Dynamic response of groundwater to rainfall events and sea tides in coral island

IF 3.2 3区 地球科学 Q1 Environmental Science Hydrological Processes Pub Date : 2024-08-07 DOI:10.1002/hyp.15254
Dongxu Yao, Lihu Yang, Xianfang Song
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Abstract

Rainfall and sea tides significantly affect the coastal groundwater. The effect of rainfall events and sea tides on groundwater is not fully understood. In this study, groundwater level and electrical conductivity (EC) were simultaneously measured in three monitoring wells to evaluate the behaviour of freshwater in the uplifted atoll island of Zhaoshu, China. We used the water level sensor monitoring the position and variability of freshwater in the island. In the monitoring period, 86 rainfall events (cumulative rainfall above 1 mm) were identified. The fresh groundwater periodically fluctuates with phase lags every 1–2 h following sea tides. The intermittent rainfall increases the volume of fresh groundwater, while groundwater fluctuation is controlled by tides. Multiple regression analysis and cross-correlation analysis were used to analyse the response relationship of groundwater to rainfall and tides. Variation in the groundwater level lags the EC as the temporal fluctuation of the sea tides. Only in case of severe rainstorm (cumulative precipitation of an event above 300 mm), the contribution of rainfall on groundwater level fluctuation is greater than that of sea tide. Four response modes (RRR, RFF, RFR, RRF) decomposition of groundwater have been defined according to the tidal stage and threshold (70.3–301.1 mm) of rainfall. The tidal-induced groundwater effect (TGE) is stronger than the rainfall-induced groundwater effect (RGE) but it is the opposite in the third and fourth modes. These results and mechanisms could be applied to other atoll islands, for our understanding of rainfall infiltration processes with tidal effect, and could be instrumental in estimating groundwater resources.

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珊瑚岛地下水对降雨事件和海潮的动态响应
降雨和海潮对沿海地下水有很大影响。降雨事件和海潮对地下水的影响尚未完全清楚。本研究在三口监测井中同时测量了地下水位和电导率(EC),以评估中国赵州隆起环礁岛的淡水状况。我们使用水位传感器监测岛上淡水的位置和变化。在监测期间,共发现 86 次降雨事件(累计降雨量超过 1 毫米)。地下淡水随海潮周期性波动,每 1-2 小时出现一次相位差。间歇性降雨增加了地下淡水量,而地下水波动受潮汐控制。采用多元回归分析和交叉相关分析来分析地下水对降雨和潮汐的响应关系。地下水位的变化滞后于海潮的时间波动。只有在严重暴雨(一次事件的累积降水量超过 300 毫米)的情况下,降雨对地下水位波动的影响才大于海潮。根据潮汐阶段和降雨阈值(70.3-301.1 毫米),定义了地下水分解的四种响应模式(RRR、RFF、RFR、RRF)。潮汐诱导的地下水效应(TGE)强于降雨诱导的地下水效应(RGE),但在第三和第四模式中正好相反。这些结果和机制可用于其他环礁岛,以帮助我们了解潮汐效应的降雨渗透过程,并有助于估算地下水资源。
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来源期刊
Hydrological Processes
Hydrological Processes 环境科学-水资源
CiteScore
6.00
自引率
12.50%
发文量
313
审稿时长
2-4 weeks
期刊介绍: Hydrological Processes is an international journal that publishes original scientific papers advancing understanding of the mechanisms underlying the movement and storage of water in the environment, and the interaction of water with geological, biogeochemical, atmospheric and ecological systems. Not all papers related to water resources are appropriate for submission to this journal; rather we seek papers that clearly articulate the role(s) of hydrological processes.
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