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BY KATIE - MYGREENPOD, 15 Dec '17
Study shows marine organisms can shred a plastic carrier bag into 1.75 million pieces
A single plastic carrier bag could be shredded by marine organisms into around 1.75 million microscopic fragments, according to new research.
Marine scientists at the University of Plymouth examined the rate at which bags were broken down by the amphipod Orchestia gammarellus, which lives in coastal areas in northern and western Europe.
They believe the results are an example of marine wildlife actually contributing to the spread of microplastics within the marine environment, rather than them simply being emitted from the water supply or forming through the physical and chemical breakdown of larger items.
Previous studies led by the university have shown that more than 700 species of marine life have been found to have encountered plastic debris, with clear evidence that ingestion and entanglement causes direct harm to many individuals.
The main aim of the study was to discover whether different types of plastic and the presence of a biofilm – a layer of organic material which accumulates over time – altered the rate at which such organisms break down plastic debris.
Through monitoring in the lab and on the shoreline, researchers demonstrated the bags were torn and stretched by Orchestia gammarellus, with microplastics subsequently being found in and around their faecal matter.
‘An estimated 120 million tonnes of single-use plastic items – such as carrier bags – are produced each year and they are one of the main sources of plastic pollution. They already represent a potential hazard to marine life, but this research shows species might also be contributing to the spread of such debris. It further demonstrates that marine litter is not only an aesthetic problem but has the potential to cause more serious and persistent environmental damage.’
PROFESSOR RICHARD THOMPSON
Head of the University of Plymouth’s International Marine Litter Research Unit
Marine life attracted to debris
The type of plastic (conventional, degradable and biodegradable) had no effect on the rate of ingestion, however the presence of a biofilm meant the shredding took place around four times as quickly.
This, the researchers say, is consistent with recent studies into the feeding behaviour of seabirds and suggests marine life might be increasingly attracted to marine debris as a source of food regardless of the potential harm caused.
The study, conducted by BSc (Hons) Marine Biology and Coastal Ecology students Daniella Hodgson and Amanda Bréchon, and Professor of Marine Biology Richard Thompson, is published in Marine Pollution Bulletin.