Center for Earth Observation Science, Department of Environment and Geography, University of Manitoba , Winnipeg, MB R3T 2N2, Canada.
Environ Sci Technol. 2014 May 20;48(10):5575-82. doi: 10.1021/es5008033. Epub 2014 May 8.
Mercury is one of the primary contaminants of concern in the Arctic marine ecosystem. While considerable efforts have been directed toward understanding mercury cycling in the Arctic, little is known about mercury dynamics within Arctic multiyear sea ice, which is being rapidly replaced with first-year ice. Here we report the first study on the distribution and potential methylation of mercury in Arctic multiyear sea ice. Based on three multiyear ice cores taken from the eastern Beaufort Sea and McClure Strait, total mercury concentrations ranged from 0.65 to 60.8 pM in bulk ice, with the highest values occurring in the topmost layer (∼40 cm) which is attributed to the dynamics of particulate matter. Methylated mercury concentrations ranged from below the method detection limit (<0.1 pM) to as high as 2.64 pM. The ratio of methylated to total mercury peaked, up to ∼40%, in the mid to bottom sections of the ice, suggesting the potential occurrence of in situ mercury methylation. The annual fluxes of total and methylated mercury into the Arctic Ocean via melt of multiyear ice are estimated to be 420 and 42 kg yr(-1), respectively, representing an important and changing source of mercury and methylmercury into the Arctic Ocean marine ecosystem.
汞是北极海洋生态系统中主要关注的污染物之一。尽管已经投入了相当大的努力来了解北极的汞循环,但对于北极多年海冰内部的汞动态知之甚少,而多年海冰正迅速被一年生冰所取代。在这里,我们报告了第一个关于北极多年海冰中汞的分布和潜在甲基化的研究。基于从波弗特海东部和麦克卢尔海峡采集的三个多年冰芯,总汞浓度在块状冰中从 0.65 到 60.8 pM 不等,最高值出现在最上层(约 40 cm),这归因于颗粒物的动力学。甲基汞浓度从低于方法检测限(<0.1 pM)到高达 2.64 pM。甲基汞与总汞的比例在冰的中下部达到峰值,高达约 40%,这表明可能发生了原位汞甲基化。通过多年冰融化进入北冰洋的总汞和甲基汞的年通量估计分别为 420 和 42 千克/年,这代表了进入北极海洋生态系统的汞和甲基汞的一个重要且不断变化的来源。
