Challenges of groundwater pollution and management in transboundary basins at the African scale

Q3 Earth and Planetary Sciences

Proceedings of the International Association of Hydrological Sciences Pub Date : 2021-11-16 DOI:10.5194/piahs-384-69-2021

I. Ouédraogo, M. Vanclooster

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引用次数: 1

Abstract

Abstract. We address the significant knowledge gap for groundwater pollution in Africa methods by assessing groundwater pollution risk at the African scale. To do so, we compiled the most recent continental-scale information on soil, land use, geology, hydrogeology, and topography in a Geographical Information System at the resolution of 15 × 15 km and the 1:60 000 000 scale. We produced a vulnerability map by using the generic DRASTIC vulnerability indicator. This map revealed that groundwater is highly vulnerable in Central and West Africa groundwater basins, where the water table is shallow. In addition, very low vulnerability classes are found in the large sedimentary basins of Africa deserts where groundwater is situated in very deep aquifers. The generic groundwater pollution risk map is obtained by overlaying the DRASTIC vulnerability indicator with current land use. The northern, central, and western parts of the African continent are dominated by high vulnerability classes and very strongly related to water table depths and the development of agricultural activities. Given the availability of data, we concentrate first on nitrate vulnerability mapping. To this end, groundwater nitrate contamination data are compiled in literature using meta-analysis technic and used to calibrate as well linear and nonlinear statistical models; the latter performing much better as compared to simple linear statistical models. This study will help to raise awareness of the manager's International Basin Authorities or Transboundary Basin Organizations in Africa and in particular on transboundary groundwater pollution issues.

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非洲跨界盆地地下水污染和管理的挑战

摘要我们通过评估非洲规模的地下水污染风险来解决非洲地下水污染方法的重大知识差距。为此，我们在地理信息系统中以15 × 15 km分辨率和1:6 000 000比例尺编制了最新的大陆尺度土壤、土地利用、地质、水文地质和地形信息。我们通过使用genericDRASTIC漏洞指示器生成了一个漏洞映射。这张地图显示，在地下水位较浅的中非和西非地下水盆地，地下水非常脆弱。此外，在非洲沙漠的大型沉积盆地中发现了非常低的脆弱性等级，因为地下水位于非常深的含水层中。将DRASTIC脆弱性指标与当前土地利用叠加得到地下水污染风险图。非洲大陆的北部、中部和西部地区以高度脆弱阶层为主，与地下水位深度和农业活动的发展密切相关。鉴于数据的可用性，我们首先关注硝酸盐脆弱性映射。为此，利用元分析技术对地下水硝酸盐污染数据进行文献整理，并对线性和非线性统计模型进行校正;与简单的线性统计模型相比，后者的性能要好得多。这项研究将有助于提高管理者在非洲的国际流域当局或跨界流域组织的认识，特别是对跨界地下水污染问题的认识。

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

Proceedings of the International Association of Hydrological Sciences Earth and Planetary Sciences-Earth and Planetary Sciences (all)

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0.00%

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审稿时长

12 weeks