Isotopic Constraints on Sources and Transformations of Nitrate in the Mount Everest Proglacial Water

冰川 冰期 硝酸盐 水文学(农业) 环境科学 沉积作用 水生生态系统 地质学 高原(数学) 自然地理学 地貌学 生态学 沉积物 海洋学 地理 生物 数学分析 数学 岩土工程
作者
Mingyue Li,Guitao Shi,Yilan Li,Xiao Yan,Xuejun Sun,Yangzong Deji,Shengnan Li,Huike Dong,Yunqiao Zhou,Xiaoping Wang,Shichang Kang,Qianggong Zhang
出处
期刊:Environmental Science & Technology [American Chemical Society]
卷期号:57 (49): 20844-20853 被引量:6
标识
DOI:10.1021/acs.est.3c06419
摘要

Glacier melting exports a large amount of nitrate to downstream aquatic ecosystems. Glacial lakes and glacier-fed rivers in proglacial environments serve as primary recipients and distributors of glacier-derived nitrate (NO3-), yet little is known regarding the sources and cycling of nitrate in these water bodies. To address this knowledge gap, we conducted a comprehensive analysis of nitrate isotopes (δ15NNO3, δ18ONO3, and Δ17ONO3) in waters from the glacial lake and river of the Rongbuk Glacier-fed Basin (RGB) in the mountain Everest region. The concentrations of NO3- were low (0.43 ± 0.10 mg/L), similar to or even lower than those observed in glacial lakes and glacier-fed rivers in other high mountain regions, suggesting minimal anthropogenic influence. The NO3- concentration decreases upon entering the glacial lake due to sedimentation, and it increases gradually from upstream to downstream in the river as a soil source is introduced. The analysis of Δ17ONO3 revealed a substantial contribution of unprocessed atmospheric nitrate, ranging from 34.29 to 56.43%. Denitrification and nitrification processes were found to be insignificant in the proglacial water of RGB. Our study highlights the critical role of glacial lakes in capturing and redistributing glacier-derived NO3- and emphasizes the need for further investigations on NO3- transformation in the fast-changing proglacial environment over the Tibetan Plateau and other high mountain regions.
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