利用稳定同位素和主离子分离华北平原南太行山山前地区冲积-洪积扇含水层补给机制

IF 0.9 4区 环境科学与生态学 Q4 WATER RESOURCES Water Resources Pub Date : 2023-11-24 DOI:10.1134/s0097807822601509
J. Liu, M. Tsujimura, J. Zhang, Z. Yi
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引用次数: 0

摘要

深入了解地下水补给对半干旱区地下水的可持续发展至关重要。为确定某冲积-洪积扇含水层的补给机制,在华北平原南太行山山前地区进行了多雨季节(8月)和干旱季节(11月)的野外调查和同位素分析。由于地下水位较深,降水不能有效地为冲积-洪积扇含水层提供短期补给。山前冲积-洪积沉积物埋藏的断层起到屏障作用,抑制了对上覆第四纪含水层的有效补给。与坳陷区相比,冲积-洪积扇区深层地下水中硫酸盐浓度和同位素均较高,说明深层地下水电位较低导致浅层冲积-洪积扇含水层向深层含水层供水。含水层间渗漏量与离山缘的距离呈反比关系,其补给量可能受近扇深层含水层中含水层分布的影响,导致含水层间渗漏量的贡献减小。此外,沙河冲积-洪积扇深层地下水流动受到近端水势下降的干扰,水流形态更为复杂,地下水混合带减小。我们的研究结果增加了对山前水文及其相关水资源管理的认识。
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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Utilizing Stable Isotopes and Major Ions to Isolate the Recharge Regime of an Alluvial-Proluvial Fan Aquifer in the Piedmont Region of the South Taihang Mountains, North China Plain

Abstract

A thorough understanding of groundwater recharge is critical for sustainable groundwater development in semi-arid areas. To determine the recharge regime in one alluvial-proluvial fan aquifer which usually acts as the main recharge zone of its local groundwater, field surveys and isotopic analyses were conducted in the piedmont region of the South Taihang Mountains of the North China Plain during the rainy (August) and dry (November) seasons. Precipitation could not effectively provide short-term recharge to the alluvial-proluvial fan aquifer due to the deep water table. The fault buried by the mountain front alluvial-proluvial deposits acts as a barrier, inhibiting effective recharge to the overlying Quaternary aquifer. Sulfate concentration and isotopes were more elevated in deep groundwater of the alluvial-proluvial fan area compared to that in the depression region, suggesting that lower deep groundwater potential has resulted in the inter-aquifer flow from the shallow alluvial-proluvial fan aquifer feeding the deep aquifer underneath. Inter-aquifer leakage showed an inverse relationship with the distance from the mountain edge, and its recharge may be influenced by the distribution of the aquitard in the deep aquifer of the proximal fan, leading to a decreased contribution of inter-aquifer leakage. Additionally, the deep groundwater flow in the Sha River alluvial-proluvial fan is disturbed by the hydraulic potential decline in the proximal fan region, as exhibited by a more complex flow pattern and reduced groundwater mixing zone. Our results increase understanding of piedmont hydrology and the management of its related water resources.

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来源期刊
Water Resources
Water Resources 环境科学-水资源
CiteScore
1.60
自引率
20.00%
发文量
86
审稿时长
6-12 weeks
期刊介绍: Water Resources is a journal that publishes articles on the assessment of water resources, integrated water resource use, water quality, and environmental protection. The journal covers many areas of research, including prediction of variations in continental water resources and regime; hydrophysical, hydrodynamic, hydrochemical and hydrobiological processes, environmental aspects of water quality and protection; economic, social, and legal aspects of water-resource development; and experimental methods of studies.
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