Modelling the hydrologic effects of dynamic land-use change using a distributed hydrologic model and a spatial land-use allocation model
Journal
Hydrological Processes
Journal Volume
24
Journal Issue
18
Pages
2538-2554
Date Issued
2010
Author(s)
Abstract
This study develops a novel approach for modelling and examining the impacts of time-space land-use changes on hydrological components. The approach uses an empirical land-use change allocation model (CLUE-s) and a distributed hydrological model (DHSVM) to examine various land-use change scenarios in the Wu-Tu watershed in northern Taiwan. The study also uses a generalized likelihood uncertainty estimation approach to quantify the parameter uncertainty of the distributed hydrological model. The results indicate that various land-use policies-such as no change, dynamic change and simultaneous change-have different levels of impact on simulating the spatial distributions of hydrological components in the watershed study. Peak flow rates under simultaneous and dynamic land-use changes are 5.71% and 2.77%, respectively, greater than the rate under the no land-use change scenario. Using dynamic land-use changes to assess the effect of land-use changes on hydrological components is more practical and feasible than using simultaneous land-use change and no land-use change scenarios. Furthermore, land-use change is a spatial dynamic process that can lead to significant changes in the distributions of ground water and soil moisture. The spatial distributions of land-use changes influence hydrological processes, such as the ground water level of whole areas, particularly in the downstream watershed. Copyright © 2010 John Wiley & Sons, Ltd.
Subjects
DHSVM; Distributed hydrologic model; GLUE; Land-use change; Taiwan; Uncertainty analysis
Other Subjects
Allocation model; DHSVM; Distributed hydrologic model; Distributed hydrological model; Dynamic changes; Generalized likelihood uncertainty estimation; Ground water level; Hydrologic effects; Hydrological process; Land-use change; Land-use policies; Northern Taiwan; Parameter uncertainty; Spatial distribution; Spatial dynamics; Taiwan; Time-space; Climate models; Dynamic models; Glues; Gluing; Groundwater; Land use; Landforms; Size distribution; Soil moisture; Uncertainty analysis; Water levels; Watersheds; Forestry; computer simulation; estimation method; groundwater flow; hydrological modeling; hydrological response; land use change; peak flow; spatial distribution; uncertainty analysis; water level; watershed; Taiwan
Type
journal article