Understanding arsenic behavior in alluvial aquifers: Evidence from sediment geochemistry, solute chemistry and environmental isotopes

IF 8.5 1区地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY

Geoscience frontiers Pub Date : 2024-04-18 DOI:10.1016/j.gsf.2024.101844

Shailesh Kumar Yadav , AL. Ramanathan , Chidambaram Sabarathinam , Alok Kumar , Manoj Kumar , Anshula Dhiman

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Abstract

The hydro-geochemistry and isotopic variations in groundwater, coupled with sediment geochemistry, were investigated in the Middle Gangetic Plain, India, to better understand the aquifer dynamics that influence the arsenic (As) evolution and mobilization. Eighty-four groundwater samples, thirteen River water samples, and two sediment cores (33 mbgl) were studied. The samples were analyzed for major ions and trace metals, including As and stable isotopic variability (δ²H, δ¹⁸O, and δ¹³C). The study area was categorized into older and younger alluvium based on existing geomorphological differences. Younger alluvium exhibits higher As enrichment in sediment and groundwater, ranging of 2.59–31.52 mg/kg and bdl to 0.62 mg/L. Groundwater samples were thermodynamically more stable with As(OH)₃ species ranging from 88.5% to 91.4% and FeOOH from 69% to 81%, respectively. PHREEQC and mineralogical analysis suggested goethite and siderite act as a source and sink for As. However, statistical analysis suggested reductive dissolution as the primary mechanism for As mobilization in the study area. Spatio-temporal analysis revealed elevated concentrations of As in the central and northeastern regions of the study area. Stable isotope (δ²H and δ¹⁸O) analysis inferred active recharge conditions primarily driven by precipitation. The depleted d-excess value and enriched δ¹⁸O in the groundwater of younger alluvium indicate the effect of groundwater recharge with significant evaporation enrichment. Groundwater recharge potentially decreased the quantity of arsenic in groundwater, whereas evaporation enrichment increased it. Rainwater infiltration during recharge introduces oxygenated water into the aquifer, leading to changes in the redox conditions and facilitating biogeochemical reactions. The carbon isotope (δ¹³C) results suggest that high microbial activity in younger alluvium promotes As leaching from sediment into the groundwater.

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了解冲积含水层中砷的行为：沉积物地球化学、溶质化学和环境同位素提供的证据

研究人员对印度恒河平原中部地下水的水文地球化学和同位素变化以及沉积物地球化学进行了调查，以更好地了解影响砷（As）演变和迁移的含水层动态。研究了 84 个地下水样本、13 个河水样本和两个沉积物岩心（33 mbgl）。对样本进行了主要离子和痕量金属分析，包括砷和稳定同位素变异性（δ2H、δ18O 和 δ13C）。根据现有的地貌差异，将研究区域分为老冲积层和年轻冲积层。较年轻的冲积层在沉积物和地下水中表现出较高的砷富集度，范围为 2.59-31.52 毫克/千克和 0.62 毫克/升。地下水样本在热力学上更为稳定，As(OH)3 的含量分别为 88.5% 至 91.4%，FeOOH 的含量分别为 69% 至 81%。PHREEQC 和矿物学分析表明，鹅绿泥石和菱铁矿是砷的源和汇。然而，统计分析表明，还原溶解是研究区域砷迁移的主要机制。时空分析表明，研究区中部和东北部地区的砷浓度较高。稳定同位素（δ2H 和 δ18O）分析推断出主要由降水驱动的活跃补给条件。较年轻冲积层地下水中的 d-excess 值减小，δ18O 增大，这表明地下水补给在大量蒸发富集的情况下产生了影响。地下水补给可能会减少地下水中的砷含量，而蒸发富集则会增加砷含量。补给过程中的雨水渗透将含氧水引入含水层，导致氧化还原条件发生变化，促进生物地球化学反应。碳同位素（δ13C）结果表明，较年轻的冲积层中微生物活动频繁，促进了砷从沉积物中沥滤到地下水中。

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来源期刊

Geoscience frontiers Earth and Planetary Sciences-General Earth and Planetary Sciences

CiteScore

17.80

自引率

3.40%

发文量

147

审稿时长

35 days

期刊介绍： Geoscience Frontiers (GSF) is the Journal of China University of Geosciences (Beijing) and Peking University. It publishes peer-reviewed research articles and reviews in interdisciplinary fields of Earth and Planetary Sciences. GSF covers various research areas including petrology and geochemistry, lithospheric architecture and mantle dynamics, global tectonics, economic geology and fuel exploration, geophysics, stratigraphy and paleontology, environmental and engineering geology, astrogeology, and the nexus of resources-energy-emissions-climate under Sustainable Development Goals. The journal aims to bridge innovative, provocative, and challenging concepts and models in these fields, providing insights on correlations and evolution.