Assessment of Groundwater Vulnerability Using GIS-Based Modified DRASTIC Models, Case Study: Fasarood Plain, South Iran

Q1 Social Sciences

Journal of Environmental Assessment Policy and Management Pub Date : 2022-10-22 DOI:10.1142/s1464333222500296

M. Bahrami, Mohammad Javad Esslamzadeh, A. Zarei

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引用次数: 2

Abstract

Severe droughts and vast anthropogenic activities have propelled groundwater resource contamination in Iran. An accurate investigation of groundwater vulnerability objectively reflects an area’s potential for groundwater contamination and supplies a reference for contamination control and prevention. Therefore, the groundwater vulnerability of the Fasarood plain, south of Iran, was evaluated using the DRASTIC index (DI), Fuzzy-based DRASTIC index (FDI), Composite DRASTIC index (CDI), and Nitrate Vulnerability Index (NVI) methods. The input hydrogeological parameters were rated, weighted, and integrated via a geographical information system (GIS). The results of all models showed very low to moderate intrinsic and anthropogenic vulnerabilities to groundwater pollution. The zones with the most significant exposure may refer to geological formations and improper agriculture activity. The conclusions recommend that the area which was identified as having a higher groundwater pollution risk needs scientific land-use practise along with appropriate watershed management. The agriculturalists working in more vulnerable areas with high nitrate concentrations must begin practising an organic farming system and should replace chemical fertilisers with biofertilisers to reduce the groundwater contamination rate. Also, government departments should encourage reasonable control of groundwater pollution prohibition and withdraw based on changes in groundwater vulnerability in the area.

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使用基于GIS的改良DRASTIC模型评估地下水脆弱性，案例研究：伊朗南部Fasarood平原

严重的干旱和大规模的人类活动加剧了伊朗地下水资源的污染。对地下水脆弱性的准确调查客观地反映了一个地区的地下水污染潜力，为污染控制和预防提供了参考。因此，使用DRASTIC指数（DI）、基于模糊的DRASTIC指标（FDI）、综合DRASTIC索引（CDI）和硝酸盐脆弱性指数（NVI）方法对伊朗南部Fasarood平原的地下水脆弱性进行了评估。通过地理信息系统对输入的水文地质参数进行评级、加权和整合。所有模型的结果都表明，地下水污染的内在和人为脆弱性非常低至中等。暴露最严重的区域可能是指地质构造和不当的农业活动。结论建议，被确定为地下水污染风险较高的地区需要科学的土地利用实践以及适当的流域管理。在硝酸盐浓度较高的脆弱地区工作的农民必须开始实行有机农业系统，并应用生物肥料取代化肥，以降低地下水污染率。此外，政府部门应鼓励合理控制地下水污染禁令，并根据该地区地下水脆弱性的变化退出。

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

Journal of Environmental Assessment Policy and Management Social Sciences-Geography, Planning and Development

CiteScore

7.00

自引率

0.00%

发文量

期刊介绍： The Journal of Environmental Assessment Policy and Management is an interdisciplinary, peer reviewed, international journal covering policy and decision-making relating to environmental assessment (EA) in the broadest sense. Uniquely, its specific aim is to explore the horizontal interactions between assessment and aspects of environmental management (not just the vertical interactions within the broad field of impact assessment) and thereby to identify comprehensive approaches to environmental improvement involving both qualitative and quantitative information. As the concepts associated with sustainable development mature, links between environmental assessment and management systems become all the more essential.