Assessing groundwater quality in Nand Samand catchment, Rajasthan, India: a GIS-based multi indices approach for drinking and irrigation water suitability

Water Practice & Technology Pub Date : 2024-03-25 DOI:10.2166/wpt.2024.069

Dimple Dimple, P. K. Singh, M. Kothari, K. Yadav, S. R. Bhakar, Jitendra Rajput, Anvesha

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Abstract

Consistently monitoring groundwater quality (GWQ) is essential to reduce the risk of geochemical contaminants and ensure its suitability for agriculture and human consumption. The current investigation aims to assess GW acceptability in the Nand Samand catchment (NSC), utilizing the water quality index (WQI) and irrigation water quality indices (IWQIs) for domestic and irrigation purposes. To achieve this, GW samples were collected from 95 open wells which were located spatially in the catchment, during the pre-monsoon (PRM) and post-monsoon (POM) seasons of 2019 and 2020, and subsequently analysed for 11 physico-chemical parameters. Electrical conductivity (EC) varied from 1.25 to 6.61 dS/m and 0.58 to 7.42 dS/m during the PRM and POM seasons, respectively. Total dissolved solids of the study area ranged between 180 and 1,180 (27%) to 1,180 and 2,180 (62%) during PRM 1,180 (63%) to 1,180–2,180 (31%) during POM, respectively. The study also computed the ‘sodium adsorption ratio’ (SAR) and ‘residual sodium carbonate’ (RSC) to estimate GW's appropriateness for agriculture, finding it suitable in most locations due to its balanced composition. Based on WQI, varying percentages of samples were classified as ‘good’ and ‘poor’ for potable water quality in both seasons.

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印度拉贾斯坦邦 Nand Samand 流域地下水质量评估：基于地理信息系统的饮用水和灌溉水适宜性多指数方法

持续监测地下水质量（GWQ）对于降低地球化学污染物的风险、确保地下水适合农业和人类饮用至关重要。目前的调查旨在评估南德萨曼德集水区（NSC）地下水的可接受性，利用水质指数（WQI）和灌溉水水质指数（IWQIs）评估生活和灌溉用水。为此，在 2019 年和 2020 年的季风前（PRM）和季风后（POM）季节，从位于集水区的 95 口露天水井中采集了地下水样本，随后对 11 个理化参数进行了分析。在季风前（PRM）和季风后（POM）季节，电导率（EC）的变化范围分别为 1.25 至 6.61 dS/m 和 0.58 至 7.42 dS/m。研究区域的总溶解固体含量分别介于 180-1,180 (27%) 到 1,180-2,180 (62%) 之间，PRM 期间介于 1,180-1,180 (63%) 到 1,180-2,180 (31%)之间。研究还计算了 "钠吸附率"（SAR）和 "残余碳酸钠"（RSC），以估算 GW 对农业的适宜性。根据水质指数（WQI），两个季节的饮用水水质均有不同比例的样本被归类为 "良好 "和 "较差"。

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Water Practice & Technology

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