Transpiration from crystalline unconfined aquifers as the cause of groundwater salinization in a semiarid area of Brazil

IF 2.4 3区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY
Marjorie Beate Kreis, Jean-Denis Taupin, Patrick Lachassagne, Nicolas Patris, Eduardo Sávio Passos Rodrigues Martins
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Abstract

The high groundwater salinity of crystalline aquifers in semiarid areas is generally attributed to the dissolution and leaching of meteoric salts that have been progressively evapoconcentrated in the different hydrological compartments under dry climate conditions. A numerical model, simulating water and salt balances, was developed from a case study in Northeast Brazil to: (1) test the validity of this hypothesis, through the quantification of all relevant water cycle processes in the studied watershed, and (2) demonstrate how changes in land cover can impact groundwater salinity. Computations showed that the aridity and the high evapo(transpi)ration rates from the unsaturated zone and/or surface water (ponds, reservoirs) cannot lead to the observed aquifer salinization levels, but only to concentrations of a few tens or hundreds of mg L–1 (Cl). The only process that can induce a high groundwater salinity, with chloride concentrations up to several g L–1, is the transpiration of groundwater by the deep roots of the vegetation, with a rate reaching 100% of the annual recharge. In this case study, the vegetation involved is the native Caatinga forest. Simulations of the long-term dynamics of groundwater salinity indicate that aquifer areas with high salinity are relicts of the Caatinga pre-colonization period during which subterranean endorheic conditions were prevailing. Following the Caatinga deforestation linked to colonial agricultural development, aquifer recharge increased and endorheism ceased. Consequently, these aquifers may have now been experiencing a desalination process for about three centuries. The desalination spatial variability drivers are explained in the paper.

Abstract Image

造成巴西半干旱地区地下水盐碱化的结晶非承压含水层蒸腾作用
半干旱地区结晶含水层的地下水盐度较高,这通常是由于在干燥气候条件下,流星盐在不同的水文分区中逐渐蒸发浓缩而造成的溶解和浸出。根据巴西东北部的一个案例研究,开发了一个模拟水盐平衡的数值模型,目的是(1) 通过量化所研究流域的所有相关水循环过程,检验这一假设的有效性;(2) 展示土地覆被的变化如何影响地下水盐度。计算结果表明,干旱和来自非饱和带和/或地表水(池塘、水库)的高蒸发(转)率不会导致观测到的含水层盐碱化水平,而只会导致几十或几百毫克 L-1 (Cl-)的浓度。唯一能导致地下水盐度升高(氯化物浓度高达几克 L-1)的过程是植被深层根系对地下水的蒸腾作用,蒸腾率达到年补给量的 100%。在本案例研究中,涉及的植被是原生的卡廷加林。对地下水含盐量长期动态的模拟表明,含盐量较高的含水层区域是卡廷加前殖民时期的遗迹,当时的地下内流体条件十分普遍。与殖民农业发展相关的卡廷加森林砍伐之后,含水层的补给增加,内流作用停止。因此,这些含水层可能已经经历了约三个世纪的海水淡化过程。本文对海水淡化的空间变化驱动因素进行了解释。
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
Hydrogeology Journal
Hydrogeology Journal 地学-地球科学综合
CiteScore
5.40
自引率
7.10%
发文量
128
审稿时长
6 months
期刊介绍: Hydrogeology Journal was founded in 1992 to foster understanding of hydrogeology; to describe worldwide progress in hydrogeology; and to provide an accessible forum for scientists, researchers, engineers, and practitioners in developing and industrialized countries. Since then, the journal has earned a large worldwide readership. Its peer-reviewed research articles integrate subsurface hydrology and geology with supporting disciplines: geochemistry, geophysics, geomorphology, geobiology, surface-water hydrology, tectonics, numerical modeling, economics, and sociology.
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