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论文题目: Impacts of future land cover and climate changes on runoff in the mostly afforested river basin in North China
第一作者: Yang WT; Long D; Bai P
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发表年度: 2019
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摘要: The Luanhe River basin, the mostly afforested river basin in North China, has exhibited significant land use/land cover change (LUCC) under climate change that could jointly affect water availability of the basin in the future. This study examines both impacts of LUCC and climate change on runoff over the upper reaches of the Luanhe River basin. First, the land use in 2020 is predicted based on the Cellular Automata-Markov (CA-Markov). Second, a hydrological model (Soil Water Assessment Tools, SWAT) is set up for the baseline period 1961-1979 and driven primarily by outputs from five general circulation models (GCMs) under four representative concentration pathways (RCPs) (i.e., RCP2.6, RCP4.5, RCP6.0 and RCP8.5) for the period 2020-2030. Results show that the ensemble mean annual precipitation may increase under four RCPs for the period 2020-2030, with the maximum (470 mm/yr) and minimum (444 mm/yr) for RCP8.5 and RCP6.0, respectively, 1-7% higher than the observed mean annual precipitation (441 mm/yr) during 1961-1979. The relationship between the runoff simulations and the RCPs under the 2020 land use scenario is nonlinear, with the maximum (57 mm/yr) and minimum (50 mm/yr) mean annual runoff depths under the RCP4.5 and RCP6.0 scenarios, respectively, similar to 58% and similar to 39% higher than the mean annual observed runoff depth (36 mm/yr) for the baseline period. The increase in forestland (similar to 56%) and decrease in agriculture land (similar to -30%) are remarkable for the period 1970-2020, driven primarily by afforestation implemented in the Luanhe River basin. LUCC would lead to a slight decrease in mean annual runoff, and the runoff only increases in summer but decreases in other three seasons. The decrease in surface runoff and groundwater discharge jointly results in the overall decrease in runoff due to LUCC. In general, the climate change impact will dominate runoff change for the study basin, though marked afforestation has taken place and is likely to continue in the future.
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刊物名称: JOURNAL OF HYDROLOGY
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论文类别: SCI
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