorded fruiting on soil, between them 35 species are considered edible, 14 poisonous, while 106 species are inedible Most of the species belong to the division Basidiomycota (151) and only 14 to the division Ascomycota. Identified species distributed in 5 Classes, 13 Orders, 36 families and 68 Genuse. The highest number of soil-inhabiting basidiomycetous macrofungal species was in the forest soil plot (116), followed by the Pasture soil (29). The on families with the highest number of species was Russulaceae (17%), Agaricaceae (15%), Boletaceae (12%), Cortinariaceae (9%) and Psathyrellaceae - 8%, The remaining 31 families-39%. Lactarius, Cortinarius, Russula, Amanita and et al., were the richest genus. All 6 substrates studied, it observed that the species that had a higher frequency were Agaricus subrufescens, Calvatia cyathiformis and Leucocoprinus cretaceus, occurring in soil, soil/litter and pasture. On the other hand, Agaricus campestris, A. rufoaurantiacus, Chlorophyllum hortense and Volvopluteus earlier among others, were collected only from two substrates (soil/and plant residue). The other genera (most of it) occurred in only one substrate. Peaks macromycetes was in May and October, when the average temperature remained between 22 - 26°C and relative humidity between 78% and 92%. The occurrence of macromycetes was higher in May, when the temperature was milder and stable on average 24°C. Found that Adjara support a large and diverse community of macrofungi fruiting on soil, many species of which are previously undiscovered and undescribed. On this basis, works of longer duration and more intensive sampling are needed to obtain data regarding fungal communities, with more attention to specific variables such as microclimate, soil moisture, soil type, soil pH and vegetation types.
... Lack of the national database of fungi and the small number of scientific publications led to poor knowledge about the distribution of macromycetes in Serbia (LAČKOVIĆ, 2015). Even though studying macromycetes in Serbia has been intensified over the past few years (VUKOJEVIĆ and HADŽIĆ, 2013;LUKIĆ, 2013;IVANČEVIĆ, 2016;SAVIĆ, 2016;VUKOJEVIĆ et al., 2016), the diversity of macromycetes of Batočina hasn't been studied yet, so the primary aim of this study was the contribution to the knowledge of the diversity of macromycetes in the territory of Batočina. ...
The purpose of this paper was discovering the diversity of macromycetes in the territory of Batočina (Serbia). Field studies, which lasted more than a year, revealed the presence of 200 species of macromycetes. The identified species belong to phyla Basidiomycota (191 species) and Ascomycota (9 species). The biggest number of registered species (100 species) was from the order Agaricales. Among the identified species was one strictly protected – Phallus hadriani and seven protected species: Amanita caesarea, Marasmius oreades, Cantharellus cibarius, Craterellus cornucopia-odes, Tuber aestivum, Russula cyanoxantha and R. virescens; also, several rare and endangered species of Serbia. This paper is a contribution to the knowledge of the diversity of macromycetes not only in the territory of Batočina, but in Serbia, in general.
... Significant contribution to the research on Ascomycota was made on NP Fruška Gora, situated in the northern part of Serbia, representing a checklist and a database of fungi (Savić, 2016; http://www.naturefg.com/pages/fuascomycota.htm). Some valuable published data regarding on distribution of this fungal phylum are as follows: Ranojević (1910Ranojević ( , 1914, Ivančević & Beronja (2004), Marjanović et al. (2010), Karaman et al. (2012); Sadiković & Kuštera (2013); Ivančević (2016), Milosavljević (2016), , Savić & Karaman (2016), Vukojević et al. (2016). ...
Kajevska, I., Kuštera, M., Cvijetan, I.: A contribution to the knowledge of ascomycetes in eastern Serbia. Biologica Nyssana, 9 (2). December, 2018: 77-88. Mycological field research conducted from 2015-2018 in the eastern part of Serbia resulted with a registration of a new data on 9 insufficiently known or new ascomycetes for the country: Cordyceps militaris, Ophiocordyceps gracilis, Peziza phyllogena, Neottiella vivida, Scutellinia legalie, S. trechispora, Plectania melastoma, Pseudoplectania nigrella and Urnula mediterranea. All species are presented with color photos of fresh specimens, microscopic morphology and notes on their taxonomy, ecology and distribution in the country. Mikološko terensko istraživanje obavljeno u periodu od 2015. do 2018. godine u istočnom delu Srbije rezultiralo je registracijom novih podataka o 9 nedovoljno poznatih ili novih askomiceta za područje ove države: Cordiceps militaris, Ophiocordiceps gracilis, Peziza phillogena, Neottiella vivida, Scutellinia legalie, S. trechispora, Plectania melastoma, Pseudoplectania nigrella i Urnula mediterranea. Sve vrste su predstavljene fotografijama svežih uzoraka, mikroskopskom morfologijom i podacima o njihovoj taksonomiji, ekologiji i distribuciji u Srbiji.
... Spring-Summer. Suliaman et al. (2017) reported this species from Iraqi Kurdistan (Northern Iraq) and the present paper reports this (Kuo, 2011c), Turkey (Sesli and Denchev, 2008), Poland (Luszczynski, 2007), Serbia (Vukojevic et al., 2016) and Cameron (Kinge et al., 2013). ...
The polypore fungus Spongipellis spumeus is red-listed in Poland
and in several other European countries. On the basis of published
data and seven new locations, we have presented its distribution
in Poland. In the country, S. spumeus was recorded primarily in
anthropogenic habitats (tree lines along streets and roads, old orchards,
parks), and rarely in forest communities. Two tree species
(Acer platanoides, Populus alba) is reported here as a new host of
S. spumeus in Poland. The declining acreage of alluvial forests and
removal of old trees from substitute habitats (e.g. parks or avenues
in cities) seem to be major threat factors for this fungus. Based on
the new distribution data for S. spumeus in Poland, it should be
rather classified as vulnerable (VU) according to IUCN red-listed
criteria, than endangered (E) as it currently is. One beetle species
i.e. Tetrotoma fungorum was found on the basidiomata of S.
spumeus during the study, that may imply the role of the beetle in
spreading of this fungus.
Between August 2010 and December 2018 monitoring of non-lichenized fungi took place in the garden grounds of the botanical garden of Frankfurt am Main. A total of 523 collections resulted in 341 species of fungi and fungus-like organisms (Oomycota). 315 of the recorded species are new for the garden, including one new record (Diaporthe gloriosa) and five new fungus-host combinations for Germany (Golovinomyces
