Wetlands with controlled drainage and sub‐irrigation systems—modelling of the water balance |
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| Authors: | Ottfried Dietrich Michael Redetzky Kai Schwärzel |
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| Institution: | 1. Leibniz Centre for Agricultural Landscape Research (ZALF) Müncheberg, Institute of Landscape Hydrology, Eberswalder Street 84, D‐15374 Müncheberg;2. WASY Institute for Water Resources Planning and System Research Limited, Waltersdorfer Street 105, D‐12526 Berlin;3. Technische Universit?t Dresden, Institute of Soil Science, Pienner Street 19, D‐01737 Tharandt |
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| Abstract: | Over the past centuries, the agricultural use of wetlands in Central Europe has required interference with the natural wetland water balance. Often this has consisted of drainage measures alone. In low‐precipitation areas, it has also involved the operation of combined drainage and sub‐irrigation systems. Model studies conducted as part of planning processes, or with a view to finding out the impact of changing climate conditions on the water balance of wetlands, must take these facts into account. For this reason, a water balance model has been devised for wetlands whose water balance is governed by water resources management systems. It is based on the WBalMo model system. Special modules were integrated into WBalMo to calculate the water balance of wetland areas (WABI module) and to regulate inflow partitioning within the wetland (REGINF module). When calculating the water balance, the WABI module takes into account precipitation and potential evapotranspiration, groundwater levels below surface, soil types, land‐use classes, inflows via the running water system, and data for target water levels. It provides actual evapotranspiration, discharge into the running water system, and groundwater levels in the area. The example of the Spreewald, a major wetland area in north‐eastern Germany, was used to design and test the WBalMo Spreewald model. The comparison of measured and calculated water balance parameters of the wetland area confirms the suitability of the model for water balance studies in wetlands with complex water resources management systems. The results reveal the strong influence of water management on the water balance of such areas. The model system has proved to be excellently suited for planning and carrying out water management measures aimed at the sustainable development of wetlands. Furthermore, scenario analyses can be used to assess the impact of global change on the water balance of wetlands. Copyright © 2006 John Wiley & Sons, Ltd. |
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| Keywords: | wetlands water resources management drainage sub‐irrigation water balance model |
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