Oliver C. Moore , Amy D. Holt , Laura A. Richards , Amy M. McKenna , Robert G.M. Spencer , Dan J. Lapworth , David A. Polya , Jonathan R. Lloyd , Bart E. van Dongen
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引用次数: 0
摘要
亚洲各地的含水层都受到了地生砷(As)通过微生物还原含砷的氢氧化铁(III)矿物而释放到地下水中的影响,严重影响了水质。地下水溶解有机物(DOM)可能是砷释放的关键,主要作为电子供体或电子快车。本研究利用光学分析和超高分辨率质谱仪,在柬埔寨干丹省的易砷含水层中,通过不同主岩性(粘土和砂土为主)的钻孔,研究了地下水 DOM 的来源和组成。地下水和地表水 DOM 组成与砷浓度相关,以推断 DOM 在促进砷释放方面的潜在作用。光学和分子水平分析表明,地下水样本中的陆源 DOM 总体上占主导地位,与沙为主的岩性相比,粘土中脂肪族化合物的新鲜度指数和相对丰度 (RA) 较高。与地表水相比,地下水 DOM 的 O/C 比和碳的名义氧化态相对较低(地下水和地表水的 O/C 比和碳的名义氧化态分别为 -0.19 至 -0.13,而地下水和地表水的 O/C 比和碳的名义氧化态分别为 0.04),脂肪族化合物的相对丰度(%RA)较低,而富含羧基的脂环族分子的相对丰度(%RA)较高,这表明 DOM 在渗入含水层后经过了微生物处理。这两个地点的砷浓度与 DOM 色氨酸:类富勒烯荧光和脂肪族化合物的%RA 呈负相关,这可能表明微生物在释放砷的同时也降解了可生物降解的 DOM,这与其作为电子供体源的作用是一致的。总之,这些数据支持 DOM 成分是控制微生物介导的砷释放的重要因素。
Characterisation of dissolved organic matter in two contrasting arsenic-prone sites in Kandal Province, Cambodia
Aquifers throughout Asia are impacted by the release of geogenic arsenic (As) into groundwater by microbial reduction of As-bearing Fe(III) (oxy)hydroxide minerals, severely impacting water quality. Groundwater dissolved organic matter (DOM) is likely key to As release, mainly as electron donor or electron shuttles. This study used optical analyses and ultra-high resolution mass spectrometry to examine the sources and composition of groundwater DOM in the As-prone aquifers of Kandal Province, Cambodia, at boreholes with differing host lithology (clay- and sand-dominated). Groundwater and surface water DOM composition were related to As concentrations, to infer the potential role of DOM in promoting As release. Optical and molecular-level analyses indicated an overall dominance of terrestrial-derived DOM in the groundwater samples, with higher freshness index and relative abundance (RA) of aliphatic compounds in clay compared to sand-dominated lithology. Compared to surface water, groundwater DOM had relatively lower O/C ratios and nominal oxidation state of carbon (−0.19 to −0.13 compared to 0.04 for ground and surface water, respectively), with a lower %RA of aliphatic compounds and higher %RA of carboxyl-rich alicyclic molecules, suggesting microbial processing of DOM since percolation into the aquifer. Concentrations of As across both sites were negatively correlated with DOM tryptophan:fulvic-like fluorescence and the %RA of aliphatics, potentially indicating microbial degradation of biolabile DOM in connection with As release, which is consistent with its role as an electron donor source. Together these data support DOM composition as an important control on microbial mediated As release.
期刊介绍:
Organic Geochemistry serves as the only dedicated medium for the publication of peer-reviewed research on all phases of geochemistry in which organic compounds play a major role. The Editors welcome contributions covering a wide spectrum of subjects in the geosciences broadly based on organic chemistry (including molecular and isotopic geochemistry), and involving geology, biogeochemistry, environmental geochemistry, chemical oceanography and hydrology.
The scope of the journal includes research involving petroleum (including natural gas), coal, organic matter in the aqueous environment and recent sediments, organic-rich rocks and soils and the role of organics in the geochemical cycling of the elements.
Sedimentological, paleontological and organic petrographic studies will also be considered for publication, provided that they are geochemically oriented. Papers cover the full range of research activities in organic geochemistry, and include comprehensive review articles, technical communications, discussion/reply correspondence and short technical notes. Peer-reviews organised through three Chief Editors and a staff of Associate Editors, are conducted by well known, respected scientists from academia, government and industry. The journal also publishes reviews of books, announcements of important conferences and meetings and other matters of direct interest to the organic geochemical community.
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