Abstract
This paper presents the development of a wetland water balance model for use in a large river basin with many different wetlands. The basic model was primarily developed for a single wetland with a complex water management system involving large amounts of specialized input data and water management details. The aim was to simplify the model structure and to use only commonly available data as input for the model, with the least possible loss of accuracy. Results from different variants of the model and data adaptation were tested against results from a detailed model. This shows that using commonly available data and unifying and simplifying the input data is tolerable up to a certain level. The simplification of the model has greater effects on the evaluated water balance components than the data adaptation. Because this simplification was necessary for large-scale use, we suggest that, for reasons of comparability, simpler models should always be applied with uniform data bases for large regions, though these should only be moderately simplified. Further, we recommend using these simplified models only for large-scale comparisons and using more specific, detailed models for investigations on smaller scales.
Highlights
In case studies, hydrological models are frequently used to compare the effects of land use, climate, or global change in different regions
The basis is the wetland water balance module WABI, which was developed by Dietrich et al [1] as an extension for a WBalMo®model system [2] based on the example of the Spreewald wetland (51 ̋ 541 N, 13 ̋ 551 E)
The main reason for using alternative input data for soil, land use, and digital elevation models (DEMs) was their availability in the whole Elbe River basin
Summary
Hydrological models are frequently used to compare the effects of land use, climate, or global change in different regions. One precondition for such large-scale case studies is homogeneous input data of sufficient quality regarding the model requirements. Specific input data for large regions are not available in the same quality as for small ones, or the model has to be adjusted to specific requirements. The aim was to take a wetland water balance model developed for a very specific wetland and prepare it for application to many different wetlands in a large river basin. The basis is the wetland water balance module WABI, which was developed by Dietrich et al [1] as an extension for a WBalMo®model system [2] based on the example of the Spreewald wetland (51 ̋ 541 N, 13 ̋ 551 E)
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