Observed and modeled mercury and dissolved organic carbon concentrations and loads at control structure S-12D, Florida Everglades, 2013–17

Open-File Report Pub Date : 1900-01-01 DOI:10.3133/ofr20201092

Amanda C. Booth, Brett A. Poulin, D. Krabbenhoft

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Abstract

Mercury (Hg) has been a contaminant of concern for several decades in South Florida, particularly in the Florida Everglades. The transport and bioavailability of Hg in aquatic systems is intimately linked to dissolved organic carbon (DOC). In aquatic systems, Hg can be converted to methylmercury (MeHg), which is the form of Hg that bioaccumulates in food webs. The bioaccumulation of MeHg poses significant health risks to wildlife and humans. Fish consumption advisories triggered by elevated Hg levels first appeared in the 1980s in South Florida. Multiple structures regulate freshwater distribution to Everglades National Park, including S-12D. This report summarizes seasonal and annual concentration and load data from late September 2013 to April 2017 for the total of (1) filter-passing total mercury (FTHg), (2) filter-passing meth ylmercury (FMeHg), (3) particulate total mercury (PTHg), (4) particulate methylmercury (PMeHg) and, (5) DOC discharged through control structure S-12D. The loads of Hg fractions and DOC at control structure S-12D were determined by pairing discharge data with constituent concentrations estimated by empirical models based on surrogate in situ water quality measurements.

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2013 - 2017年，佛罗里达大沼泽地控制结构S-12D的汞和溶解有机碳浓度及其负荷的观测和建模

几十年来，汞(Hg)一直是南佛罗里达令人担忧的污染物，尤其是在佛罗里达大沼泽地。汞在水生系统中的运输和生物利用度与溶解有机碳(DOC)密切相关。在水生系统中，汞可以转化为甲基汞(MeHg)，这是汞在食物网中生物积累的形式。甲基汞的生物积累对野生动物和人类构成重大健康风险。汞含量升高引发的鱼类消费建议最早出现在20世纪80年代的南佛罗里达州。包括S-12D在内的多个结构调节着向沼泽地国家公园的淡水分配。本报告总结了2013年9月下旬至2017年4月通过控制结构S-12D排放的(1)滤过型总汞(FTHg)、(2)滤过型甲基汞(FMeHg)、(3)颗粒型总汞(PTHg)、(4)颗粒型甲基汞(PMeHg)和(5)DOC的季节性和年度浓度和负荷数据。通过将排放数据与基于替代原位水质测量的经验模型估算的汞组分浓度配对，确定了控制结构S-12D的汞组分和DOC的负荷。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Open-File Report

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