Washington, Oct 25 (PTI) Corals may have developed a preference for consuming plastic bits, putting them at risk of being choked by the indigestible materials, a study has found.Also Read - Woman Raped on Train While Passengers Remain Mute Spectators
Scientists have long known that marine animals mistakenly eat plastic debris because the tiny bits of floating plastic might look like prey. Also Read - US President Joe Biden Plan Seeks to Expand Education, From Pre-K to College
The study of plastic ingestion by corals by researchers from Duke University in the US suggests there may be an additional reason for the potentially harmful behaviour. Also Read - US Has Enough COVID-19 Vaccines For Boosters, Kid's Shots
Visual cues, such as a resemblance to prey, do not factor into the appeal because corals have no eyes, researchers said.
“Corals in our experiments ate all types of plastics but preferred unfouled microplastics by a threefold difference over microplastics covered in bacteria,” said Austin S Allen, a PhD student at Duke’s Nicholas School of the Environment.
“This suggests the plastic itself contains something that makes it tasty,” said Allen.
“When plastic comes from the factory, it has hundreds of chemical additives on it. Any one of these chemicals or a combination of them could be acting as a stimulant that makes plastic appealing to corals,” said Alexander C Seymour, from Duke’s Marine Robotics and Remote Sensing Center.
Further research will be needed to identify the specific additives that make the plastic so tasty to corals and determine if the same chemicals act as feeding stimulants to other marine species, researchers said.
Microplastics, tiny pieces of weathered plastic less than five millimetres in diameter, began accumulating in the oceans four decades ago and are now ubiquitous in the marine environment.
They pose a major threat to foraging sea animals, including many species of birds, turtles, fish, marine mammals and invertebrates.
Since plastic is largely indigestible, it can lead to intestinal blockages, create a false sense of fullness or reduce energy reserves in animals that consume it.
“About eight per cent of the plastic that coral polyps in our study ingested was still stuck in their guts after 24 hours,” said Allen.
The biological effects of most of these compounds are still unknown, but some, such as phthalates, are confirmed environmental estrogens and androgens – hormones that affect sex determination.
Researchers conducted their two-part study using corals collected from waters off the North Carolina coast.
In their first experiment, they offered small amounts of eight different types of microplastics to the corals to see if the animals would eat the bite-sized bits versus other similarly-sized items offered to them, such as clean sand.
“We found that the corals ate all of the plastic types we offered and mostly ignored sand,” Allen said.
In the second experiment, they put groups of coral into separate feeding chambers. Each group was offered the same amount weathered plastics for a 30-minute period.
Some groups got only particles of unfouled microplastics while others got only particles of weathered microplastics fouled with a bacterial biofilm.
This experiment verified that the corals would eat both types of plastic, but preferred the clean type by a three-to- one margin.
The researchers hope their findings will encourage scientists to explore the role taste plays in determining why marine organisms ingest microplastics.
This is published unedited from the PTI feed.