The Analysis of Atmospheric Circulation and Water Vapor Conditions of Precipitation over the Heihe River Basin

S. Jia, J. Hao, Wang Keli, Xu Juanjuan, Li Zhaoguo, Zhu Qingliang, Luo Xinping
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引用次数: 1

Abstract

It is of great significance to understanding deeply mechanism of precipitation and estimating accurately amount of precipitation. The purpose of this work is to explore the atmosphere effects on the precipitation over the Hei he river basin. Based on NCEP/NCAR re-analysis dataset with the resolution of 1¡ã¡Á1¡ã and 2.5¡ã¡Á2.5¡ã over the period 2000~2006and monthly precipitation from 15 stations for the same period, we investigated the vertical circulation and vapor conditions for the local-scale and further explore large-scale atmospheric circulation patterns for the rainy years and less rainy years. The comparative analysis results show that for both kinds of years, the water vapor all are net inflow averaged from June to September. However, there are notable differences in western and south boundary. In the western boundary, the inflow of vapor for the rainy years is more than that for the less rainy years. In the south boundary, there is a net inflow of vapor in the rainy years. Whereas there is a net outflow in the less rainy years. Besides, one more important point is that local ascending motion which is predominantly meridional over the Heihe river basin. Its range, position, and intensity have remarkable differences in the rainy years and less rainy years. The maximum vertical velocity is 1.2 cm/s for the former, and that for the latter is only 0.8 cm/s with the difference of 0.4cm/s. This phenomenon is discovered for the first time in this region. Furthermore, more/less precipitation corresponds well with the higher/lower Qinghai-Tibet plateau temperature, stronger/weaker 100hPa high-pressure of the Qinghai-Tibet plateau, and stronger/weaker westerly jet. The interaction of these systems aforementioned can make more precipitation mainly due to more water vapor inflow and stronger converging-ascending motion for the rainy years. The opposite is the case for the less rainy years.
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黑河流域降水的大气环流和水汽条件分析
这对深入认识降水机理和准确估计降水量具有重要意义。本文旨在探讨大气对黑河流域降水的影响。利用2000~2006年分辨率为1′ã′Á1′ã和2.5′ã′Á2.5′ã的NCEP/NCAR再分析数据和同期15个站点的逐月降水,研究了局地尺度的垂直环流和水汽条件,并进一步探讨了多雨年和少雨年的大尺度大气环流格局。对比分析结果表明,两种年份的水汽均为6 ~ 9月的平均净流入。然而,在西部和南部边界有显著差异。在西部边界,多雨年的水汽流入大于少雨年。在南边界,在雨季有水汽净流入。而在少雨的年份则有净流出。此外,黑河流域的局部上升运动主要以经向上升为主。其范围、位置和强度在多雨年和少雨年有显著差异。前者的最大垂直速度为1.2 cm/s,后者的最大垂直速度仅为0.8 cm/s,相差0.4cm/s。这种现象在这个地区还是第一次发现。降水的多/少与青藏高原温度的高/低、青藏高原100hPa高压的强/弱、西风急流的强/弱有较好的对应关系。上述系统的相互作用使降水增多,主要是由于水汽入流增多和多雨年份辐合上升运动增强。少雨年份的情况正好相反。
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