莱州湾南岸浅层和深层地下水地球化学特征

    The characteristics of shallow and deep groundwater in Southern Laizhou Bay

    • 摘要: 莱州湾南岸地下水类型丰富,20世纪70年代以来在地下淡水和卤水开采的背景下形成了较为复杂的地下水环境。通过收集公开发表的地下水数据,结合已有的野外监测数据,对研究区浅层地下水与深层地下水水化学特征进行分析。结果表明:浅层地下水与外界联系密切,受持续性、阶段性降水和地下水开采的综合影响,整体表现为气象-开采型。深层地下水的卤水区表现为开采型,其余区域表现为气象-开采型。在淡水和卤水的开采条件下,形成2个规模较大的地下水降落漏斗,地下水最低水位分别为−8.78 m和−44.60 m。依据研究区地下水水质分布和水位特征,对地下水进行分区讨论。自南向北,浅层地下水划分为地下水径流区(S-1区)、地下水强烈混合区(S-2区)和地下水-海水相互作用区(S-3区)。S-1区受降雨入渗、山前侧向补给和地表径流的作用,伴随着长石风化和碳酸盐矿物的溶解作用;S-2区受控于地下水降落漏斗的作用,引起淡水和咸水的强烈混合,同时伴有淡水的补给过程;S-3区受卤水地下水漏斗影响明显,易造成海水倒灌地下水,引起地下水与海水的相互作用。深层地下水划分为地下水径流区(D-1区)、地下水混合区(D-2区)和卤水封存区(D-3区)。D-1区地下水受山前侧向补给和浅层地下水的垂向补给,流动过程中主要受水岩相互作用控制,弱于S-1区;D-2区存在淡水和咸水的混合,主要是受弥散作用影响,混合作用较S-2区弱;D-3区地下水平均矿化度(TDS)值高达119 624.94 mg/L,在相对隔水层的作用下,处于封存状态,始终保持高浓度状态,受地下卤水开采影响,水位持续降低。

       

      Abstract: The south bank of Laizhou Bay has abundant types of groundwater. Since the 1970s, a relatively complex groundwater environment has been formed under the background of underground freshwater and brine mining. By collecting available groundwater data and combining them with existing field monitoring data, the hydrochemical characteristics of shallow and deep groundwater in the study area were analyzed. Results show that shallow groundwater is closely related to the outside periphery and is influenced by the combination of precipitation and groundwater mining (continuous and staged), resulting in an overall meteorological-mining pattern. The brine area of deep groundwater presents a mining type, while the remaining areas show a meteorological-mining type. Under the conditions of freshwater and brine mining, two large-scale underground water depression funnels are formed, with the lowest groundwater levels of −8.78 m and −44.60 m, respectively. Based on the distribution of groundwater quality and water level characteristics in the research area, the zoning of groundwater was discussed. From south to north, the shallow groundwater could be divided into groundwater runoff zone (S-1), strongly mixed groundwater zone (S-2), and groundwater seawater interaction zone (S-3). The S-1 zone is affected by rainfall infiltration, lateral supplies from the mountain front, and surface runoff, accompanied by feldspar weathering and dissolution of carbonate minerals. The S-2 zone is controlled by the action of a groundwater depression funnel, causing a strong mixing of fresh and saline water, accompanied by a process of fresh water replenishment. The S-3 zone is significantly affected by the brine groundwater funnel, which can easily cause seawater to backflow into groundwater, leading to the interaction between groundwater and seawater. The deep groundwater could be divided into groundwater runoff zone (D-1), groundwater mixing zone (D-2), and brine storage zone (D-3). The groundwater in the D-1 zone is mainly controlled by the interaction between water and rock during the flow process, which is weaker than that in the S-1 zone. There is a mixture of fresh and saline water in D-2 zone, mainly affected by dispersion effect, and the mixing effect is weaker than that in S-2 zone. The average total dissoloved solid (TDS) value of groundwater in D-3 zone was as high as 119 624.94 mg/L. Under the action of the relative aquifuge, it is in a sealed state and always maintains a high concentration. Due to the influence of underground brine mining, the water level continues to decrease.

       

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