Department of Biological Sciences, University of Alberta, Edmonton, Alberta, Canada.
Environ Sci Technol. 2012 Oct 2;46(19):10514-22. doi: 10.1021/es300576p. Epub 2012 Jul 27.
The sources of methylmercury (MeHg; the toxic form of mercury that is biomagnified through foodwebs) to Arctic freshwater organisms have not been clearly identified. We used a mass balance approach to quantify MeHg production in two wetland ponds in the Lake Hazen region of northern Ellesmere Island, NU, in the Canadian High Arctic and to evaluate the importance of these systems as sources of MeHg to Arctic foodwebs. We show that internal production (1.8-40 ng MeHg m(-2) d(-1)) is a much larger source of MeHg than external inputs from direct atmospheric deposition (0.029-0.051 ng MeHg m(-2) d(-1)), as expected. Furthermore, MeHg cycling in these systems is dominated by Hg(II) methylation and MeHg photodemethylation (2.0-33 ng MeHg m(-2) d(-1)), which is a sink for a large proportion of the MeHg produced by Hg(II) methylation in these ponds. We also show that MeHg production in the two study ponds is comparable to what has previously been measured in numerous more southerly systems known to be important MeHg sources, such as temperate wetlands and lakes, demonstrating that wetland ponds in the High Arctic are important sources of MeHg to local aquatic foodwebs.
甲基汞(MeHg;汞的有毒形式,通过食物网生物放大)的北极淡水生物体的来源尚未明确确定。我们使用质量平衡方法来量化努纳武特埃尔斯米尔岛北部哈曾湖地区两个湿地池塘中的 MeHg 生成量,并评估这些系统作为北极食物网中 MeHg 来源的重要性。我们表明,内部生成(1.8-40ngMeHgm(-2)d(-1))是比直接大气沉积(0.029-0.051ngMeHgm(-2)d(-1))更大的 MeHg 来源,这是预期的。此外,这些系统中的 MeHg 循环主要由 Hg(II)甲基化和 MeHg 光脱甲基化(2.0-33ngMeHgm(-2)d(-1))主导,这是这些池塘中 Hg(II)甲基化产生的 MeHg 的一个汇。我们还表明,两个研究池塘中的 MeHg 生成量与先前在许多被认为是重要 MeHg 来源的更靠南的系统中测量的生成量相当,例如温带湿地和湖泊,这表明北极湿地池塘是当地水生食物网中 MeHg 的重要来源。
