Micro-plastics are increasingly being found in the oceans and may prove to be as harmful to marine life as more obvious, larger debris, according to a new report.
The report – Sources, fates and effects of micro plastics in the marine environment - a global assessment – has been published by the Joint Group of Experts on the Scientific Aspects of Marine Environmental Protection (GESAMP), an advisory body that advises the United Nations on scientific aspects of marine environmental protection.
"While there is a need for further assessment of the problem, the report is the first attempt, at a global scale, to identify the main sources, fate and effects of micro plastics in the ocean and offers improved understanding of the scale of the problem. The assessment suggests that there needs to be a wider awareness of the potential harm that micro plastics in the oceans could cause," said Dr Stefan Micallef, Director Marine Environment Division at IMO and the Administrative Secretary of GESAMP.
"Even tiny particles, such as those used in cosmetic products or abrasives, could potentially harm marine life if ingested. We need to work globally to ensure that plastics do not end up in the oceans," Dr Micallef said.
Micro plastics refer to small plastic particles, less than 5mm in diameter, but some as small as 10 nanometres. Micro plastics may be purposefully manufactured for particular industrial or domestic applications, or result from the fragmentation of larger items, especially when exposed to sunlight.
Such particles have been found distributed throughout the world's oceans, on shorelines, in surface waters and seabed sediments, from the Arctic to Antarctic. They may accumulate at remote locations such as mid-ocean gyres, as well as close to population centres, shipping routes and other major sources.
The potential problems of micro-plastics in the marine environment were brought to the attention of GESAMP in 2010 and the assessment report has been developed by a working group of experts which has met regularly during the past five years.
The report notes that while the physical impacts of larger litter items, such as plastic bags and fishing nets, have been demonstrated, it is much more difficult to attribute physical impacts of micro plastics. Nonetheless, laboratory tests indicate that even very tiny particles can cause cellular damage in mammals. Micro plastics have been found inside the bodies of a wide variety of marine organisms including invertebrates, fish, birds and mammals, and the ingestion of micro plastics may have an effect on the feeding, movement, growth and breeding success of the host organism.
Plastics often contain chemicals added during manufacture and can absorb and concentrate contaminants such as pesticides from the surrounding seawater and there is emerging evidence of transfer of chemicals from ingested plastics into tissues.
The report recommends solving the problem at its source rather than try to clean up the plastic after it has entered the ocean, through reduction, re-use and recycling.
The report warns that even if all releases of plastic to the environment were to cease immediately, the number of micro plastics in the ocean would be expected to continue to increase as a result of continuing fragmentation.
The report provides six recommendations:
1. identify the main sources and categories of plastics and micro plastics entering the ocean;
2. utilise end-of-life plastic as a valuable resource rather than a waste product;
3. promote greater awareness of the impacts of plastics and micro plastics in the marine environment;
4. include particles in the nano size range in future assessments of the impact of plastics in the ocean;
5. evaluate the potential significance of plastics and micro plastics as a vector for organisms in future assessments; and
6. future assessments should address the chemical risk posed by ingested micro plastics in greater depth.
GESAMP will continue to further develop knowledge on micro plastics in the marine environment.
The full 98-page report can be downloaded as a PDF here: