Factors controlling the water quality of rock glacier springs in European and American mountain ranges.

IF 5.4 2区医学 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Biomaterials Science & Engineering Pub Date : 2024-11-25 Epub Date: 2024-08-27 DOI:10.1016/j.scitotenv.2024.175706

Stefano Brighenti, Nicola Colombo, Thomas Wagner, Michael Pettauer, Nicolas Guyennon, Karl Krainer, Monica Tolotti, Michela Rogora, Luca Paro, Sandra M Steingruber, Chantal Del Siro, Cristian Scapozza, Noelia R Sileo, Cristian D Villarroel, Masaki Hayashi, Jeffrey Munroe, Dario Trombotto Liaudat, Leonardo Cerasino, Werner Tirler, Francesco Comiti, Michele Freppaz, Franco Salerno, M Iggy Litaor, Edoardo Cremonese, Umberto Morra di Cella, Gerfried Winkler

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Abstract

Rock glaciers (RGs) provide significant water resources in mountain areas under climate change. Recent research has highlighted high concentrations of solutes including trace elements in RG-fed waters, with negative implications on water quality. Yet, sparse studies from a few locations hinder conclusions about the main drivers of solute export from RGs. Here, in an unprecedented effort, we collected published and unpublished data on rock glacier hydrochemistry around the globe. We considered 201 RG springs from mountain ranges across Europe, North and South America, using a combination of machine learning, multivariate and univariate analyses, and geochemical modeling. We found that 35 % of springs issuing from intact RGs (containing internal ice) have water quality below drinking water standards, compared to 5 % of springs connected to relict RGs (without internal ice). The interaction of ice and bedrock lithology is responsible for solute concentrations in RG springs. Indeed, we found higher concentrations of sulfate and trace elements in springs sourcing from intact RGs compared to water originating from relict RGs, mostly in specific lithological settings. Enhanced sulfide oxidation in intact RGs is responsible for the elevated trace element concentrations. Challenges for water management may arise in mountain catchments rich in intact RGs, and where the predisposing geology would make these areas geochemical RG hotspots. Our work represents a first comprehensive attempt to identify the main drivers of solute concentrations in RG waters.

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控制欧洲和美洲山脉岩石冰川泉水水质的因素。

在气候变化的情况下，岩石冰川（RG）为山区提供了重要的水资源。最近的研究突出表明，冰川融水中的溶质（包括微量元素）浓度很高，对水质产生了负面影响。然而，对少数几个地点进行的稀少研究阻碍了对 RG 溶质输出的主要驱动因素得出结论。在此，我们史无前例地收集了全球已发表和未发表的岩冰川水化学数据。我们采用机器学习、多变量和单变量分析以及地球化学建模相结合的方法，研究了欧洲、北美洲和南美洲山脉中的 201 个岩冰川泉水。我们发现，从完整的区域地质构造（含有内部冰层）中涌出的泉水有 35% 的水质低于饮用水标准，而与之相连的遗迹区域地质构造（不含内部冰层）中的泉水只有 5%。冰与基岩岩性的相互作用是造成区域地质构造泉水中溶质浓度的原因。事实上，我们发现，与源自残余地下水源的泉水相比，源自完整地下水源的泉水中硫酸盐和微量元素的浓度更高，主要是在特定的岩性环境中。完整区域地质中硫化物氧化作用的增强是微量元素浓度升高的原因。在富含完整地下水层的山区集水区，水管理可能会面临挑战，因为这些地区的地质条件会使其成为地下水层地球化学热点。我们的工作是首次全面尝试确定 RG 水体中溶质浓度的主要驱动因素。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ACS Biomaterials Science & Engineering Materials Science-Biomaterials

CiteScore

10.30

自引率

3.40%

发文量

413

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