Using major ions and stable isotopes to improve conceptualisation of a spring-aquifer system in the Galilee Basin, Australia

IF 2.4 3区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY
Robin Keegan-Treloar, Eddie W. Banks, Ian Cartwright, Dylan J. Irvine, John A. Webb, Adrian D. Werner, Matthew J. Currell
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Abstract

Developing conceptual models is a critical step in hydrogeological studies that should utilise multiple lines of evidence and data types to minimise conceptual uncertainty, particularly in data-sparse systems. This study used new and existing major ion and isotope (O, H, Sr, C) data sets to refine a previous hydraulic-head-based conceptual model of the Galilee Basin (Australia). The analyses provide evidence for the locations of recharge and discharge areas and determine hydrochemical processes along flow paths to improve understanding of potential source waters to the Doongmabulla Springs Complex (DSC) and to infer mixing within, or exchange between aquifer units. There was good agreement between previously inferred recharge and discharge areas defined using hydraulic head data and interpretations from hydrochemical evolution along groundwater flow pathways, at least where data were available. Major ion and isotope data suggest that the DSC likely receives water from both a relatively shallow, local flow path and a deeper regional flow path. This observation is relevant to previous concerns about threats to the DSC, as mine-induced drawdown may impact the relative contributions to spring discharge from different recharge sources and aquifers. Silicate weathering in the deeper Clematis Formation and Dunda Beds, and evapotranspiration in the overlying Moolayember Formation have strong control on the total dissolved solids content. These findings suggest that the Clematis Formation and Dunda Beds are hydrochemically distinct from the Moolayember Formation, with limited exchange between these aquifers, which has important implications for model conceptualisation and ongoing monitoring of mining activities in the Galilee Basin.

Abstract Image

利用主要离子和稳定同位素改进澳大利亚加利利盆地泉水-含水层系统的概念设计
开发概念模型是水文地质研究的关键步骤,应利用多种证据和数据类型,最大限度地减少概念的不确定性,尤其是在数据稀缺的系统中。本研究利用新的和现有的主要离子和同位素(O、H、Sr、C)数据集,完善了加利利盆地(澳大利亚)以前基于水头的概念模型。这些分析为补给区和排泄区的位置提供了证据,并确定了沿水流路径的水化学过程,从而加深了对 Doongmabulla Springs Complex (DSC) 潜在源水的了解,并推断出含水层单元内部的混合情况或含水层单元之间的交换情况。至少在数据可用的情况下,之前利用水头数据确定的补给区和排泄区与沿地下水流路径的水化学演变解释之间存在良好的一致性。主要离子和同位素数据表明,DSC 的水可能来自相对较浅的局部流道和较深的区域流道。这一观察结果与之前对 DSC 所面临威胁的担忧有关,因为矿井引起的缩减可能会影响不同补给源和含水层对泉水排放的相对贡献。较深的铁线莲地层和邓达地层中的硅酸盐风化以及上覆的穆拉扬伯地层中的蒸发对总溶解固体含量有很强的控制作用。这些研究结果表明,克莱马蒂斯地层和邓达地层在水化学方面与穆拉扬伯地层截然不同,这些含水层之间的交换有限,这对加利利盆地采矿活动的模型概念化和持续监测具有重要影响。
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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