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Climate change: Global plastic waste on course to increase six-fold by 2030, scientists warn

Harry Cockburn
·3 mins read
Indian children play amid leftovers and plastic waste, near the Arabian Sea coast at Mahim beach in Mumbai (EPA)
Indian children play amid leftovers and plastic waste, near the Arabian Sea coast at Mahim beach in Mumbai (EPA)

Despite numerous global commitments to address the vast amounts of plastic impacting environments around the world, growth in plastic waste is still outpacing reduction efforts, and even if governments stuck to existing guidelines, annual plastic emissions are on course to increase more than six-fold by 2030, according to a new study.

The global analysis of the volume of plastics being produced and polluting our planet, evaluated the means by which we may be able to achieve a global reduction in plastic pollution, and assessed the relative impacts of interventions such as banning plastic bags and straws.

It is currently estimated that around eight million metric tons of plastic waste enters the world's oceans, lakes and rivers every year.

But using new mathematical models, the latest study estimates that by 2030, the annual plastic waste of 173 countries could increase to 53 million metric tons.

The study modeled future scenarios to achieve a global reduction target of less than 8 million metric tons by 2030 using existing mitigation strategies which include: reducing plastic waste, which includes bans on plastic; improving waste management; and environmental clean-up.

To reach this goal, the study found a 25 to 40 per cent reduction in plastic waste would be required, plastic waste management would have to increase from 6 to 60 per cent in low-income economies, and a clean-up of 40 per cent of annual plastic emissions would be needed.

The study shows that unless growth in plastic production and use is halted, which the scientists described as an “unlikely scenario”, a fundamental transformation of the plastics economy is essential. This would mean “end-of-life plastic products are valued rather than discarded as waste”.

Leah Gerber, professor of conservation science at Arizona State University and co-investigator on the study said: “There's a lot of popular attention toward clean up, but there hasn't been as much attention to the fact that we're still producing large quantities of plastic.

“Where there's not good infrastructure, that plastic is making its way into marine and aquatic habitats.”

Plastics are slow to degrade, and even when they do, bits of them, known as microplastics, make their way into the aquatic food chain, and eventually into humans.

The “Great Pacific Garbage Patch” - an enormous raft of plastic waste floating in the sea is located between California and Hawaii and embodies the worsening crisis of global plastic pollution.

The patch is said to cover 1.6 million square kilometres, an area about 8 times the size of Wales.

The study’s authors suggest that to achieve a substantial reduction in global plastic emissions requires “meaningful policy change”.

This could include reducing or eliminating unnecessary plastics, establishing global limits for new plastics production, creating global standards that ensure plastics are recoverable and recyclable and developing and scaling plastic processing and recycling technologies.

“In the US we’re huge consumers of single-use plastic,” said Professor Gerber.

“I'm hopeful that our findings will get people to rethink these consumption patterns. Even here in Arizona, the choices we make impact the future of our oceans.”

The warning from the researchers comes amid increasing concern the rise in production of gloves, disposable masks and extra food packaging in response to the Coronavirus pandemic is already causing harm to wildlife, according to the RSPCA.

The research is published in the journal Science.

Read more

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