The altitude effect of ^(18)δO in precipitation and river water in the Southern Himalayas 被引量：12

The altitude effect of ^(18)δO in precipitation and river water in the Southern Himalayas

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摘要 The lapse rate of water isotopes is used in the study of the hydrologic cycle as well as in the estimation of uplift of the Tibetan Plateau.The greater elevation contrast in the Southern Himalayas allows for a detailed discussion about this lapse rate.We analyze variations of 18δO in precipitation and river water between 1320 m and 6700 m elevations in the Southern Himalayas,and calculate the specific lapse rate of water 18δO.The results show that the multi-year average lapse rate in precipitation over this region is 0.15‰/100 m.The one-year average lapse rate is 0.17‰/100 m from three sites along the Southern Himalayas.The two results agree,but are much lower than the global average of 0.28‰/100 m.This work also shows that there is a difference in precipitation 18δO lapse rate between the monsoon and non-monsoon seasons.The calculated precipitation lapse rate is much lower than that in surface water. The lapse rate of water isotopes is used in the study of the hydrologic cycle as well as in the estimation of uplift of the Tibetan Plateau. The greater elevation contrast in the Southern Himalayas allows for a detailed discussion about this lapse rate. We analyze variations of δ18O in precipitation and river water between 1320 m and 6700 m elevations in the Southern Himalayas, and calculate the specific lapse rate of water δ18O. The results show that the multi-year average lapse rate in precipitation over this region is 0.15‰100 m. The one-year average lapse rate is 0.17‰100 m from three sites along the Southern Himalayas. The two results agree, but are much lower than the global average of 0.28‰100 m. This work also shows that there is a difference in pre- cipitation δ18O lapse rate between the monsoon and non-monsoon seasons. The calculated precipitation lapse rate is much lower than that in surface water.

作者 WEN Rong TIAN LiDe WENG YongBiao LIU ZhongFang ZHAO ZhongPing

机构地区 Key Laboratory of Tibetan Environment Changes and Land Surface Processes Graduate University of Chinese Academy of Sciences State Key Laboratory of Cryosphere Sciences Tianjin Key Laboratory of Water Environment and Water Resource

出处《Chinese Science Bulletin》 SCIE EI CAS 2012年第14期1693-1698,共6页

基金 supported by the National Basic Research Program of China (2010CB951702) the National Natural Science Foundation of China (41025002) the Knowledge Innovation Program of the Chinese Academy of Sciences (KZCX2-YW-Q09-03 and KZCX2-YW-GJ05)

关键词喜马拉雅山脉降水率河水高程效应青藏高原隆升递减率水文循环同位素 δ18O, precipitation, river water, isotopic lapse rate, southern Himalayas

分类号 P542.1 [天文地球—构造地质学] TV212 [水利工程—水文学及水资源]

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参考文献12

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