Present and paleo-hydrogeological reconstruction of a complex deep groundwater system in a tectonically active region (Golan Heights, Middle East)

IF 2.4 3区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY
Hadas Ben-nun Levanon, Avihu Burg, Ittai Gavrieli, Yoav O. Rosenberg, Ronen Gersman, Yuval Bartov, Yakov Livshitz, Avraham Starinsky, Itay J. Reznik
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Abstract

The geochemical and isotopic composition of deep groundwater in sedimentary aquitards reveals a complex paleo-hydrological system affected by intensive tectonic activity. Water samples collected from deep research boreholes in the Golan Heights (Middle East) exhibit a unique combination of high salinity (>2,000 mg/L Cl) with low Na/Cl (<0.7) and Mg/Ca (<0.3) equivalent ratios, calcium chloride water type [Ca > (HCO3 + SO4)], relatively low δ18OVSMOW and δ2HVSMOW values (–7 and –42‰, respectively), and enriched 87Sr/86Sr ratios compared to the host rocks. The salinity source is related to ancient lagoonary hypersaline brines (10–5 Ma) that existed along the Dead Sea Rift (DSR). These brines intruded into the rocks surrounding the DSR and, based on the current study, also extended away from the rift. Following their subsurface intrusion, the brines have been gradually diluted by 18O- and 2H-depleted freshwater recharged at high elevations, nowadays leaving only traces of the brines that originally intruded. It is also shown that variable hydraulic conductivities in different formations control the dilution rates and subsequently the preservation of the entrapped brines. A paleo-hydrological reconstruction is provided to demonstrate intrusion and backflow dynamics and also the relationship to freshwater dilution, which was triggered by a tectonically active basin of the nearby continental DSR. Brines that initially migrated from the rift have since been gradually flushed back to the rift through the current natural outlets. As the system discharges, it mixes and converges with a separate hydrogeological system, while still preserving some of the geochemical signals of the ancient brines.

Abstract Image

构造活跃地区(中东戈兰高地)复杂深层地下水系统的现状和古水文地质重建
沉积含水层中深层地下水的地球化学和同位素组成揭示了受强烈构造活动影响的复杂古水文系统。从戈兰高地(中东)深层研究钻孔中采集的水样显示出独特的高盐度(>2,000 mg/L Cl)与低 Na/Cl(<0.7)和 Mg/Ca(<0.3)当量比、氯化钙水类型[Ca > (HCO3 + SO4)]、相对较低的δ18OVSMOW和δ2HVSMOW值(分别为-7和-42‰),以及与寄主岩相比较高的87Sr/86Sr比值。盐度来源与死海裂谷(DSR)沿岸存在的古代泻湖超盐卤水(10-5 Ma)有关。这些盐水侵入到死海裂谷周围的岩石中,根据目前的研究,这些盐水还延伸到了裂谷之外。盐水侵入地下后,逐渐被高海拔地区补给的 18O- 和 2H 贫化淡水稀释,如今只剩下最初侵入的盐水痕迹。研究还表明,不同地层中不同的水力传导性控制着稀释率,进而控制着夹带卤水的保存。研究还提供了古水文重建图,以展示入侵和回流动态,以及与淡水稀释之间的关系,淡水稀释是由附近大陆DSR构造活跃的盆地引发的。最初从断裂处流出的卤水后来逐渐通过目前的自然出口冲回断裂处。随着该系统的排放,它与一个独立的水文地质系统混合并汇合,同时仍保留了古代盐水的一些地球化学信号。
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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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