Groundwater monitoring stations (green) in the Seewinkel catchment. The Corine Landcover data in the background shows: yellow = field crops, orange = wine, pink = built-up area, blue = surface water (BML 2023).

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Master Thesis: Estimation of the effect of varied groundwater- and salinity levels on the yield of potato and maize in the Seewinkel region

Thesis

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Mar 2023

Astrid Fajtak

Irrigation management is a pressing issue in arid and semi-arid regions, independent of development status of a region. In addition to the direct influence of climate change on water resources, salinisation effects pose a threat to crop production on irrigated land. In the Seeweinkel region of Burgenland, Austria, through the inherent nature of the...

Context 1

... whole Seewinkel is defined to constitute as one groundwater catchment (Fig. 4) (Wasser im Boden 2020). Retention times of the groundwater are shorter than 5 years. 58 % (n=7) of the groundwater measurement points show an age of 11-25 years, 5 show an age between 5-10 years, one is classified as older than 50 years (Wasser im Boden 2020). According to the data of the groundwater body GK100134 -Seewinkel [LRR], ...

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Context 2

... field culture: Auacrop is suitable for simulation of environmental factors on annual cultures. Therefore, I selected sites that are defined for field crops with the Corine Landcover data as seen in Fig. ...

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Context 3

... data is presented for the groundwater, such as for hydrochemical parameters ( fig. 3) and groundwater-or drinkingwater quality ( fig. 4). In terms of specific soil chemical parameters, the data landscape is ...

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Groundwater monitoring stations (green) in the Seewinkel catchment. The Corine Landcover data in the background shows: yellow = field crops, orange = wine, pink = built-up area, blue = surface water (BML 2023).

Contexts in source publication