关于利用同位素示踪剂进行长江上游森林流域水资源回撤评价的通知

Yuchuan Meng, Guodong Liu
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引用次数: 0

摘要

为评价黄蚌流流域高寒河流水系的水文特征,对2008年和2009年几乎每月采集的150多个水样进行了稳定同位素组成测量,包括大气水、河流水、冰雪融水和地下水。研究结果表明:(1)大气水稳定同位素具有数量效应,其中融水耗竭最多,地下水和河水受大气水的影响表现出明显的季节变化;(二)不同采样点间的径流同位素变化总体上存在不同的时空变化趋势,这主要是由不同水源的影响和支流水输入的影响造成的;(iii)基于δ18O的二元模型估算出年冰雪融水输入占总流量的比例在39.84% ~ 81.89%之间,地下水输入占总流量的比例在18.1% ~ 60.16%之间。冰雪融水是高寒河流的重要水源,降水是河流δ18O和δD季节变化的主要来源。冰雪融水在青藏高原周边地区高寒水源管理中具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Notice of RetractionWater Resources Assessment of the Forest Watershed in the Upper Reaches of Yangtze River, Using Isotope Tracers
To assess the hydrologic features of the alpine river systems in the Huangbengliu basin, stable isotopic composition was measured on more than 150 water samples, including meteoric water, stream water, ice-snow meltwater and ground water, collected almost monthly in 2008 and 2009. The results of this work indicate that: (i) the stable isotope of meteoric waters has amount effect, and melt water is most depleted, and ground water and river water show evident seasonal variation due to the influence of meteoric water; (ii) there exist overall different spatial and temporal trends in isotopic variations between the sampling locations in stream flow, which are mainly caused by the influences of various water sources and the effects of tributary water inputs; (iii) using a δ18O based binary model, we estimated that the annual proportion of ice-snow meltwater inputs over the total stream flow varied from 39.84% to 81.89%, and that of ground water varied from 18.1% to 60.16%. Ice-snow meltwater is an important source of the alpine rivers, and precipitation provides the main part of seasonal variations of stream water in δ18O and δD. The ice-snow meltwater is significantly important in the alpine water source management in the periphery of the Qinghai-Tibetan Plateau.
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