04/02/18

Plastic debris linked to coral disease, death

Marine debris
Copyright: NOAA's National Ocean Service [CC BY 2.0]. This image has been cropped.

Speed read

  • Asia Pacific region has 55.5 per cent of the world’s coral reefs
  • Plastic debris entering the ocean attracts microbes that can be lethal to coral
  • Plastic injures corals and make reefs vulnerable to disease outbreaks

Send to a friend

The details you provide on this page will not be used to send unsolicited email, and will not be sold to a 3rd party. See privacy policy.

[NEW YORK] An international group of researchers has found that plastic trash entering the world’s oceans attracts microbes that cause corals to sicken and die. 

“Plastic debris acts like a marine motorhome for microbes,” says Joleah Lamb, research fellow at Cornell University in Ithaca, New York and lead author of the study published last month (26 January) in Science.

Plastics can cause physical injury to coral tissues, facilitating invasion of pathogens associated with disease outbreaks, the study says. An example is the protozoan Halofolliculina corallasia, which causes skeletal eroding band disease.

According to Lamb, when plastic debris meets coral, the likelihood of disease increases from 4 – 89 per cent.

“A small, infected wound can kill an entire colony. That said, if the plastic is removed, some of these corals would heal their wounds and recover”

Drew Harvell, Cornell University

The study’s researchers estimated that approximately 11.1 billion plastic items are entangled on reefs across the Asia-Pacific region, which has 55.5 per cent of global coral reefs. They surveyed 159 reefs in the Asia-Pacific region between 2011 and 2014 for signs of disease and plastic pollution. They found that one-third of the examined corals were contaminated with plastic waste.

Of particular danger to the reefs were single-use plastic bags, chip bags, diapers and rice sacks, says Drew Harvell, professor of ecology and evolutionary biology at Cornell University. “A small, infected wound can kill an entire colony. That said, if the plastic is removed, some of these corals would heal their wounds and recover,” she says.  

“Our data show the way forward,” Harvell adds. “The levels of plastics are relatively low on Australia’s reefs, where there is much better waste management. Banning plastic bags and straws in coastal areas and putting in place stronger recycling programmes and beach clean-ups can help solve the problem.”

Danwei Huang, coral reef ecologist and biological sciences professor at the National University of Singapore, says, “This is the first study to link plastic contact of corals with disease. The number of plastic waste items littered across marine environments is known to be high, but this study looks specifically at plastics found on coral reefs, and the estimates are alarming.”

“Plastics have also been known to host microbial pathogens, particularly since they persist in the environment for a long time,” Huang notes, adding that increasing plastic waste contact is occurring at the same time in which oceans are warming and becoming more acidic.

“Some might argue that the planet has warmed and oceans acidified in the geological past, but plastic pollution is wholly attributable to humans, and the synergistic effects are bringing coral reefs into unfamiliar territory.”
 
This piece was produced by SciDev.Net’s Asia & Pacific desk.