Investigating the interaction between agricultural lands and Urmia Lake ecosystem using remote sensing techniques and hydro-climatic data analysis

•The area of irrigated lands in Urmia Lake Basin has increased by 437% over the past decades.•The salinization and desertification progresses are not limited to just the dried bottom of Urmia Lake.•Salinization and desertification have spread across all parts of Urmia Lake Basin.•Both anthropogenic...

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Bibliographic Details
Published in:Agricultural water management 2019-07, Vol.221, p.566-579
Main Authors: Alizade Govarchin Ghale, Yusuf, Baykara, Metin, Unal, Alper
Format: Article
Language:English
Subjects:
Agricultural lands
Agricultural water management
Desertification
Salinization
Urmia Lake
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Summary:•The area of irrigated lands in Urmia Lake Basin has increased by 437% over the past decades.•The salinization and desertification progresses are not limited to just the dried bottom of Urmia Lake.•Salinization and desertification have spread across all parts of Urmia Lake Basin.•Both anthropogenic and climatic factors have played a positive role in Urmia Lake restoration after 2014.•The role of anthropogenic factors in the drying up of Urmia Lake and its recovery is more than climatic factors. Urmia Lake (UL) located in the northwest of Iran, is one of the largest hypersaline lakes in the world. In recent years, most of the lake has been rendered to unusable lands. Drought and rapid increase in agricultural activities are the most important reasons behind the shrinkage of the lake. In this study, hydro-climatic data, Landsat satellite images and image processing techniques were used to detect the spatio-temporal land cover changes and salinization progress in Urmia Lake Basin (ULB) between 1975 and 2019. Increasing the area of irrigated lands from 1265 km2 in 1975 to 5525 km2 in 2011 in contrast to decreasing the water surface area of UL from 5982 km2 in 1995 to 586 km2 in 2014 and extension of salinization in the basin are the most important and thoughtful results of this study. Even the agricultural lands in the regions close to the lake have been affected by this environmental problem. The climatic conditions have gradually improved after 2014 and the government has released more water from dams to the lake. On the other hand, the area of irrigated lands has gradually decreased by 12% in the same period. As a result of these positive changes, the water surface area of the lake has gradually increased over 1000 km2. Based on the results of this study, both anthropogenic and climatic factors have played a positive role in UL restoration. Improvement of agricultural methods and providing a sustainable agricultural water management system under a changing climate can play the most effective role in the lake rehabilitation.
ISSN:0378-3774
1873-2283
DOI:10.1016/j.agwat.2019.05.028