2016
DOI: 10.1007/s11269-016-1348-0
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Using SWAT for Strategic Planning of Basin Scale Irrigation Control Policies: a Case Study from a Humid Region in Northern Germany

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Cited by 31 publications
(12 citation statements)
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“…Insufficient water supply for agricultural production, drinking water supply, and environmental flows have raised concerns on the local economy and ecosystem integrity (Hillman et al, 2012). Due to the significant impacts on soil moisture and plant growth, the amount and timing of irrigation influence ET losses and watershed hydrology (Maier and Dietrich, 2016). As a result, the irrigation impacts on streamflow should be evaluated to provide reliable estimates of streamflow in basins like the YRB, which helps balance the water supplies and demands for effective water resource management.…”
Section: Impacts Of Irrigation On Water Cyclingmentioning
confidence: 99%
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“…Insufficient water supply for agricultural production, drinking water supply, and environmental flows have raised concerns on the local economy and ecosystem integrity (Hillman et al, 2012). Due to the significant impacts on soil moisture and plant growth, the amount and timing of irrigation influence ET losses and watershed hydrology (Maier and Dietrich, 2016). As a result, the irrigation impacts on streamflow should be evaluated to provide reliable estimates of streamflow in basins like the YRB, which helps balance the water supplies and demands for effective water resource management.…”
Section: Impacts Of Irrigation On Water Cyclingmentioning
confidence: 99%
“…SWAT simulates water withdrawal for irrigation from different water sources (e.g., reservoirs, streams, and groundwater aquifers). Multiple efforts have employed SWAT to evaluate impacts of different irrigation practices on watershed hydrology (Ahmadzadeh et al, 2016;Chen et al, 2017;Maier and Dietrich, 2016) and emphasized the importance of balancing water supply and irrigation demands in hydrologic simula-tions. However, applicability of SWAT in watersheds with interacting reservoir operations and irrigation has not been well studied and thus deserves further investigation to inform effective water resource management.…”
Section: Introductionmentioning
confidence: 99%
“…Firstly, the applicability of a hydrological model is an important guarantee in these studies. In our study, the SWAT model, which was mostly used in small and medium-sized catchments [48,49], was applied to a large basin with an area of 556,800 km 2 . The model parameters are physically based and estimated from spatial databases.…”
Section: Limitation Of This Studymentioning
confidence: 99%
“…Spatially distributed hydrological models, such as the Soil and Water Assessment Tool (SWAT) (Arnold et al, 1998), which embody our current understanding of catchment behavior, can be used for this purpose. These models are increasingly used to inform management decisions (e.g., land use change) in irrigated catchments to optimize potentially competing objectives such as maximizing irrigation efficiency, the needs of groundwater dependent ecosystems (such as wetland/riparian zones) and managing salinity (Cau & Paniconi, 2007;Emam et al, 2015;Faramarzi et al, 2010;Githui et al, 2012;Maier & Dietrich, 2016;Sun & Ren, 2014).…”
Section: Introductionmentioning
confidence: 99%