邢万秋, 王卫光, 邵全喜, 杨慧, 彭世彰, 余钟波, 杨涛. 未来气候情景下海河流域参考蒸发蒸腾量预估[J]. 应用基础与工程科学学报, 2014, 2: 239-251.
XING Wanqiu, WANG Weiguang, SHAO Quanxi, YANG Hui, PENG Shizhang, YU Zhongbo and YANG Tao. Projection of future reference evapotranspiration change across the Haihe River basin. Journal of Basic Science and Engineering, 2014, 2: 239-251. (in Chinese)
被以下文章引用:
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标题:
长江流域参照蒸发量时空变化趋势分析Trends Analysis on Spatiotemporal Characteristics of Reference Evaporation in the Yangtze River Basin
作者:
李子硕, 陶新娥, 陈华
关键字:
气候变化, 长江流域, 统计降尺度, 参照蒸发蒸腾量Climate Change, Yangtze River Basin, Statistical Down-Scaling Model, Reference Evaporation
期刊名称:
《Journal of Water Resources Research》, Vol.4 No.6, 2015-12-10
摘要:
根据长江流域134个气象站1961-2010年逐日气象资料,基于Penman-Monteith法计算参照蒸发量,选取NECP再分析数据,采用SDSM (the Statistical Down-Scaling Model)方法,进行长江流域未来参照蒸发量的降尺度研究。研究表明:1) SDSM方法对参照蒸发量能较准确的模拟,检验期的确定性系数可达93%以上;2) 1961~2010年长江流域的蒸发蒸腾量呈下降趋势,显著下降的站点集中在长江中下游区域、长江流域北部的区域;3) Rcp45与Rcp85气候情景下,长江流域未来2011~2099年的参照蒸发量呈上升趋势,且Rcp85情景下的参照蒸发量增加的幅度大于Rcp45。
Based on 134 hydro-meteorological gauges in the Yangtze River basin 1961-2010 daily meteorological data, the reference evaporation was calculated by using the Penman-Monteith method. To predict the future change of the reference evaporation, SDSM (the Statistical Down-Scaling Model) method was used to downscale the outputs of GCMs, which was firstly trained by utilizing the NECP reanalysis data. Results show that: 1) SDSM reference evaporation method performed better in simulating the reference evapo-ration as to the high simulation deterministic coefficient (0.93) in the testing period; 2) 1961-2010 annual reference evaporation in the Yangtze River basin decreased significantly; decreasing sites concentrated in the lower reaches, the middle stream and the north of the Yangtze River basin; 3) under Rcp45 and Rcp85 climate scenarios, reference evaporation of the Yangtze River basin will increase in 2011 - 2099 years, and the rate of increase of reference evaporation under Rcp85 scenarios is greater than Rcp45.