Hydrogeological characterization of the Silala River catchment

IF 6.8 1区 地球科学 Q1 ENVIRONMENTAL SCIENCES
Carolina Gómez, Francisco Suárez, Sebastián García, José F. Muñoz
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Abstract

Abstract This article reviews hydrogeological studies carried out between 2016 and 2018 in the Silala River basin, a catchment shared by Chile and Bolivia. These were conducted in the context of the Case Concerning the Status and Use of the Waters of the Silala River, submitted to the International Court of Justice in 2016, and contributed to multidisciplinary science to demonstrate that this system is an international watercourse. In 2016, the hydrogeological understanding of the Silala River basin was poor. The studies reviewed here filled many knowledge gaps, providing a solid hydrogeological baseline, and establishing new monitoring infrastructure to collect relevant aquifer data. The most important hydrogeological units were identified as the fluvial deposits, alluvial deposits, and the Cabana ignimbrite. The latter is highly heterogeneous, weathered and fractured, and exhibits a high permeability. It is the most important unit in terms of productivity, and is the major regional aquifer providing spring flows to Bolivian wetlands and groundwater flow across the international border. The studies provided a preliminary understanding of the main aquifers in Chile and their properties, which underpinned the development of a robust hydrogeological conceptual model of the system, reviewed elsewhere in this special issue. Subsequent refinements are also summarized. This work confirmed that both surface water and groundwater flows from Bolivia to Chile, and thus confirms the status of the Silala River as an international watercourse and provided the basis for a basin‐scale groundwater numerical model, used to investigate the impact of wetland channelization on surface water/groundwater partitioning. This article is categorized under: Science of Water > Hydrological Processes

Abstract Image

西拉拉河流域水文地质特征
本文回顾了2016年至2018年在智利和玻利维亚共享的西拉拉河流域进行的水文地质研究。这些研究是在2016年向国际法院提交的关于西拉拉河水域地位和使用的案件的背景下进行的,并为多学科科学做出了贡献,以证明该系统是一条国际水道。2016年,对西拉拉河流域水文地质认识较差。本文综述的研究填补了许多知识空白,提供了坚实的水文地质基线,并建立了新的监测基础设施来收集相关的含水层数据。确定了最重要的水文地质单元为河流沉积、冲积沉积和卡巴纳褐煤。后者具有高度非均质、风化和裂缝性,具有高渗透率。就生产力而言,它是最重要的单位,是主要的区域含水层,为玻利维亚湿地提供泉水和跨越国际边界的地下水。这些研究提供了对智利主要含水层及其性质的初步了解,为建立该系统的可靠水文地质概念模型奠定了基础,本特刊在其他地方进行了综述。随后的改进也进行了总结。这项工作证实了地表水和地下水都从玻利维亚流向智利,从而确认了西拉拉河作为国际水道的地位,并为流域尺度地下水数值模型提供了基础,该模型用于研究湿地水道化对地表水/地下水分配的影响。本文分类如下:水科学;水文过程
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来源期刊
Wiley Interdisciplinary Reviews: Water
Wiley Interdisciplinary Reviews: Water Environmental Science-Ecology
CiteScore
16.60
自引率
3.70%
发文量
56
期刊介绍: The WIREs series is truly unique, blending the best aspects of encyclopedic reference works and review journals into a dynamic online format. These remarkable resources foster a research culture that transcends disciplinary boundaries, all while upholding the utmost scientific and presentation excellence. However, they go beyond traditional publications and are, in essence, ever-evolving databases of the latest cutting-edge reviews.
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