Ecosystem-Scale Modeling and Field Observations of Sulfate and Methylmercury Distributions in the Florida Everglades: Responses to Reductions in Sulfate Loading

IF 1.7 4区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS Aquatic Geochemistry Pub Date : 2020-02-15 DOI:10.1007/s10498-020-09368-w
William H. Orem, Carl Fitz, David P. Krabbenhoft, Brett A. Poulin, Matthew S. Varonka, George R. Aiken
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引用次数: 1

Abstract

The Florida Everglades has one of the most severe methylmercury (MeHg) contamination issues in the USA, resulting from factors including high rates of atmospheric mercury (Hg) deposition and sulfate inputs from agricultural lands. Sulfate loading stimulates microbial sulfate reduction and production of toxic and bioaccumulative MeHg. Controls on regional Hg emissions have been successful in reducing Hg deposition and MeHg production in wetlands in other areas, but this has not been the case for the Everglades as the Hg deposited here appears to come from unknown global sources of emissions. We posit that reductions in sulfate loading to the Florida Everglades can be an effective alternative approach used to reduce MeHg production. This study tested this hypothesis (1) by evaluating temporal trends in MeHg concentrations in response to a reduction in sulfate loading at a site in central Water Conservation Area (WCA) 3 and (2) using ecosystem-scale models to predict the effects of reductions in sulfate loading on sulfate concentrations in surface water and MeHg Risk. At the WCA site, we report a decline in sulfate concentrations (from about 9?mg/L in the late 1990s to levels of <?1?mg/L by 2001) due to changes in water delivery as part of Everglades restoration. Concurrent with the decline in sulfate, declines in MeHg concentrations in surface water and fish and wading bird tissues were observed at this site. These results suggest the efficacy of reducing MeHg production and bioaccumulation in the ecosystem through a reduction in sulfate loading. A previously developed model was used to predict the effects of reductions in sulfate loading (97%, 33%, and 10% reduction scenarios) on sulfate concentrations in surface water and MeHg Risk in the Everglades. The model identified areas of the ecosystem where MeHg Risk is most sensitive to the reductions in sulfate loading. Results show that reductions of >?33% in sulfate loading will significantly benefit the Everglades by reducing MeHg Risk.

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佛罗里达大沼泽地硫酸盐和甲基汞分布的生态系统尺度模拟和野外观测:对硫酸盐负荷减少的响应
佛罗里达大沼泽地是美国甲基汞(MeHg)污染最严重的地区之一,其原因包括大气中汞(Hg)沉积率高和农业用地的硫酸盐输入。硫酸盐负荷刺激微生物硫酸盐还原和产生有毒和生物蓄积性甲基汞。对区域汞排放的控制已经成功地减少了其他地区湿地的汞沉积和甲基汞的产生,但这并不是Everglades的情况,因为这里沉积的汞似乎来自未知的全球排放源。我们认为,减少佛罗里达大沼泽地的硫酸盐负荷可以成为减少甲基汞生产的有效替代方法。本研究验证了这一假设:(1)通过评估中央水源保护区(WCA)一个地点硫酸盐负荷减少对甲基汞浓度的时间趋势的响应;(2)使用生态系统尺度模型预测硫酸盐负荷减少对地表水中硫酸盐浓度和甲基汞风险的影响。在WCA现场,我们报告硫酸盐浓度下降(从约9?从20世纪90年代末的1毫克/升降至1毫克/升毫克/升(到2001年),这是由于大沼泽地恢复过程中供水的变化。在硫酸盐含量下降的同时,该地点的地表水、鱼类和涉禽组织中甲基汞浓度也有所下降。这些结果表明,通过减少硫酸盐负荷来减少生态系统中甲基汞的产生和生物积累的有效性。先前开发的一个模型用于预测硫酸盐负荷减少(97%,33%和10%的减少情景)对沼泽地地表水中硫酸盐浓度和甲基汞风险的影响。该模型确定了生态系统中MeHg风险对硫酸盐负荷减少最敏感的区域。结果表明,>?33%的硫酸盐负荷将通过降低甲基汞风险显着有利于沼泽地。
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来源期刊
Aquatic Geochemistry
Aquatic Geochemistry 地学-地球化学与地球物理
CiteScore
4.30
自引率
0.00%
发文量
6
审稿时长
1 months
期刊介绍: We publish original studies relating to the geochemistry of natural waters and their interactions with rocks and minerals under near Earth-surface conditions. Coverage includes theoretical, experimental, and modeling papers dealing with this subject area, as well as papers presenting observations of natural systems that stress major processes. The journal also presents `letter''-type papers for rapid publication and a limited number of review-type papers on topics of particularly broad interest or current major controversy.
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