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黄河上游流域蒸散量及其影响因子研究
引用本文:李林,张国胜,汪青春,时兴合.黄河上游流域蒸散量及其影响因子研究[J].地球科学进展,2000,15(3):256-259.
作者姓名:李林  张国胜  汪青春  时兴合
作者单位:青海省气象局,青海,西宁,810001
基金项目:全国政协项目!“气候变化对我国北方地区淡水资源可持续利用的影响及对策”资助
摘    要:利用彭曼公式计算了80年代以来黄河上游流域蒸散量,分析了该地区蒸散量、日照时数、气温、空气饱和差等气候因子的变化趋势,着重研究了诸因子对蒸散量的影响。研究发现,黄河上游流域蒸散量呈逐年增大趋势,并以每年3.25 mm的速度递增;而作为主要影响因子的日照时数则以每年3.6小时的速度增加;气温同样表现出逐年升高的趋势,其气候倾向率为0.4℃/10 a;空气饱和差也以每年0.02 hPa的速度递增。因此,可以认为,黄河上游流域日照时数、气温及饱和差的增加,加剧了草地蒸散量的增大,而蒸散量的增大和降水量的减少则直接影响到了黄河上游流量的减少和草地荒漠化的蔓延。

关 键 词:黄河上游  彭曼公式  蒸散量  影响因子
收稿时间:1999-08-23
修稿时间:1999-11-01

STUDY ON EVAPOTRANSPIRATION AND ITS IMPACT FACTORS OVER YELLOW RIVER UPPER STREAM AREA
LI Lin,ZHANG Guosheng,WANG Qingchun,SHI Xinghe.STUDY ON EVAPOTRANSPIRATION AND ITS IMPACT FACTORS OVER YELLOW RIVER UPPER STREAM AREA[J].Advance in Earth Sciences,2000,15(3):256-259.
Authors:LI Lin  ZHANG Guosheng  WANG Qingchun  SHI Xinghe
Institution:Qinghai Meteorological Bureau,Xining810001,China
Abstract:By using of Penman formula, the authors calculated the evapotranspiration since 1980s, and analyzed the variation tendency of some climatic factors such as evapotranspiration, sunshine duration, air temperature, air saturation deficitetc, and focused on their impact to the evapotranspiration. The results show that the evapotranspiration is increasing annually with the speed of 3.25 mm over Yellow River upper stream area;while the sunshine duration which is considered as main impact factor, is increasing with the speed of 3.6 h/a;air temperature is appearing the increasing tendency, and its climatic tendency is 0.4℃/10 a; air saturation deficit is increasing with 0.02 hPa/a. Therefore, we could think that the evapotranspiration is greatly increasing as increment of sunshine duration and air temperature deficit over Yellow River upper stream area. But the increment of evapotranspiration and decrement of precipitation amount impact directly on the decrement of flow curve and expanding of grassland' s desertization over Yellow River upper stream.
Keywords:The Yellow River upper stream  Penman formula  Evapotranspiration  Impact factors    
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