AN abundant organism may be acting as a sink for the smallest plastic particles which make up the majority of the oceanâs plastic load.
UWA Oceans Institute director Carlos Duarte, along with UWA PhD student Julia Reisser, has been surveying the ocean to uncover the distribution of plastic across the world.
Professor Duarte presented the findings in a public lecture as part of the UWA Inquiring Minds series, showing for the first time a global picture of plastic concentrations in the ocean.
âEven though thereâs been reports of high loads of plastics in particular regions of the ocean, until now we didnât have a really good survey,â Prof Duarte said.
The researchersâ modelling indicated plastic debris should accumulate in central gyres of the ocean â areas of stagnant water unaffected by currents around coastal areas â but only one, in the Pacific Ocean, had previously been sampled.
âIn that gyre, thereâs a high amount of plastic debris, but we donât really know whether this is true for the other four gyres in the oceanâtwo in the Pacific, one in the northern and one in the southern hemisphere, two in the Atlantic, and only one in the Indian ocean,â Prof Duarte said.
To build a global picture, the Oceans Institute used Neuston samplers, similar to small catamarans, to skim the top 10cm of the ocean and collect samples containing small buoyant plastic particles in collaboration with Ms Reisser surveying the Australian coast, and colleagues in Chile.
The particle concentration in the gyres was 100 to 1000 times greater than in the rest of the ocean.
However, the sampling came up with a âsurprisingly smallâ estimate of the particle debris in the entire ocean.
âWe were expecting values in excess of one million tonnes of plastic, and only found between 10 and 30,000 tonnes of plastic,â Prof Duarte said.
âThis doesnât mean plastic isnât being produced and released, it means plastic is being lost somewhere.â
Prof Duarte said the pathways of loss included particles breaking into smaller and smaller pieces due to UV radiation, degradation by bacteria, and abundant organisms called myctophids, or lanternfish, acting as a sink for the particles.
The fish, which are found in the oceanâs gyres, come to the surface to feed at night, where they ingest the plastic particles which resemble the size of their usual prey.
Several samples of the myctophids uncovered significant loads of plastic the size of appropriate particles inside the guts of the animal.
âWe believe these organisms may hold part of the response to where is the plastic going, because âŠ they are the dominant species in the gyres of the ocean.â