Current and Future Effects of Microplastics on Marine Shelf Ecosystems (MINIMISE)

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项目编号	NE/S003738/1
	Current and Future Effects of Microplastics on Marine Shelf Ecosystems (MINIMISE)
	Daniel J Mayor
主持机构	National Oceanography Centre
项目开始年	2019
	2019-02-01
项目结束日期	2022-01-31
资助机构	UK-NERC
项目类别	Research Grant
项目经费	136647(GBP)
国家	英国
英文摘要	Marine plastic debris has been recorded across all parts of the globe and its potential to cause harm to marine wildlife and the healthy functioning of the oceans is an area of huge current concern. Microscopic plastic debris, (microplastic <5 mm in size and with no lower size limit), is a particular concern since its small size allows it to be consumed by many marine organisms, including those at the base of marine food webs and/or intended for human consumption. Coastal oceans are particularly vulnerable; they are in close proximity to human activities that contribute towards pollution and at the same time they are highly productive habitats that support a high abundance of marine life. Protecting these vulnerable habitats from any risk from microplastics is a high priority, but is hindered by a lack of fundamental knowledge; of what methods to use to measure them in marine samples and wildlife, of how microplastics move and behave in the marine environment, how they get into marine animals and what the consequences are for individual animals and for the healthy function of marine ecosystems. In this project we have brought together 4 Universities, the National Oceanography Centre and the Centre for the Environment, Fisheries and Agricultural Sciences (Cefas) to tackle these critical knowledge gaps, focusing on the UK Shelf seas. Our consortium includes scientists with a wealth of expertise in polymer science and the ecotoxicology of microplastics as pollutants, and who have pioneered the field. This unique expertise is strengthened by the addition of new, exciting approaches brought by excellent early career scientists with expertise in understanding the responses of marine ecosystems including at the microbial level and in using computational approaches to calculate environmental risk. We have designed a programme of work that includes many cutting edge new advances in technology, including a new method for measuring microplastics called FLAIR (Fluorescence assisted infrared microscopy) that offer the potential for rapid screening of many samples at once, allowing us to make experimental plans unhindered by technological limitations. We will develop the use of highly sensitive bio-imaging techniques to visualise microplastics deep within living tissues (Hyperspectral imaging, Coherent anti-Stokes Raman spectroscopy) and Quantittive Whole Body Autoradiography (QWBA) for tracing how microplastics move between prey animals and their predators. We will determine how the presence of microplastics and examples of the ubiquitous priority pollutants that can sorb to them in seawater affect the biology of marine invertebrates and fish. We will also determine how microplastics and contaminants affect the functioning of marine shelf seas sediments and the organisms that live in them under different ocean chemistry conditions. This is important because these processes support many aspects of marine life. Finally, we will bring all of this data together with the very extensive body of existing monitoring data available to the project through ongoing activities of all partners, to construct a geospatial risk map for the UK shelf seas, using the latest approaches in integrated risk assessment. This unique risk map will offer a predictive tool for working out where impacts from microplastics pollution are likely to occur and risks are greatest, enabling policy makers to make science-backed assertions, e.g. to protect vulnerable habitats, aquaculture, fish spawning areas, fishing activities and other relevant ecosystem services. It will also provide a means of tracking remedial actions and to investigate whether there are 'proxies' for the presence of microplastic pollution that are quicker and easier to measure than microplastics themselves.
URL	查看原文
文献类型	项目
条目标识符	http://119.78.100.173/C666/handle/2XK7JSWQ/87456
专题	环境与发展全球科技态势
推荐引用方式 GB/T 7714	Daniel J Mayor.Current and Future Effects of Microplastics on Marine Shelf Ecosystems (MINIMISE).2019.