大尺度反斜长岩中结构地貌演化对岩溶地下水循环的控制。

IF 2 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY Groundwater Pub Date : 2023-07-03 DOI:10.1111/gwat.13341
Yu Fan, Huaisong Ji, Ruyang Lu, Junwei Wan, Kun Huang
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引用次数: 0

摘要

构造地貌演化和水文地球化学分析对于了解岩溶地下水系统的特征和构造碰撞带复杂含水层形成的深层岩溶的发展至关重要。为研究岩溶含水层系统和岩溶化的时间演化过程,我们沿大尺度反斜长岩进行了详细的构造地貌演化分析。结果表明,在三叠纪至中侏罗纪期间,构造活动包括微弱的水平压缩和缓慢的垂直抬升,形成了一个剥蚀碎屑岩平台。这一时期主要以埋藏岩溶的形式保存在地质记录中。从晚侏罗世到早白垩世,研究区受到 S-N 走向应力的强烈挤压,并形成了 E-W 走向的高角度覆瓦状推力构造,从而控制了褶皱和断块山的形成。垂直的多层地层经历了强烈的水平挤压,形成了大规模的反斜长岩,并伴有次级褶皱和断层。由于地壳快速隆升,碳酸盐岩出露,岩溶开始发育,形成垂直多层岩溶含水层系统,控制了岩溶地下水的分布。房县断陷盆地形成于晚白垩世至古近纪,地貌以山间盆地为主。缓慢的地壳抬升造成剥蚀线向东后退,导致水动力条件和岩溶化程度的提高,并形成了早期的岩溶地下水系统。新近纪以来,间歇性的快速地壳抬升导致河流加深,形成了峰丛和峡谷,发展了深层岩溶,并完全形成了岩溶地下水系统。结合水文地质化学和钻孔数据,确定了局部、中间和区域岩溶地下水系统。这对深埋隧道的地质选线或施工以及岩溶地下水的利用具有重要意义。
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Control of Structural Landform Evolution on Karst Groundwater Cycle in a Large-Scale Anticlinorium

Structural landform evolution and hydrogeochemical analyses are crucial for understanding the characteristics of karst groundwater systems and the development of deep karst formed by complex aquifers in a tectonic collision zone. Detailed structural landform evolution analysis was carried out along the large-scale anticlinorium to investigate the temporal evolution of karst aquifer systems and karstification. Results showed that the tectonic activity included weak horizontal compression and slow vertical uplift during the Triassic to Middle Jurassic, forming a denuded clastic platform. This period was mainly preserved in the geological record as burial karst. From the Late Jurassic to the Early Cretaceous, the study area was strongly compressed by S–N-trending stress, and developed E–W-trending high-angle imbricate thrust structures, which controlled the formation of folded and fault-blocked mountains. Vertical multilayered strata underwent a strong horizontal extrusion, forming a large-scale anticlinorium with secondary folds and faults. With the exposure of carbonate rocks due to rapid crustal uplift, karst began to develop, forming a vertical multilayer karst aquifer system and controlling the distribution of karst groundwater. The Fangxian faulted basin was formed from the Late Cretaceous to the Paleogene, whereby landforms were dominated by intermountain basins. Slow crustal uplift caused the retreat of the denudation line to the east, leading to an increase in hydrodynamic conditions and karstification, and the initiation of early karst groundwater systems. Since the Neogene, intermittent and rapid crustal uplift has led to the deepening of rivers, resulting in the formation of peak clusters and canyons, the development of deep karst, and the complete formation of karst groundwater systems. Combined with hydrogeochemical and borehole data, local, intermediate, and regional karst groundwater systems were identified. It has vital significance to the geological route selection or construction of deep-buried tunnels and the utilization of karst groundwater.

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来源期刊
Groundwater
Groundwater 环境科学-地球科学综合
CiteScore
4.80
自引率
3.80%
发文量
0
审稿时长
12-24 weeks
期刊介绍: Ground Water is the leading international journal focused exclusively on ground water. Since 1963, Ground Water has published a dynamic mix of papers on topics related to ground water including ground water flow and well hydraulics, hydrogeochemistry and contaminant hydrogeology, application of geophysics, groundwater management and policy, and history of ground water hydrology. This is the journal you can count on to bring you the practical applications in ground water hydrology.
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