Quaternary climatic events as conditioning factors of hydrogeologic characteristics and salinity in costal aquifers at northern Patagonia, Argentina

IF 1.7 3区地球科学 Q3 GEOGRAPHY, PHYSICAL

Quaternary Research Pub Date : 2024-01-09 DOI:10.1017/qua.2023.72

Eleonora Carol, Santiago Perdomo, Carolina Tanjal, Nicolás Scivetti, María del Pilar Alvarez

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Abstract

In arid and semiarid coastal areas, freshwater resources are scarce and are frequently affected by salinization processes. The aim of this work is to evaluate the influence of Late Quaternary climatic events on the hydrogeologic characteristics conditioning the distribution of fresh, brackish, and saline ground water in the Holocene and Pleistocene beach ridges in coastal aquifers of northern Patagonia. To achieve this, geologic, geomorphological, geophysical, hydrochemical, and isotopic studies were carried out, which allowed the identification of the hydrolithologic characteristics controlling groundwater salinity in a context of Quaternary geologic–geomorphological–climatic evolution. In Pleistocene beach ridges, it was recognized that the formation of calcretes in an arid period after Marine Isotope Stage (MIS) 5e conditioned the permeability of superficial sediments, strongly decreasing infiltration rates. During the Holocene, beach ridges were deposited and sea water entered the Pleistocene ridges. Subsequently, with the sea-level drop and wetter climatic conditions, rainwater began to infiltrate, recharging the aquifers and displacing seawater, allowing development of freshwater lenses. However, freshwater lenses only developed in Holocene ridges due to the lower permeability of Pleistocene ridges, which determines that in these geoforms, sea water cannot be displaced by rainwater, and therefore groundwater is brackish to saline.

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第四纪气候事件是阿根廷巴塔哥尼亚北部沿海含水层水文地质特征和盐度的影响因素

在干旱和半干旱沿海地区，淡水资源稀缺，而且经常受到盐碱化过程的影响。这项工作的目的是评估第四纪晚期气候事件对水文地质特征的影响，这些特征调节着巴塔哥尼亚北部沿海含水层中全新世和更新世滩脊淡水、咸水和盐碱地水的分布。为此，开展了地质、地貌、地球物理、水化学和同位素研究，从而确定了在第四纪地质、地貌和气候演变背景下控制地下水盐度的水文地质特征。在更新世的滩脊，人们认识到，在海洋同位素阶段（MIS）5e 之后的干旱时期，钙质岩的形成调节了表层沉积物的渗透性，大大降低了渗透率。全新世期间，滩脊沉积，海水进入更新世滩脊。随后，随着海平面下降和气候条件转湿，雨水开始下渗，补充含水层并取代海水，从而形成淡水透镜体。然而，由于更新世山脊的渗透率较低，淡水透镜体只在全新世山脊中形成，这就决定了在这些地貌中，海水无法被雨水取代，因此地下水为咸水至盐水。

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来源期刊

Quaternary Research 地学-地球科学综合

CiteScore

4.70

自引率

8.70%

发文量

审稿时长

3 months

期刊介绍： Quaternary Research is an international journal devoted to the advancement of the interdisciplinary understanding of the Quaternary Period. We aim to publish articles of broad interest with relevance to more than one discipline, and that constitute a significant new contribution to Quaternary science. The journal’s scope is global, building on its nearly 50-year history in advancing the understanding of earth and human history through interdisciplinary study of the last 2.6 million years.