As it turns out, biology is on the way to solving our problem for us. It is not great not does it appear to be fast, but over a short number of years the problem will disappear. O ur remaining problem is to find a way to avoid plastic finding its way into the sea first. Once that is done, then we can be comfortable that Mother Nature will restore things rather quickly.
So in the long term the news is good.
In the short term the damage done to wildlife remains horrific. What is needed is a global treaty that simply makes production of plastics constrained by the cost of recovery with charge backs assessed for any form of dumping. This happens to be a doable treaty. That is not true for most sensible treaty deals.
So in the long term the news is good.
In the short term the damage done to wildlife remains horrific. What is needed is a global treaty that simply makes production of plastics constrained by the cost of recovery with charge backs assessed for any form of dumping. This happens to be a doable treaty. That is not true for most sensible treaty deals.
'Plastic-eating' microbes help marine debris sink: study
Microscopic creatures could be helping reduce marine garbage
on the ocean surface, not only by "eating" plastics but by causing tiny
pieces to sink to the seafloor, Australian researchers said Thursday.
The plastic-dwellers appear to be biodegrading the
millions of tonnes of debris floating on waters worldwide, according to
oceanographers at the University of Western Australia.
They
analysed more than 1,000 images of material drifting along Australia's
coast in a study published in the scientific journal PLOS ONE.
The
study is the first to document the biological communities living on the
tiny particles of debris known as microplastics, and recorded many new
types of microbe and invertebrate for the first time.
"Plastic biodegradation seems to happen at sea," oceanographer Julia Reisser said.
"I
am excited about this because the 'plastic-eating' microbes could
provide solutions for better waste disposal practices on land."
Scientists have warned that microplastics -- particles smaller
than five millimetres (0.2 of an inch) -- are threatening to alter the
open ocean's natural environment.
The United Nations Environment
Programme estimated in 2012 that around 13,000 pieces of microplastic
litter were found in every square kilometre of sea, with the North
Pacific most badly affected.
While there has been previous
research on microbes eating plastic at landfills, Reisser said her
research found early indications that their marine counterparts could be
just as effective on ocean garbage.
"If you use terrestrial microbes, you need fresh water to grow them and the process can be very expensive," she told AFP.
"But if you find marine microbes, they are growing in saltwater and that might be a cheaper way (to reduce landfills)."
Reisser
said the research showed diatoms -- tiny algae that were the most
commonly found microbe living on the microplastics -- were using the
little pieces as a "boat" to move around on the surface of the ocean.
As
more and more diatoms -- which are made of silica -- gathered on a
plastic piece, they appeared to make it sink to the bottom of the ocean
floor, she said.
The actions
of the microbes could explain why the amount of plastic floating on the
seas has not been expanding as fast as scientists expected, Reisser
added.
But the researchers
also found evidence of possible tiny bite marks on the microplastics, raising concerns that other small organisms could be consuming toxins
found in the litter.
"It
seems we have tiny animals grazing on these plastic inhabitants -- but
we are not sure if this is good or bad," Reisser said.
"That's a hazard that we are very worried about, but we need far more research to see how big this problem is."
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