Five periods of increased electrical conductivity have been found in the karst conduits supplying one of the largest first magnitude springs in Florida with water. Numerous well-developed conduit networks are distributed in the Woodville Karst Plain (WKP), Florida and connected to the Gulf of Mexico. A composite analysis of precipitation and electrical conductivity data provides strong evidence that the increases in conductivity are directly tied to seawater intrusion moving inland and traveling 11 miles against the prevailing regional hydraulic gradient from from Spring Creek Spring Complex (SCSC), a group of submarine springs at the Gulf Coast. A geochemical analysis of samples from the spring vent rules out anthropogenic contamination and upwelling regional recharge from the deep aquifer as sources of the rising conductivity. The interpretation is supported by the conceptual model established by prior researchers working to characterize the study area. This paper documents the first and longest case of seawater intrusion in the WKP, and also indicates significant possibility of seawater contamination through subsurface conduit networks in a coastal karst aquifer.
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机译:在向佛罗里达最大的一级泉之一提供水的岩溶导管中发现了五个增加的电导率时期。许多发达的管道网络分布在佛罗里达州的伍德维尔喀斯特平原(WKP),并与墨西哥湾相连。降水和电导率数据的综合分析提供了有力的证据,表明电导率的增加直接与海水入侵向内陆移动有关,并与一组水下海泉泉Spring Creek Spring Complex(SCSC)的主要区域水力坡度相差11英里。在墨西哥湾沿岸。对来自泉水喷口的样品进行地球化学分析后,排除了人为污染和深层含水层上升的区域补给,将其作为电导率上升的来源。该解释受先前研究人员建立以表征研究区域的概念模型的支持。本文记录了WKP中第一个也是最长的海水入侵案例,并且还指出了沿海喀斯特含水层中通过地下管道网络造成海水污染的巨大可能性。
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