Assessing the role of groundwater recharge from tanks in crystalline bedrock aquifers in Karnataka, India, using hydrochemical tracers

IF 3.1 Q2 GEOSCIENCES, MULTIDISCIPLINARY
Bentje Brauns , Somsubhra Chattopadhyay , Dan J. Lapworth , Sian E. Loveless , Alan M. MacDonald , Andrew A. McKenzie , Muddu Sekhar , Siva Naga Venkat Nara , Veena Srinivasan
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引用次数: 3

Abstract

The majority of India’s rural drinking water supply is sourced from groundwater, which also plays a critical role in irrigated agriculture, supporting the livelihoods of millions of users. However, recent high abstractions are threatening the sustainable use of groundwater, and action is needed to ensure continued supply. Increased managed aquifer recharge (MAR) using the > 200,000 existing tanks (artificially created surface water bodies) is one of the Indian government’s key initiatives to combat declining groundwater levels. However, few studies have directly examined the effectiveness of tank recharge, particularly in the complex fractured hydrogeology of Peninsular India. To address this gap, this study examined the impact of tanks in three crystalline bedrock catchments in Karnataka, southern India, by analysing the isotopic and hydrochemical composition of surface waters and groundwaters, combined with groundwater level observations. The results indicate that tanks have limited impact on regional groundwater recharge and quality in rural areas, where recharge from precipitation and groundwater recycling from irrigation dominate the recharge signal. In the urban setting (Bengaluru), impermeable surfaces increased the relative effect of recharge from point sources such as tanks and rivers, but where present, pipe leakage from public-water-supply accounted for the majority of recharge. Shallow groundwater levels in the inner parts of the city may lead to groundwater discharge to tanks, particularly in the dry season. We conclude that the importance of aquifer recharge from tanks is limited compared to other recharge sources and highly dependent on the specific setting. Additional studies to quantify tank recharge and revisions to the current guidelines for national groundwater recharge estimations, using a less generalised approach, are recommended to avoid over-estimating the role tanks play in groundwater recharge.

使用水化学示踪剂评估印度卡纳塔克邦结晶基岩含水层水箱补给地下水的作用
印度农村的大部分饮用水供应来自地下水,地下水在灌溉农业中也发挥着关键作用,支持着数百万用户的生计。然而,最近的高抽取量正在威胁地下水的可持续利用,需要采取行动确保持续供应。使用>增加管理含水层补给(MAR);20万个现有的水箱(人工创造的地表水体)是印度政府应对地下水位下降的关键举措之一。然而,很少有研究直接考察储罐补给的有效性,特别是在印度半岛复杂的裂缝水文地质中。为了解决这一差距,本研究通过分析地表水和地下水的同位素和水化学成分,结合地下水位观测,研究了印度南部卡纳塔克邦三个结晶基岩集水区的水箱的影响。结果表明,水库对农村地区地下水补给和水质的影响有限,降水补给和灌溉循环水是主要的补给信号。在城市环境中(班加罗尔),不透水的表面增加了从水箱和河流等点源补给的相对效果,但在现有的地方,公共供水的管道泄漏占了补给的大部分。城市内部较浅的地下水位可能导致地下水排放到水箱中,特别是在旱季。我们得出结论,与其他补给来源相比,储罐补给含水层的重要性是有限的,并且高度依赖于特定的设置。建议进行进一步的研究,以量化储罐的回灌量,并采用较不普遍的方法修订目前的国家地下水回灌估计准则,以避免高估储罐在地下水回灌中的作用。
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 Hydrology X
Journal of Hydrology X Environmental Science-Water Science and Technology
CiteScore
7.00
自引率
2.50%
发文量
20
审稿时长
25 weeks
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