Comparison of the distribution of groundwater remediation units and contaminant (arsenic, iron, fluoride) distribution in Bihar, India for improved water security and management

IF 8 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES
Ajmal Roshan , David A. Polya , Arun Kumar , Ashok Ghosh , Anne-Marie Glenny , Majid Sedighi , Suzie M. Reichman , Meenakshi Arora , Laura A. Richards
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Abstract

Extensive efforts are being made globally to install units to remediate contaminants in groundwaters used for drinking, but are these units being installed in the optimum locations? Here, we explore this question for Bihar, an eastern Indian state with a high reliance on groundwater for drinking water. Bihar is impacted by groundwater quality issues, notably in relation to the geogenic contaminants arsenic (As), iron (Fe) and fluoride (F). We map the distribution of groundwater quality remediation units for As, Fe and F, and which were implemented from 2016 by the Government of Bihar under the aegis of the Public Health Engineering Department (PHED). The majority of the reported remediation units for As are within a distance of 10 km from the main branch of the River Ganges (Ganga), whereas the remediation units for Fe are exclusively present in the eastern and north-eastern districts of Bihar. All of the remediation units for F are located in districts south of the River Ganges. The distributions of the installed remediation units are compared with the distribution and concentration of the target contaminants based on a representative Bihar-wide groundwater sampling campaign reported previously by our group. Inconsistencies are identified in many cases between the distribution of implemented remediation units and areas where elevated levels of the contaminant have been found. Some possible reasons for the apparent mismatches are discussed and include: prioritizing installation on the basis of now out-of-date contaminant distribution maps based on strongly non-representative sampling strategies, and administrative and operational convenience. Our study highlights that there are likely extensive areas in Bihar with groundwater quality issues where necessary interventions are required, but not yet received, whilst there seems to be widespread installation of remediation units where the need is less indicated. Several recommendations are made, including the need for representative, broad-scale (e.g. state-wide) testing to underpin robust decision making for optimal site selection for remediation unit installation for improved drinking water.

Abstract Image

比较印度比哈尔邦地下水修复单位的分布和污染物(砷、铁、氟化物)的分布,以改善水安全和水管理。
全球正在广泛努力安装装置,以修复饮用水地下水中的污染物,但这些装置是否安装在了最佳位置?在此,我们以印度东部高度依赖地下水作为饮用水的比哈尔邦为例,探讨这一问题。比哈尔邦受到地下水质量问题的影响,尤其是与地层污染物砷(As)、铁(Fe)和氟(F-)有关的问题。我们绘制了比哈尔邦政府在公共卫生工程部(PHED)的支持下从 2016 年开始实施的砷、铁和氟化物地下水质量修复单位的分布图。所报告的大多数砷污染修复单位距离恒河(Ganga)主支流不超过 10 公里,而铁污染修复单位则全部位于比哈尔邦的东部和东北部地区。所有的 F- 修复单元都位于恒河以南的地区。根据我们小组之前报告的具有代表性的比哈尔邦全境地下水采样活动,将已安装的修复单元的分布与目标污染物的分布和浓度进行了比较。结果发现,在许多情况下,已实施的修复单元的分布与发现污染物浓度升高的区域之间存在不一致。我们讨论了明显不一致的一些可能原因,其中包括:根据现在已经过时的污染物分布图,按照极不具代表性的取样策略,确定安装的优先顺序,以及行政和操作上的便利。我们的研究突出表明,比哈尔邦可能有大面积的地区存在地下水质量问题,需要采取必要的干预措施,但尚未得到实施,而在不太需要的地方,似乎普遍安装了修复装置。研究提出了若干建议,包括需要进行有代表性的、广泛的(如全州范围内的)测试,以支持为改善饮用水而安装修复装置的最佳选址做出强有力的决策。
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来源期刊
Journal of Environmental Management
Journal of Environmental Management 环境科学-环境科学
CiteScore
13.70
自引率
5.70%
发文量
2477
审稿时长
84 days
期刊介绍: The Journal of Environmental Management is a journal for the publication of peer reviewed, original research for all aspects of management and the managed use of the environment, both natural and man-made.Critical review articles are also welcome; submission of these is strongly encouraged.
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