Using noble gases to understand recharge mechanisms in a fractured sandstone aquifer

IF 2.4 3区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY Hydrogeology Journal Pub Date : 2024-08-24 DOI:10.1007/s10040-024-02820-z
Hyun-Kwon Do, Ferdinando Manna, Beth L. Parker, Amanda A. Pierce, John A. Cherry, Jean E. Moran, Daniel C. Segal
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Abstract

Noble gas recharge temperature (NGRT) and excess air (EA) values, derived from the analysis of noble gases in groundwater, were used to improve the understanding of groundwater recharge mechanisms through the vadose zone of a sandstone aquifer in southern California (USA). The wide range of NGRT and EA values suggests that complex recharge mechanisms exist between two end members: matrix and fracture flow. In particular, combining NGRT and EA values, four groups of wells with different recharge mechanisms were identified: high EA combined with low NGRT suggests recharge is dominated by fast flow through an interconnected fracture network (group A), low EA with high NGRT suggests recharge is controlled by slow flow in the rock matrix (group B), low EA and intermediate NGRT suggests percolation through fractures followed by imbibition into the unsaturated matrix and subsequent matrix flow (group C), and high EA combined with high NGRT in group D suggests flow of water that originally resided in the matrix being pushed into the fracture network by a strong infiltration event (group D). These interpretations were corroborated with tritium groundwater dating and consideration of the potential influence of well completion characteristics on flow processes and measured noble gas concentrations due to mixing. This study demonstrates the contribution of noble gas analysis to identify recharge mechanisms in complex aquifers. This is crucial to inform three-dimensional numerical flow and transport models and to predict future hydrological scenarios in response to climate change.

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利用惰性气体了解断裂砂岩含水层的补给机制
通过分析地下水中的惰性气体得出的惰性气体补给温度(NGRT)和过量空气(EA)值,用于加深对美国加利福尼亚州南部砂岩含水层滞留带地下水补给机制的理解。广泛的 NGRT 值和 EA 值表明,在基质流和断裂流这两种末端成员之间存在着复杂的补给机制。特别是,结合 NGRT 和 EA 值,确定了具有不同补给机制的四组水井:高 EA 值和低 NGRT 值表明,通过相互连接的断裂网络进行的快速流动主导了补给(A 组);低 EA 值和高 NGRT 值表明,岩石基质中的缓慢流动控制了补给(B 组)、低 EA 值和中等 NGRT 值表明,水流通过断裂渗入非饱和基质,然后再流入基质(C 组);D 组中的高 EA 值和高 NGRT 值表明,原本滞留在基质中的水流被强渗透事件推入断裂网络(D 组)。这些解释得到了氚地下水测年法的证实,并考虑到了完井特征对流动过程的潜在影响以及由于混合而测量到的惰性气体浓度。这项研究表明,惰性气体分析有助于确定复杂含水层的补给机制。这对于为三维数值流动和传输模型提供信息以及预测未来应对气候变化的水文情景至关重要。
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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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