Impacts of Climate Change on Water Resources in the Yellow River Basin
Climate change is one of the main reasons of water resources decrease and ecological deterioration in the Yellow River basin in recent years. The WEP-L distributed hydrological model was applied in this paper to analyze the influence of climate change on water resources during the past fifty years, and analyze the response of water resources to the main climate factors such as precipitation and air temperature in the headwater area of the Yellow River basin and the sub-basin of Yiluo river, a tributary in middle reaches of the Yellow River as studied area. The results demonstrated that under the impacts of climate change, the change of water resource from 1980 to 2000 compared with that from 1956 to 1979 were as follows: surface water resources decreased 3.03 billion m3, groundwater resources decreased 2.50 billion m3 with 380 million m3 decrease of the groundwater non-overlapped with surface water, and the total water resources decreased 3.42 billion m3. With increase of air temperature, the total water resources decreased with the decrease of surface water resources and groundwater, and the groundwater non-overlapped with surface water changed little. The tendency of total water resources and its composition was the same as change of precipitation. The responses of monthly runoff to air temperature varied with seasons. The responses of monthly runoff to precipitation change could be divided into three phases, the dry season phase, the wet season phase, and the transitionary season phase.
impact climate change water resources the Yellow River distributed hydrologic model
Jia Yangwen Qiu Yaqin Gao Hui Niu Cunwen Shen Suhui Peng Hui Liu Weigang
Department of Water resources, Institute of Water resources & Hydropower Research (IWHR), 20 Chegong Cold and Arid Regions Environment and Engineering Research Institute, Chinese Academy of Sciences, L
国际会议
山东东营
英文
109-119
2007-10-16(万方平台首次上网日期,不代表论文的发表时间)