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明尼苏达州旅行者国家公园土壤、湖泊及鱼类中的汞:大气沉降和生态系统因素的重要性

Mercury in soils, lakes, and fish in Voyageurs National Park (Minnesota): importance of atmospheric deposition and ecosystem factors.

作者信息

Wiener J G, Knights B C, Sandheinrich M B, Jeremiason J D, Brigham M E, Engstrom D R, Woodruff L G, Cannon W F, Balogh S J

机构信息

University of Wisconsin-La Crosse, River Studies Center, La Crosse, Wisconsin 54601, USA.

出版信息

Environ Sci Technol. 2006 Oct 15;40(20):6261-8. doi: 10.1021/es060822h.

DOI:10.1021/es060822h
PMID:17120551
Abstract

Concentrations of methylmercury in game fish from many interior lakes in Voyageurs National Park (MN, U.S.A.) substantially exceed criteria for the protection of human health. We assessed the importance of atmospheric and geologic sources of mercuryto interior lakes and watersheds within the Park and identified ecosystem factors associated with variation in methylmercury contamination of lacustrine food webs. Geologic sources of mercury were small, based on analyses of underlying bedrock and C-horizon soils, and nearly all mercury in the 0- and A-horizon soils was derived from atmospheric deposition. Analyses of dated sediment cores from five lakes showed that most (63% +/- 13%) of the mercury accumulated in lake sediments during the 1900s was from anthropogenic sources. Contamination of food webs was assessed by analysis of whole, 1-year-old yellow perch (Perca flavescens), a regionally important prey fish. The concentrations of total mercury in yellow perch and of methylmercury in lake water varied substantially among lakes, reflecting the influence of ecosystem processes and variables that affect the microbial production and abundance of methylmercury. Models developed with the information-theoretic approach (Akaike Information Criteria) identified lake water pH, dissolved sulfate, and total organic carbon (an indicator of wetland influence) as factors influencing methylmercury concentrations in lake water and fish. We conclude that nearly all of the mercury in fish in this seemingly pristine

摘要

美国明尼苏达州旅行者国家公园许多内陆湖泊中的食用鱼体内甲基汞浓度大大超过了保护人类健康的标准。我们评估了汞的大气和地质来源对公园内内陆湖泊及流域的重要性,并确定了与湖泊食物网甲基汞污染变化相关的生态系统因素。根据对下伏基岩和C层土壤的分析,汞的地质来源较少,0层和A层土壤中几乎所有的汞都来自大气沉降。对五个湖泊的年代沉积物岩芯分析表明,20世纪湖泊沉积物中积累的大部分汞(63%±13%)来自人为来源。通过分析一龄的完整黄鲈(Perca flavescens)评估食物网的污染情况,黄鲈是该地区重要的猎物鱼类。湖泊中黄鲈的总汞浓度和湖水中的甲基汞浓度在不同湖泊间差异很大,这反映了影响甲基汞微生物产生和丰度的生态系统过程和变量的影响。采用信息论方法(赤池信息准则)建立的模型确定湖水pH值、溶解硫酸盐和总有机碳(湿地影响的指标)是影响湖水中甲基汞浓度和鱼类甲基汞含量的因素。我们得出结论,在这个看似原始的环境中,鱼类体内几乎所有的汞……

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