Application of radium isotopes to estimate seawater intrusion rate in coastal aquifers

IF 3.1 3区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS Applied Geochemistry Pub Date : 2023-10-18 DOI:10.1016/j.apgeochem.2023.105816
Zhe Zhang, Lixin Yi, Yingchun Dong, Tianxue Lv, Yajie Zheng, Xin Hao
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Abstract

Coastal aquifers, as the interface zone between ocean and land, are highly sensitive and vulnerable to seawater intrusion. This study presents the behavior of radium isotopes and their application to estimate the rate of seawater intrusion in a typical coastal city (Qinhuangdao, China). The hydrochemical results indicated that the coastal aquifers have Na–Cl type water with the lower Na/Cl ratios. The analysis revealed that the formation process of the chemical composition of groundwater was mainly the mixing of seawater and groundwater, while that of inland groundwater was dominated by mineral dissolution and cation exchange and adsorption. Groundwater of intruded aquifers contain significantly higher activities of radium than those of nearshore seawater and inland groundwater. The rates of seawater intrusion were estimated by using equation of the fate and transport of radium in 1–D transient groundwater flow system. In the calculation process, we ignored dissolution and co-precipitation and mainly considered mixing, alpha recoil and decay contribution for radium activity as sources and sinks terms of radium in coastal groundwater based on the characteristics of radium activity and 224Ra/228Ra ratio in groundwater. The recoil (P) was determined by the activity ratio of 224Ra to Th (232Th/230Th), while the retardation (Rf) was calculated from the steady-state radium equilibrium equation. The seawater intrusion rates were obtained by integrating 224Ra and 228Ra activities under different thorium ratios (232Th/230Th). The results show that the rate of seawater intrusion varies in a wide range at different locations, which are 0.17–1.03 (232Th/230Th = 0.67) and 0.11–1.01 (232Th/230Th = 1.25) m/d. The method of calculating seawater intrusion rate with radium isotope can obtain the rate of different parts of heterogeneous anisotropic aquifer, which also extends the application of radium isotope in hydrogeology.

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应用镭同位素估算沿海含水层海水入侵率
海岸含水层作为海洋和陆地之间的交界地带,对海水入侵非常敏感和脆弱。本研究介绍了镭同位素的行为及其在估算典型沿海城市(中国秦皇岛)海水入侵率中的应用。水化学结果表明,滨海含水层为Na–Cl型水,Na/Cl比值较低。分析表明,地下水化学成分的形成过程主要是海水和地下水的混合,内陆地下水化学成分主要是矿物溶解和阳离子交换吸附。侵入含水层的地下水中镭的活度明显高于近岸海水和内陆地下水。利用一维瞬态地下水流动系统中镭的归宿和迁移方程,估算了海水入侵速率。在计算过程中,我们忽略了溶解和共沉淀,根据地下水中镭的活度和224Ra/228Ra比值的特点,主要考虑了混合、α反冲和衰变对镭活度的贡献,作为沿海地下水镭的源汇项。反冲(P)由224Ra与Th的活度比(232Th/230Th)确定,而延迟(Rf)由稳态镭平衡方程计算。海水入侵率是通过整合224Ra和228Ra在不同钍比(232Th/230Th)下的活动而获得的。结果表明,不同位置的海水入侵速率变化较大,分别为0.17–1.03(232Th/230Th=0.67)和0.11–1.01(232Th-230Th=1.25)m/d。用镭同位素计算海水入侵率的方法可以得到非均质各向异性含水层不同部位的入侵率,这也扩展了镭同位素在水文地质中的应用。
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来源期刊
Applied Geochemistry
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.
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