Advanced mercury isotope fractionation measurement to study the fate of mercury in the environment

先进的汞同位素分馏测量，用于研究汞在环境中的归宿

• 批准号: RGPIN-2018-05421
• 负责人: Hintelmann, Holger
• 金额: $ 4.66万
• 依托单位: Trent University
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2019
• 资助国家: 加拿大
• 起止时间: 2019-01-01 至 2020-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=691197
• 关键词: Advanced; mercury; isotope; fractionation; measurement

Mercury contamination poses a significant threat for human health and natural ecosystems at local, regional and global scales. Man-made mercury emissions have not only increased dramatically since pre-industrial times, but industrial activities also occasionally resulted in dramatic pollution at the local or regional scale. This element is a unique contaminant as contemporary anthropogenic emissions only represent a fraction of the entire environmental inventory. A significant proportion of mercury in the global cycle is of natural, geogenic origin. This creates considerable challenges for regulators tasked with managing mercury in the environment, and it would be desirable to distinguish natural from anthropogenic mercury sources. Thus, a detailed understanding of the biogeochemical cycle of mercury is essential, but not always sufficient. The measurement of stable mercury isotope ratios and determination of mercury isotope fractionation can aid to trace mercury from the pollution source to fish.***The proposed research will develop new methods for measuring precise isotope ratios in methylmercury and apply the new technology in the field to establish the isotopic relationship between mercury in sediments and mercury in fish. Special focus will be on tracing legacy mercury that was historically discharged in the English-Wabigoon river system. We will establish the isotope fingerprint of mercury released from the chlor-alkali production source and monitor its spread throughout the Wabigoon River system and the community of Grassy Narrows. We will directly determine the mercury fingerprint of methylmercury in sediments, biota and water. Measurement of environmental samples will define a reference for the current mercury isotope ratio signature in sediments and fish of the Wabigoon-English River system. This contemporary baseline will serve as a check point for impending remediation activities that are due to commence in 2018/19. The technology will serve as a monitoring tool to monitor the efficacy of the remediation measures, which are planned to mitigate the currently high levels of mercury in fish.***The proposed program will train a minimum of four graduates students, who will break new ground in providing accurate and precise and therefore defensible methods addressing the current challenge for scientists and regulatory agencies, which is to distinguish between geogenic and anthropogenic mercury in the environment. In the Canadian context, this work is particularly important for communities, where legacy mercury pollution has long been recognized, but where serious abatement plans are only now put into place. This research will help shaping policies for the future management of mercury in affected communities and other vulnerable ecosystems in Canada and the world.

汞污染在地方、区域和全球范围内对人类健康和自然生态系统构成重大威胁。自前工业时代以来，人为汞排放不仅急剧增加，而且工业活动偶尔也会在地方或区域范围内造成严重污染。该元素是一种独特的污染物，因为当代人为排放仅占整个环境清单的一小部分。在全球循环中，汞的很大一部分是天然的、地质成因的。这给负责管理环境中的汞的监管机构带来了相当大的挑战，因此最好区分自然汞来源和人为汞来源。因此，详细了解汞的地球化学循环至关重要，但并不总是足够的。测量稳定的汞同位素比率和确定汞同位素分馏有助于从污染源到鱼类追踪汞。拟议的研究将开发新的方法来测量甲基汞的精确同位素比率，并将新技术应用于该领域，以建立沉积物中汞与鱼类中汞之间的同位素关系。将特别关注追踪历史上排放到英格兰-瓦比贡河系统的遗留汞。我们将建立从氯碱生产源释放的汞的同位素指纹，并监测其在整个瓦比贡河系统和Grassy Narrows社区的扩散。我们将直接确定沉积物、生物群和水中甲基汞的汞指纹。对环境样本的测量将为Wabigoon-English河流系统的沉积物和鱼类中目前的汞同位素比率特征确定一个参考。这一当代基线将作为即将于2018/19年度开始的补救活动的检查点。该技术将作为一种监测工具，用于监测补救措施的有效性，计划采取这些措施来缓解目前鱼类中的高汞含量。拟议的计划将培训至少四名研究生，他们将在提供准确和精确的方法方面开辟新天地，从而解决科学家和监管机构目前面临的挑战，即区分环境中的地质汞和人为汞。就加拿大而言，这项工作对社区特别重要，因为长期以来一直认识到遗留的汞污染，但直到现在才实施认真的减排计划。这项研究将有助于为加拿大和世界上受影响社区和其他脆弱生态系统的未来汞管理制定政策。