尼泊尔加德满都降水稳定同位素的主要控制因素

N. Adhikari, Jing Gao, T. Yao, Yulong Yang, Di Dai
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引用次数: 13

摘要

通过近30年的降水稳定同位素(2H和18O)研究,对青藏高原特别是喜马拉雅山北部地区的气候控制有了充分的了解。然而,尼泊尔(喜马拉雅山以南)降水稳定同位素控制的知识仍然远远不够。本研究描述了尼泊尔加德满都2016年5月10日至2018年9月21日降水稳定同位素的季节和年度变化,并分析了降水稳定同位素的可能控制因素。非季风季节δD和δ18O值富集,季风季节δ18O值亏缺,表现出明显的季风影响的季内特征。局地大气水线表明,在非季风季节,蒸发对降水的影响较大,而在季风季节,非平衡过程对降水的影响较大。温度-δ18O在整体上呈负相关,在季节尺度上无显著相关,主要受季风水汽的影响。季风季节δ18O与出射长波辐射(OLR)呈正相关,表明对流活动对降水稳定同位素的时间变化有显著影响。2016年和2017年4、5月降水稳定同位素的变化可能与多种水汽混合及西风带输送有关。研究表明,水汽输运过程是加德满都地区降水稳定同位素的主要控制因素。
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The main controls of the precipitation stable isotopes at Kathmandu, Nepal
Abstract Precipitation stable isotopes (2H and 18O) are adequately understood on their climate controls in the Tibetan Plateau, especially the north of Himalayas via about 30 years’ studies. However, knowledge of controls on precipitation stable isotopes in Nepal (the south of Himalayas), is still far from sufficient. This study described the intra-seasonal and annual variations of precipitation stable isotopes at Kathmandu, Nepal from 10 May 2016 to 21 September 2018 and analysed the possible controls on precipitation stable isotopes. The enriched δD and δ18O values were identified during non-monsoon season and depleted values were found during monsoon season, showing remarkable intra-seasonal characteristics of monsoon influence. The local meteoric water line suggested a strong influence of evaporation during rainfall in non-monsoon season and significant impact of non-equilibrium processes on precipitation during monsoon season. Temperature–δ18O exhibited negative correlation for overall samples and showed no significant correlation in seasonal scales, which was attributed to the influence of monsoon moisture. The positive correlation was observed between δ18O and outgoing longwave radiation (OLR) in monsoon season, suggesting the significant impact of convective activity on temporal variations of precipitation stable isotopes. During April, and May of 2016 and 2017, variation of precipitation stable isotopes are probably related with the mixing of multi-moisture combined with the westerlies transport. Our study suggested that the moisture transport processes are the main controls of precipitation stable isotopes at Kathmandu.
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