Atmospheric hydrologic cycle over the Qilian-Heihe Valley

WANG Ke-li; CHENG Guo-dong; JIANG Hao; ZHANG Li-jie

Volume 14 Issue 1

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Advances in Water Science > 2003 > 14(1): 91-97.

WANG Ke-li, CHENG Guo-dong, JIANG Hao, ZHANG Li-jie. Atmospheric hydrologic cycle over the Qilian-Heihe Valley[J]. Advances in Water Science, 2003, 14(1): 91-97.

Citation:

WANG Ke-li, CHENG Guo-dong, JIANG Hao, ZHANG Li-jie. Atmospheric hydrologic cycle over the Qilian-Heihe Valley[J]. Advances in Water Science, 2003, 14(1): 91-97.

Citation:

WANG Ke-li, CHENG Guo-dong, JIANG Hao, ZHANG Li-jie. Atmospheric hydrologic cycle over the Qilian-Heihe Valley[J]. Advances in Water Science, 2003, 14(1): 91-97.

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Atmospheric hydrologic cycle over the Qilian-Heihe Valley

Cold and Arid Regions Environmental and Engineering Research Institute, Chinese Academy of Sciences, Lanzhou 730000, China

Funds: The project is supported by the Innovative Program of the CAREERI/CAS (CACX210035) and the National Key Program for Developing Basic Sciences (G2000048703)

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Received Date: July 04, 2002
Revised Date: September 09, 2002

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Abstract

The atmospheric hydrologic cycle over the Qilian-Heihe Valley are analyzed by using the observed data of meteorological stations and the NCEP/NCAR monthly mean data from 1958 to 1997.Some significant results are showed.The sparse water vapor source is reason one of little water vapor in atrmsphere over the Valley,and the water vaporflux divergence is reason two of that.The higher precipitation efficiency and less evaporation are prone to accumulate water substance into runoff over the higher Qilian Mountain than the lower Heihe Vale.The lower precipitation efficiency make less precipitation amount over Heihe Vale and correspond with evaporation armunt so as to contribute quite smallness for runoff.In the atrmsphere column over the area of 2.5°×2.5°,the annual influent water vapor amount is 6678×10⁸m³,the annual effluent water vapor amount is 6502×10⁸m³,and the net water vapor amount is 176×10⁸m³.Over theqlian-Heihe Valley,it is inevitable that the precipitation amount will be reduced because the influent water vapor is reducing along with air temperature rising year after year.
- Qilian-Heihe valley,
- atmospheric water vapor,
- precipitation efficiency,
- water vapor source,
- water vapor flux,
- hydrologic cycle

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