Water stable isotopes in the Yarlungzangbo headwater region and its vicinity of the southwestern Tibetan Plateau

Various types of water samples across the Yarlungzangbo headwater region and its vicinity of the southwestern Tibetan Plateau were collected in summer 2012 for isotopic analysis to augment our specific understanding of regional hydroclimate. In the upper Yarlungzangbo system, contribution of more is...

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Main Authors: Wei Ren, Tandong Yao, Shiyou Xie
Format: Article
Language:English
Published: Taylor & Francis Group 2016-06-01
Series:Tellus: Series B, Chemical and Physical Meteorology
Subjects:
Online Access:http://www.tellusb.net/index.php/tellusb/article/view/30397/47234
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spelling doaj-ca241240b4be40c7810eb71328a853c02020-11-24T23:54:38ZengTaylor & Francis GroupTellus: Series B, Chemical and Physical Meteorology1600-08892016-06-0168011310.3402/tellusb.v68.3039730397Water stable isotopes in the Yarlungzangbo headwater region and its vicinity of the southwestern Tibetan PlateauWei Ren0Tandong Yao1Shiyou Xie2 School of Geographical Sciences, Southwest University, Chongqing, China Key Laboratory of Tibetan Environment Changes and Land Surface Processes, Institute of Tibetan Plateau Research, Chinese Academy of Sciences, Beijing, China School of Geographical Sciences, Southwest University, Chongqing, ChinaVarious types of water samples across the Yarlungzangbo headwater region and its vicinity of the southwestern Tibetan Plateau were collected in summer 2012 for isotopic analysis to augment our specific understanding of regional hydroclimate. In the upper Yarlungzangbo system, contribution of more isotopically depleted tributary influx rather than evaporation is identified as the major hydrological process, and this causes generally progressive depletion in main flow isotopes downstream/eastward. On the regional scale (from the middle Yarlungzangbo basin to the western vicinity of the Yarlungzangbo headwaters), one of the clearest findings is the synchronous increases in river/stream δ18O and d-excess (d-excess= δD – 8δ18O) from east to west. From a geographical and climatological perspective, these can be explained by increasing contributions of summer-time continental/local recycled vs. monsoonal moisture or winter-spring vs. summer monsoon precipitation in the surface runoff generation westward. The Yarlungzangbo headwaters are at a critical transition between the Indian monsoon system in the east and the westerly one in the west as revealed by the intermediate d-excess and δ18O values, while the Himalaya region farther west (i.e. Pulan region) is predominated by the continental recycled moisture as revealed by the highest d-excess and δ18O values. Furthermore, based upon existing isotopic and meteorological data, a predicted local evaporation line for the Yarlungzangbo headwater region and its vicinity is proposed, which can further help to assess how local hydroclimate affect water stable isotopes. Results of this study provide a baseline for isotopic hydroclimate research in the southwestern Tibetan Plateau.http://www.tellusb.net/index.php/tellusb/article/view/30397/47234water stable isotopesYarlungzangbo headwater regionmoisture sourceshydroclimate
collection DOAJ
language English
format Article
sources DOAJ
author Wei Ren
Tandong Yao
Shiyou Xie
spellingShingle Wei Ren
Tandong Yao
Shiyou Xie
Water stable isotopes in the Yarlungzangbo headwater region and its vicinity of the southwestern Tibetan Plateau
Tellus: Series B, Chemical and Physical Meteorology
water stable isotopes
Yarlungzangbo headwater region
moisture sources
hydroclimate
author_facet Wei Ren
Tandong Yao
Shiyou Xie
author_sort Wei Ren
title Water stable isotopes in the Yarlungzangbo headwater region and its vicinity of the southwestern Tibetan Plateau
title_short Water stable isotopes in the Yarlungzangbo headwater region and its vicinity of the southwestern Tibetan Plateau
title_full Water stable isotopes in the Yarlungzangbo headwater region and its vicinity of the southwestern Tibetan Plateau
title_fullStr Water stable isotopes in the Yarlungzangbo headwater region and its vicinity of the southwestern Tibetan Plateau
title_full_unstemmed Water stable isotopes in the Yarlungzangbo headwater region and its vicinity of the southwestern Tibetan Plateau
title_sort water stable isotopes in the yarlungzangbo headwater region and its vicinity of the southwestern tibetan plateau
publisher Taylor & Francis Group
series Tellus: Series B, Chemical and Physical Meteorology
issn 1600-0889
publishDate 2016-06-01
description Various types of water samples across the Yarlungzangbo headwater region and its vicinity of the southwestern Tibetan Plateau were collected in summer 2012 for isotopic analysis to augment our specific understanding of regional hydroclimate. In the upper Yarlungzangbo system, contribution of more isotopically depleted tributary influx rather than evaporation is identified as the major hydrological process, and this causes generally progressive depletion in main flow isotopes downstream/eastward. On the regional scale (from the middle Yarlungzangbo basin to the western vicinity of the Yarlungzangbo headwaters), one of the clearest findings is the synchronous increases in river/stream δ18O and d-excess (d-excess= δD – 8δ18O) from east to west. From a geographical and climatological perspective, these can be explained by increasing contributions of summer-time continental/local recycled vs. monsoonal moisture or winter-spring vs. summer monsoon precipitation in the surface runoff generation westward. The Yarlungzangbo headwaters are at a critical transition between the Indian monsoon system in the east and the westerly one in the west as revealed by the intermediate d-excess and δ18O values, while the Himalaya region farther west (i.e. Pulan region) is predominated by the continental recycled moisture as revealed by the highest d-excess and δ18O values. Furthermore, based upon existing isotopic and meteorological data, a predicted local evaporation line for the Yarlungzangbo headwater region and its vicinity is proposed, which can further help to assess how local hydroclimate affect water stable isotopes. Results of this study provide a baseline for isotopic hydroclimate research in the southwestern Tibetan Plateau.
topic water stable isotopes
Yarlungzangbo headwater region
moisture sources
hydroclimate
url http://www.tellusb.net/index.php/tellusb/article/view/30397/47234
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