Great barrier reef corals eat microplastics!

Coral Reef
Source: Pixabay

Recently, the Government of Australia had ordered a waste dumping ban on Great Barrier Reef. Now, researchers in Australia have found that corals commonly found on the Great Barrier Reef eat micro-plastic pollution. Microplastics are tiny fragments of plastic in the environment and are a widespread contaminant in marine ecosystems, particularly in inshore coral reefs.

“Corals are non-selective feeders and our results show that they can consume microplastics when the plastics are present in seawater. Marine plastic pollution is a global problem and microplastics can have negative effects on the health of marine organisms.” said Dr Mia Hoogenboom, a Chief Investigator with the ARC Centre of Excellence for Coral Reef Studies at James Cook University.

Dr. Hoogenboom also said that if microplastic pollution increases in the Great Barrier Reef, corals could be negatively affected as their tiny stomach-cavities become full of indigestible plastic. Despite the proliferation of microplastics, their impact on marine ecosystems is poorly understood.

As part of the study, the researchers put corals collected from the Great Barrier Reef into plastic contaminated water. After two nights they found that the corals had eaten plastic particles. “Corals get energy from photosynthesis by symbiotic algae living within their tissues, but they also feed on a variety of other food including zooplankton, sediment and other microscopic organisms that live in seawater,” says study lead author Nora Hall, a James Cook University Masters graduate.

The plastic was found deep inside the coral polyp wrapped in digestive tissue, raising concerns that it might impede the corals ability to digest its normal food. The team also sampled the waters adjacent to inshore coral reefs on the Great Barrier Reef.

“During this testing we found microplastics, including polystyrene and polyethylene, although only in small amounts,” says study co-author, Kathryn Berry, a PhD student at James Cook University and the Australian Institute of Marine Science. The researchers say the next step is to determine the impact plastic has on coral physiology and health, as well as its impact on other marine organisms.

The original publication can be accessed here.