管理气候变化对西山含水层的影响:对地中海岩溶地下水资源的影响

IF 3.1 Q2 GEOSCIENCES, MULTIDISCIPLINARY Journal of Hydrology X Pub Date : 2023-08-01 DOI:10.1016/j.hydroa.2023.100153
Lysander Bresinsky , Jannes Kordilla , Temke Hector , Irina Engelhardt , Yakov Livshitz , Martin Sauter
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引用次数: 1

摘要

许多研究都强调了地中海地区由于气候变化导致的降水减少,使其成为一个突出的热点。本研究考察了气候变化和三种地下水需求情景对以色列和西岸西山含水层水资源的综合影响。虽然定量地下水补给和水资源的常用方法依赖于回归模型,但在评估气候变化影响时必须承认其局限性。回归模型和其他数据驱动的方法在观察到的变异性内是有效的,但当外推到历史波动以外的条件时,可能缺乏预测能力。全面的评估需要基于分布式过程的数值模型,包括更广泛的相关物理流动过程,理想情况下,还需要集成模型预测。在这项研究中,我们使用一个水文地球圈(HGS)模型模拟了WMA变饱和水流和土壤-表层岩溶水平衡模型耦合的双域入渗和降水分配动力学。模式输入包括基于IPCC RCP4.5情景的2070年之前的缩小比例的高分辨率气候预测。结果显示,与平均降水减少30%相比,长期平均地下水补给减少了5%至10%。岩溶流的异质性和个别降雨事件强度的增加有助于减轻对地下水补给的影响,强调了具有日降水数据的时空分辨率气候模式的重要性。然而,尽管补给量适度减少,但研究强调了低补给值的连续干旱年的长度和严重程度增加。报告强调有必要根据气候变化调整目前的管理做法,因为在这些时期淡水需求预计会上升。此外,该研究还考察了水文地质干旱的出现及其从地表到地下水的传播。结果表明,48月标准化降水指数(SPI-48)是反映地下水补给减少引起的水文地质干旱的适宜指标。
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Managing climate change impacts on the Western Mountain Aquifer: Implications for Mediterranean karst groundwater resources

Many studies highlight the decrease in precipitation due to climate change in the Mediterranean region, making it a prominent hotspot. This study examines the combined impacts of climate change and three groundwater demand scenarios on the water resources of the Western Mountain Aquifer (WMA) in Israel and the West Bank. While commonly used methods for quantifying groundwater recharge and water resources rely on regression models, it is important to acknowledge their limitations when assessing climate change impacts. Regression models and other data-driven approaches are effective within observed variability but may lack predictive power when extrapolated to conditions beyond historical fluctuations. A comprehensive assessment requires distributed process-based numerical models incorporating a broader range of relevant physical flow processes and, ideally, ensemble model projections. In this study, we simulate the dynamics of dual-domain infiltration and precipitation partitioning using a HydroGeoSphere (HGS) model for variably saturated water flow coupled to a soil-epikarst water balance model in the WMA. The model input includes downscaled high-resolution climate projections until 2070 based on the IPCC RCP4.5 scenario. The results reveal a 5% to 10% decrease in long-term average groundwater recharge compared to a 30% reduction in average precipitation. The heterogeneity of karstic flow and increased intensity of individual rainfall events contribute to this mitigated impact on groundwater recharge, underscoring the importance of spatiotemporally resolved climate models with daily precipitation data. However, despite the moderate decrease in recharge, the study highlights the increasing length and severity of consecutive drought years with low recharge values. It emphasizes the need to adjust current management practices to climate change, as freshwater demand is expected to rise during these periods. Additionally, the study examines the emergence of hydrogeological droughts and their propagation from the surface to the groundwater. The results suggest that the 48-month standardized precipitation index (SPI-48) is a suitable indicator for hydrogeological drought emergence due to reduced groundwater recharge.

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来源期刊
Journal of Hydrology X
Journal of Hydrology X Environmental Science-Water Science and Technology
CiteScore
7.00
自引率
2.50%
发文量
20
审稿时长
25 weeks
期刊最新文献
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