Li Guang, Zhang Xin-ping, Zhang Li-feng, Wang Yue-feng, Deng Xiao-jun, Yang Liu, Lei Chao-gui
Huan Jing Ke Xue. 2015 Jun;36(6):2094-101.
Analysis of the variation characteristics of different water bodies is the basis of applying isotopic tracer technique in regional water cycle research. Based on the samples of atmospheric precipitation, surface water (river water) and groundwater (spring water and well water) in Changsha from January 2012 to December 2013, the study analyzed the variation characteristics of δD and δ(18)O in different water bodies. The results showed that the values of D and 18O in precipitation of Changsha showed obvious seasonal variation because of the seasonal difference of the water vapor source, and it showed significant negative correlation between δ(18)O in precipitation and some meteorological factors such as the temperature and the amount, the local meteoric water line revealed the climatic characteristic of humid and rainy in Changsha; the fluctuation of 8D and 80 in surface water was more moderate than those in precipitation, and the seasonal variation of stable isotope value showed lagging characteristic compared with that in precipitation, the difference of river water line (RWL) indicated that the main supply sources of surface water were changing in different seasons; the fluctuation of δD and δ(18)O in groundwater was the least, the variation ranges and mean values of δD and δ(18)O in spring water and well water were very close, it showed that there were some hydraulic connections in the two water bodies, the values of δD and δ(18)O in groundwater were constantly lower during drought months, this phenomenon might have a certain relationship with the increasing absorbency of tree roots from groundwater. The results of the study have certain guiding significance for rational utilization of water resources in the region.
分析不同水体的变化特征是同位素示踪技术应用于区域水循环研究的基础。基于2012年1月至2013年12月长沙地区大气降水、地表水(河水)和地下水(泉水和井水)的样本,本研究分析了不同水体中δD和δ(18)O的变化特征。结果表明,由于水汽来源的季节差异,长沙地区降水中D和18O值呈现明显的季节变化,且降水中δ(18)O与温度、降水量等气象因素之间呈现显著负相关,当地大气降水线揭示了长沙地区湿润多雨的气候特征;地表水中8D和80的波动比降水更为平缓,稳定同位素值的季节变化相对于降水呈现滞后特征,河水线(RWL)的差异表明地表水的主要补给来源在不同季节发生变化;地下水中δD和δ(18)O的波动最小,泉水和井水中δD和δ(18)O的变化范围和平均值非常接近,表明这两种水体之间存在一定的水力联系,干旱月份地下水中δD和δ(18)O值持续较低,这种现象可能与树木根系对地下水吸收能力增强有一定关系。研究结果对该地区水资源的合理利用具有一定的指导意义。