城市化三角洲浅层地下水中铝的自然背景水平和驱动因素:消除人为影响地下水的启示。

IF 2.5 4区 环境科学与生态学 Q3 ENGINEERING, ENVIRONMENTAL
Gangli Yan, Liguo Yang, Qinxuan Hou
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引用次数: 0

摘要

了解地下水中铝(Al)的天然本底水平(NBLs)可以准确评估区域范围内的地下水铝污染情况。然而,这一点却很少受到关注。本研究采用氧化能力法和盒图迭代法相结合的预选和统计方法,通过剔除人为影响的地下水,对珠江三角洲(PRD)四个地下水单元的浅层地下水铝天然本底水平进行了评估,并探讨了控制该地区地下水铝天然本底水平偏高的驱动因素。研究共采集了 280 个水样,分析了 18 个物理化学参数,包括氧化还原电位、溶解氧、pH 值、溶解性总固体、HCO3 -、NH4 +、NO3 -、SO4 2-、Cl-、NO2 -、F-、K+、Na+、Ca2+、Mg2+、Fe、Mn 和 Al。结果表明,地下水单元 A-D 中的地下水 Al NBLs 分别为 0.11、0.16、0.15 和 0.08 mg/L。由于残差数据集中各地下水单元的地下水铝浓度与土地利用类型无关,但在原始数据集中则相反,因此本研究采用的方法可用于评估珠江三角洲地下水铝无损区。沉积物/岩石中富铝矿物的溶解是珠江三角洲地下水铝负压的主要来源,与富铝河水的相互作用是次要来源。地下水单元 B 的地下水铝负压较高,主要是由于第四纪沉积物中的酸沉淀和有机物矿化诱发了铝的释放。相比之下,地下水单元 C 的高地下水铝无负压主要归因于酸沉淀诱导岩石/土壤中的氟铝酸盐等铝复合物释放到地下水中,但受到含水层中镁矿物(如白云石)溶解的限制。这项研究不仅为评估地下水铝污染提供了有用的地下水铝NBLs,也为了解珠三角等城市化三角洲控制地下水铝的天然地球化学因素提供了参考。实践点:评估了珠江三角洲(PRD)地下水铝的天然本底水平(NBL)。沉积物/岩石中富铝矿物的溶解是珠三角地下水铝自然背景值的主要来源。酸沉淀和有机物矿化导致地下水单元 B 的地下水铝 NBL 偏高;酸沉淀导致地下水单元 C 的地下水铝 NBL 偏高,而镁矿物的溶解则限制了地下水铝 NBL 的偏高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Natural background levels and driving factors of aluminum in shallow groundwater of an urbanized delta: Insight from eliminating anthropogenic-impacted groundwaters.

Knowledge on natural background levels (NBLs) of aluminum (Al) in groundwater can accurately assess groundwater Al contamination at a regional scale. However, it has received little attention. This study used a combination of preselection and statistic methods consisting of the oxidation capacity and the boxplot iteration methods to evaluate the NBL of shallow groundwater Al in four groundwater units of the Pearl River Delta (PRD) via eliminating anthropogenic-impacted groundwaters and to discuss driving factors controlling high NBLs of Al in groundwater in this area. A total of 280 water samples were collected, and 18 physico-chemical parameters including Redox potential, dissolved oxygen, pH, total dissolved solids, HCO3 -, NH4 +, NO3 -, SO4 2-, Cl-, NO2 -, F-, K+, Na+, Ca2+, Mg2+, Fe, Mn, and Al were analyzed. Results showed that groundwater Al NBLs in groundwater units A-D were 0.11, 0.16, 0.15, and 0.08 mg/L, respectively. The used method in this study is acceptable for the assessment of groundwater Al NBLs in the PRD, because groundwater Al concentrations in various groundwater units in residual datasets were independent of land-use types, but they were opposite in the original datasets. The dissolution of Al-rich minerals in sediments/rocks was the major source for groundwater Al NBLs in the PRD, and the interaction with Al-rich river water was secondary one. The high groundwater Al NBL in groundwater unit B was mainly attributed to the acid precipitation and the organic matter mineralization inducing the release of Al in Quaternary sediments. By contrast, the high groundwater Al NBL in groundwater unit C mainly was ascribed to the release of Al complexes such as fluoroaluminate from rocks/soils into groundwater induced by acid precipitation, but it was limited by the dissolution of Mg minerals (e.g., dolomite) in aquifers. This study provides not only useful groundwater Al NBLs for the evaluation of groundwater Al contamination but also a reference for understanding the natural geochemical factors controlling groundwater Al in urbanized deltas such as the PRD. PRACTITIONER POINTS: The natural background level (NBL) of groundwater aluminum in the Pearl River Delta (PRD) was evaluated. The dissolution of aluminum-rich minerals in sediments/rocks was the major source for groundwater aluminum NBLs in the PRD. The acid precipitation and organic matter mineralization contribute to high groundwater Al NBL in the groundwater unit B. The acid precipitation contributes to high groundwater Al NBL in the groundwater unit C, while dissolution of magnesium minerals limits it.

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来源期刊
Water Environment Research
Water Environment Research 环境科学-工程:环境
CiteScore
6.30
自引率
0.00%
发文量
138
审稿时长
11 months
期刊介绍: Published since 1928, Water Environment Research (WER) is an international multidisciplinary water resource management journal for the dissemination of fundamental and applied research in all scientific and technical areas related to water quality and resource recovery. WER''s goal is to foster communication and interdisciplinary research between water sciences and related fields such as environmental toxicology, agriculture, public and occupational health, microbiology, and ecology. In addition to original research articles, short communications, case studies, reviews, and perspectives are encouraged.
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