Water scarcity in the fast‐growing megacity of Lagos, Nigeria and opportunities for managed aquifer recharge

WIREs Water Pub Date : 2024-05-23 DOI:10.1002/wat2.1733
O. Olabode, J. Comte
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Abstract

In the last three decades, the world has experienced a rapid emergence of megacities. The increasing demographics, urbanization, and water demand brought severe and undesired effects on the quantity and quality of their water resources. A prime example is Lagos (Nigeria, West Africa), which is projected to become the world's largest city by 2100, and faces water scarcity challenges common to other megacities of developing countries. A literature review reveals the vast gap between water demand and regulated supply, inadequate knowledge and information on the current state of water (re)sources, and major, yet unregulated, use of groundwater. It further highlights the impacts of uncontrolled wastewater discharge into surface waters and aquifers, the role of increasing paved surfaces and blocked drainages on flooding, the inadequate supply of potable water, and the unsustainable abstraction of groundwater. Here, we examine the potential of managed aquifer recharge (MAR) to address these recurrent challenges across the megacity. The analysis reveals the opportunities and potential risks associated with the capture of wastewater, storm water, and brackish surface water for MAR. These waters, after appropriate treatment and subsurface storage may bridge the growing water supply–demand gap and mitigate the effects of groundwater (over)exploitation, including aquifer depletion, saltwater intrusion and land subsidence. Immediate efforts should focus on improving the conceptual and quantitative knowledge of Lagos' hydrogeology and groundwater resources through comprehensive spatial–temporal groundwater monitoring and socio‐economic studies of groundwater access and use. The insights provided may inform other fast‐growing coastal megacities in Africa and the wider developing world.This article is categorized under: Science of Water > Water and Environmental Change Engineering Water > Water, Health, and Sanitation Human Water > Value of Water Science of Water > Hydrological Processes
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尼日利亚拉各斯快速发展的大城市缺水问题和有管理的含水层补给机会
在过去的三十年里,世界上迅速出现了许多特大城市。不断增长的人口、城市化和水资源需求给水资源的数量和质量带来了严重的不良影响。拉各斯(尼日利亚,西非)就是一个典型的例子,预计到 2100 年,拉各斯将成为世界上最大的城市,与其他发展中国家的特大城市一样面临水资源短缺的挑战。文献综述揭示了水需求与规范供应之间的巨大差距,对水(再)来源现状的了解和信息不足,以及地下水的大量使用却未得到规范。报告进一步强调了无节制地向地表水和含水层排放废水所造成的影响、不断增加的铺面和堵塞的排水沟对洪水的作用、饮用水供应不足以及不可持续的地下水抽取。在此,我们研究了有管理的含水层补给(MAR)在应对整个大城市反复出现的这些挑战方面的潜力。分析揭示了将废水、雨水和咸水地表水收集起来用于 "有管理的含水层补给"(MAR)的机遇和潜在风险。这些水经过适当处理和地下储存后,可以弥补日益增长的水供需缺口,减轻地下水(过度)开采的影响,包括含水层枯竭、盐水入侵和土地沉降。当务之急是通过全面的时空地下水监测以及对地下水获取和使用情况的社会经济研究,集中力量从概念和数量上改进对拉各斯水文地质和地下水资源的认识。本文所属分类:水科学 > 水与环境变化水工程 > 水、健康和卫生人类用水 > 水的价值水科学 > 水文过程
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