globalchange  > 气候变化与战略
CSCD记录号: CSCD:5371547
论文题名:
1961-2013年新疆潜在蒸散量变化特征及趋势
其他题名: Spatio-temporal variability and trend of potential evapotranspiration in Xinjiang from 1961 to 2013
作者: 董煜1; 海米提·依米提2
刊名: 农业工程学报
ISSN: 1002-6819
出版年: 2015
卷: 31, 期:1, 页码:1512-1525
语种: 中文
中文关键词: 气象 ; 蒸散 ; 动态 ; Penman-Monteith 公式 ; 贡献率分析 ; 新疆
英文关键词: meteorology ; evapotranspiration ; dynamics ; Penman-Monteith equation ; contribution analysis ; XinJiang
WOS学科分类: AGRICULTURE MULTIDISCIPLINARY
WOS研究方向: Agriculture
中文摘要: 准确地评估潜在蒸散量的时空变化趋势对新疆水资源合理利用及气候变化下水文变化研究具有重要意义。该文采用Penman-Monteith 公式以及55个气象站的气象资料计算了新疆1961-2013年潜在蒸散量,运用年代距平、M-K检验、Cramers 突变检验,相关分析及贡献率分析方法,分析了新疆潜在蒸散量的时间、空间变化特征及变化原因。结果表明:1995年为ET0突变点。年ET_0在1961-1994年处于明显减少趋势,平均递减率为-3.21 mm/a;在1995-2013年转为明显上升趋势,平均递增率为3.51 mm/a。空间上,75%以上的气象站在1961-1994年处于降低趋势,在1995-2013年转为增加趋势。在全区范围及天山北坡、天山南坡、昆仑山北麓3个分区,风速具有最大的相对贡献率。阿尔泰区则是相对湿度具有最大的相对贡献率。天山山区在两个时段分别是日照时数、温度具有最大贡献率。
英文摘要: Evapotranspiration is one of the important parameters in hydrological and meteorological studies. Under the background of global warming, it is essential to accurately estimate the potential evapotranspiration in arid and semiarid areas where the water resources are limited and excessively explored, which would be greatly helpful for planning the irrigation water supply and understanding the effects of climate change on hydrological processes. In this study, observed daily meteorological data during 1961-2013 from 55 meteorological stations, including temperature, relative humidity, wind speed and sunshine hours, are used to calculate the potential evapotranspiration based on Penmen-Monteith equation, the methods of Mann-Kendall test, Cramers test, correlation analysis and the contributions analysis, for analyzing the spatial distribution and temporal changes in the potential evapotranspiration in XinJiang during 1961-2013. Major results were as follows: from the 1960s to the 1970s, potential evapotranspiration was dominated by positive anomaly, then changed into negative anomaly from 1980s to 1990s, and the annual and seasonal potential evaporation anomaly reached a low point in the 1990's. Potential evapotranspiration anomaly descent in spring and summer is the key contributors to the annual potential evapotranspiration anomaly descent. There was a change point for ET_0 series around the year 1994 based on the Cramer's test. For the average in the region, ET_0 decreased from 1961 to 1994 by 3.21 mm/a, while ET_0 began to increase since 1995 at a rate of 3.51 mm/a. Spatial distribution of ET_0 showed that during 1961-1994, annual ET_0 in most sites (about 75%) had decreasing trends; on the contrary, during 1994-2010, about 76% sites had increasing trends. Based on the latitude, altitude and terrain, the study area was further divided into five climatic regions: the Altay Mountains, the south slope of Tianshan Mountains, the north slope of Tianshan Mountains, the Tianshan Mountain and the north foot of Kunlun Shan. The Cramer's test for detecting a change point in annual ET_0 of five climatic regions found that a change point for ET_0 series was identified around the year 1994. Annual ET_0 of five climatic regions decreased from 1961 to1994 and increased significantly from 1995 to 2013. The results indicated that wind speed, sunshine duration and relative humidity showed reverse trends during the period of 1995-2013 compared to the period of 1961-1994, and the temperature increasing was more significant since 1994. During 1961-1994 and 1995-2013, among all tested meteorological factors, wind speed had the highest complete correlation coefficient with ET_0 in XinJiang. There does exist difference of the highest complete correlation coefficients among five climatic regions. During 1961-2013, wind speed became the biggest contributor in XinJiang and this was also apparent in the south slope of Tianshan Mountains, the north slope of Tianshan Mountains and the north foot of Kunlun Shan; while relative humidity was the biggest contributor in the Altay Mountains. From 1961 to 1994, hours of solar shine was the biggest contributor, whereas during 1994-2013, temperature became the biggest contributor in the Altay Mountains.
资源类型: 期刊论文
标识符: http://119.78.100.158/handle/2HF3EXSE/149596
Appears in Collections:气候变化与战略

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作者单位: 1.新疆大学, 绿洲生态教育部重点实验室, 乌鲁木齐, 新疆 830046, 中国
2.新疆大学, 绿洲生态教育部重点实验室
3.新疆干旱区湖泊环境与资源重点实验室, 乌鲁木齐, 新疆 830046, 中国

Recommended Citation:
董煜,海米提·依米提. 1961-2013年新疆潜在蒸散量变化特征及趋势[J]. 农业工程学报,2015-01-01,31(1):1512-1525
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