Fate and Impacts of Microplastics and Nanoplastics in Terrestrial and Freshwater Environments

陆地和淡水环境中微塑料和纳米塑料的命运和影响

• 批准号: RGPIN-2019-04519
• 负责人: Tufenkji, Nathalie
• 金额: $ 5.86万
• 依托单位: McGill University
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2020
• 资助国家: 加拿大
• 起止时间: 2020-01-01 至 2021-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=714979
• 关键词: Fate; Impacts; Microplastics; Nanoplastics; Terrestrial

Plastic litter is found everywhere in the environment and there is growing global concern about the impact it may have on organisms and ecosystems. Although microplastic and nanoplastic (MNP) contamination on land has received little attention, it is estimated to be much greater than in the ocean. There are particularly large knowledge gaps on the processes governing nanoplastic transformations, transport and toxicity in Canadian soils and freshwaters. Thus, to support policy makers in developing appropriate, informed strategies for risk assessment and management, it is important that we develop an understanding of the fate and any adverse impacts of these emerging pollutants in terrestrial and freshwater environments. The objectives of this research program are to assess the processes driving the fate and burden of MNP released to Canadian soils and waters and the properties governing their impacts, towards informing practices, policies and regulations that will protect the environment and public health. The proposed research in this emerging field is original and innovative because (i) it will provide new knowledge on the formation, environmental fate and impacts of nanoplastics that have been mostly ignored due to methodological challenges; (ii) the work will be done under conditions relevant to a Northern climate and environment; and (iii) it focuses on plastic pollution in terrestrial and freshwater environments that have been particularly overlooked in comparison to marine systems. The research will be accomplished by 1 postdoc (Banting fellow), 4 PhD, 3 Masters, and 5 undergraduate students. This research has very high training value as it is challenging, innovative, involves state-of-the-art techniques, and offers opportunities for multidisciplinary collaboration. The approach used to address our research questions will include rigorous laboratory studies of MNP formation, aggregation, transport and toxicity. We will first study MNP formation rates from different types of plastics by simulating the effects of typical Canadian winter temperatures and freeze-thaw cycles. Results from controlled tests will be compared to outdoor MNP exposures. We will also quantify MNP transport over a range of water chemistries representative of Canadian freshwaters. Finally, the ability of MNPs to enhance the transport of other contaminants and the toxicity of MNPs to insects will be determined. This research will be the first to comprehensively evaluate the fate and impacts of MNPs in terrestrial and freshwater ecosystems in a Canadian context. The original scientific knowledge generated is sure to improve risk assessments and support the development of regulatory guidelines by government agencies; namely, Health Canada, Environment and Climate Change Canada and the Canadian Food Inspection Agency. The research will be disseminated through publications, conferences, outreach activities and ongoing partnerships with government and industrial partners.

塑料垃圾在环境中随处可见，全球越来越关注它可能对有机体和生态系统造成的影响。尽管陆地上的微塑料和纳米塑料(MNP)污染很少受到关注，但据估计，它比海洋中的污染要大得多。在管理加拿大土壤和淡水中的纳米塑料转化、运输和毒性的过程方面，存在着特别大的知识差距。因此，为了支持政策制定者制定适当的、知情的风险评估和管理战略，我们必须了解这些新出现的污染物在陆地和淡水环境中的命运和任何不利影响。 该研究计划的目标是评估释放到加拿大土壤和水域的MNP的命运和负担的驱动过程，以及管理其影响的特性，以提供保护环境和公众健康的实践、政策和法规。拟议在这一新兴领域进行的研究具有原创性和创新性，因为：(1)它将提供有关纳米塑料的形成、环境命运和影响的新知识；(2)这项工作将在与北方气候和环境有关的条件下进行；(3)它侧重于与海洋系统相比特别被忽视的陆地和淡水环境中的塑料污染。 这项研究将由1名博士后、4名博士生、3名硕士和5名本科生完成。这项研究具有很高的培训价值，因为它具有挑战性、创新性，涉及最先进的技术，并提供了多学科合作的机会。用于解决我们的研究问题的方法将包括对MNP的形成、聚集、运输和毒性进行严格的实验室研究。我们将首先通过模拟加拿大典型冬季温度和冻融循环的影响来研究不同类型塑料的MNP形成速度。受控测试的结果将与室外MNP暴露进行比较。我们还将量化MNP在代表加拿大淡水的一系列水化学物质中的传输。最后，将确定MNPs增强其他污染物传输的能力以及MNPs对昆虫的毒性。 这项研究将首次在加拿大范围内全面评估MNPs在陆地和淡水生态系统中的命运和影响。产生的原始科学知识肯定会改进风险评估，并支持政府机构--加拿大卫生部、加拿大环境和气候变化部门和加拿大食品检验局--制定监管准则。这项研究将通过出版物、会议、外联活动以及与政府和工业伙伴的持续伙伴关系进行传播。