Response of  water yield function of ecosystem to land use change in Nansi Lake Basin based on CLUE-S  model and InVEST  model .

doi:10.13287/j.1001-9332.201609.039

Abstract

Abstract: Land use change has an important role in hydrological processes and utilization of water resources, and is the main driving force of water yield function of ecosystem. This paper analyzed the change of land use from 1990 to 2013 in Nansi Lake Basin, Shandong Province. The future land use in 2030 was also predicted and simulated by CLUE-S model. Based on land use scenarios, we analyzed the influence of land use change on ecosystem function of water yield in nearly 25 years through InVEST water yield model and spatial mapping. The results showed that the area of construction land increased by 3.5% in 2013 because of burgeoning urbanization process, but farmland area decreased by 2.4% which was conversed to construction land mostly. The simulated result of InVEST model suggested that water yield level of whole basin decreased firstly and increased subsequently during last 25 years and peaked at 232.1 mm in 2013. The construction land area would increase by 6.7% in 2030 based on the land use scenarios of fast urbanization, which would lead to a remarkable growth for water yield and risk of flowing flooding. However, the water yield level of whole basin would decrease by 1.2 % in 2013 if 300 meter-wide forest buffer strips around Nansi Lake were built up.

GUO Hong-wei, SUN Xiao-yin, LIAN li-shu, ZHANG Da-zhi, XU Yan. Response of water yield function of ecosystem to land use change in Nansi Lake Basin based on CLUE-S model and InVEST model .[J]. Chinese Journal of Applied Ecology, 2016, 27(9): 2899-2906.

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Response of water yield function of ecosystem to land use change in Nansi Lake Basin based on CLUE-S model and InVEST model .

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