Eastern European Association of the Greens We create our heritage Eastern European Association of the Greens Eastern European Association of the Greens We create our heritage Eastern Europe Association of the Greens

Scientists find out bacteria glues plastic together what causes more threat to sea life than imagined

Sea animals could take bigger clusters for food or it can lead to deep-sea fish starving.

Scientists have discovered that plastic in the oceans is being turned into an even greater threat to small sea creatures than previously thought because bacteria are sticking particles of it together.

Glue-like substances secreted by bacteria are sticking tiny bits of plastic to form larger clusters that marine animals could mistake for food, experts fear.

They also worry that the clumping could divert the natural flow of food from the ocean surface to the seafloor, leading to deep sea creatures being starved.

Researchers at Heriot-Watt University in Edinburgh staged experiments with seawater, adding plastics in conditions simulating the ocean surface.

Within minutes, the minuscule pieces of plastic grouped together with bacteria, algae and other organic particles to form larger clumps.

The scientists are said to have been surprised to discover that large masses of biopolymers – molecules made by organisms – formed the bulk of the plastic clusters.

Research shows that about eight million tonnes of plastic are thrown into the ocean each year.

Team member Stephen Summers said: “This is a first step towards understanding how nanoplastics interact with natural biopolymers throughout the world’s oceans.

“This is very important, as it is at this small scale that much of the world’s biogeochemistry occurs.”

The clumps became visible to the naked eye.

Stephen Summers points out the fact that the agglomerates become large enough to see raises concern, as they are likely to be seen as a food source by small marine animals.

If plastics of different densities affected the food flux from the upper to lower reaches of the ocean that would cause deep-sea ecosystems starvation, a head study ecologist Tony Gutierrez said.