Geochemical and isotope characterization of groundwater and assessment of surface water mixing in the coastal karst aquifer basin in northwestern Sri Lanka

IF 3.1 3区地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS

Applied Geochemistry Pub Date : 2024-07-14 DOI:10.1016/j.apgeochem.2024.106098

U.G.C. Bandara , Saranga Diyabalanage , Johannes A.C. Barth , Rohana Chandrajith

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Abstract

Sinkholes play a critical role in groundwater systems by facilitating both recharge and discharge of groundwater, serving as indicators of underlying geologic processes, shaping subsurface hydrology, and influencing water quality. Therefore, studying karst groundwater systems is essential for effective groundwater management, especially in areas with limestone sequences. Spatial variations of water isotopes (δ²H, δ¹⁸O), dissolved inorganic and organic carbon (DIC and DOC), including their isotopes alone with pH, EC, alkalinity and chloride were determined in surface- and groundwater of the Mulankavil karst aquifer basin in the northwest of Sri Lanka. Twenty-seven groundwater wells, one offshore spring and two sinkholes were selected for sampling. The contribution of sinkhole water and seawater to karst aquifers was calculated using δ¹⁸O and chloride as tracers. In addition, deuterium excess (d-excess) values were used to determine groundwater evaporative loss before infiltration. Near the Mulankavil sinkhole area, the mixing of surface water and infiltrating rainwater was found to vary between 26 and 60%, with an average of 56%. In contrast, surface water mixing in the Nagapadduvan and Vellankulam sinkholes was about 41–59% and 33–70%, respectively. In near coastal wells, these values fell to 20% due to the influence of seawater intrusion. During the dry season, groundwater d-excess varied between −5.0 and + 10.8‰, while surface water in sinkholes showed values between +1.8 and −9.4‰. Groundwater wells near the Mulankavil sinkhole showed lower DIC (<5.5 mmol/L) with enriched δ¹³C_DIC (>-14‰). The karst aquifer systems in northern Sri Lanka exhibit two main recharge mechanisms: (a) selective recharge by surface water at sinkholes and (b) diffuse recharge by direct rainfall over the study area. Seawater intrusion near the coast can be prevented by artificially recharging rainwater during the monsoon season.

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斯里兰卡西北部沿海岩溶含水层盆地地下水的地球化学和同位素特征及地表水混合情况评估

天坑在地下水系统中起着至关重要的作用，它既能促进地下水的补给，又能促进地下水的排放，是地下地质过程的指示器，能塑造地下水文，还能影响水质。因此，研究岩溶地下水系统对于有效管理地下水至关重要，尤其是在石灰岩地层地区。本研究测定了斯里兰卡西北部穆兰卡维尔岩溶含水层盆地地表水和地下水中水同位素（δ2H、δ18O）、溶解无机碳和有机碳（DIC 和 DOC）的空间变化，包括其同位素与 pH 值、EC 值、碱度和氯化物的空间变化。选取了 27 口地下水井、1 口近海泉水和 2 个天坑进行采样。使用 δ18O 和氯化物作为示踪剂，计算了天坑水和海水对岩溶含水层的贡献。此外，还利用氘过量（d-excess）值来确定地下水在渗透前的蒸发损失。在 Mulankavil 天坑区附近，地表水和下渗雨水的混合程度介于 26% 和 60% 之间，平均为 56%。相比之下，Nagapadduvan 和 Vellankulam 天坑的地表水混合率分别约为 41%-59%和 33%-70%。在靠近海岸的水井中，由于海水入侵的影响，这些数值下降到 20%。在旱季，地下水 d-excess 在 -5.0 和 +10.8‰ 之间变化，而沉井中的地表水值在 +1.8 和 -9.4‰ 之间。Mulankavil 天坑附近的地下水井显示出较低的 DIC（<5.5 mmol/L）和富集的 δ13CDIC（>-14‰）。斯里兰卡北部的岩溶含水层系统主要有两种补给机制：(a) 地表水在天坑处的选择性补给；(b) 直接降雨对研究区域的扩散性补给。可通过在季风季节对雨水进行人工补给来防止海岸附近的海水入侵。

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来源期刊

Applied Geochemistry 地学-地球化学与地球物理

CiteScore

6.10

自引率

8.80%

发文量

272

审稿时长

65 days

期刊介绍： Applied Geochemistry is an international journal devoted to publication of original research papers, rapid research communications and selected review papers in geochemistry and urban geochemistry which have some practical application to an aspect of human endeavour, such as the preservation of the environment, health, waste disposal and the search for resources. Papers on applications of inorganic, organic and isotope geochemistry and geochemical processes are therefore welcome provided they meet the main criterion. Spatial and temporal monitoring case studies are only of interest to our international readership if they present new ideas of broad application. Topics covered include: (1) Environmental geochemistry (including natural and anthropogenic aspects, and protection and remediation strategies); (2) Hydrogeochemistry (surface and groundwater); (3) Medical (urban) geochemistry; (4) The search for energy resources (in particular unconventional oil and gas or emerging metal resources); (5) Energy exploitation (in particular geothermal energy and CCS); (6) Upgrading of energy and mineral resources where there is a direct geochemical application; and (7) Waste disposal, including nuclear waste disposal.