Microplastics found in coral skeletons
Researchers find that all coral components—including its skeleton—contain microplastics.
Researchers from Japan and Thailand investigating microplastics in coral have found that all three parts of the coral anatomy—surface mucus, tissue, and skeleton—contain microplastics. The findings were made possible thanks to a new microplastic detection technique developed by the team and applied to coral for the first time.
These findings may also explain the ‘missing plastic problem’ that has puzzled scientists, where about 70% of the plastic litter that has entered the oceans cannot be found. The team hypothesizes that coral may be acting as a ‘sink’ for microplastics by absorbing it from the oceans. Their findings were published in the journal Science of the Total Environment.
Humanity’s dependence on plastics has brought unprecedented convenience to our lives but has caused untold damage to our ecosystem in ways researchers are still beginning to understand. In the oceans alone, it is estimated that 4.8–12.7 million tons of plastics flow into the marine environment annually.
“In Southeast Asia, plastic pollution has become a significant issue. Collectively, nearly 10 million tons of plastic waste are dumped annually, equivalent to 1/3 of the world’s total,” explains Assistant Professor Suppakarn Jandang from Kyushu University’s Research Institute for Applied Mechanics (RIAM) and first author of the study. “Some of this plastic is discharged into the ocean, where it degrades into microplastics.”
To study the plastic pollution problem in Southeast Asia, RIAM partnered with Thailand’s Chulalongkorn University in 2022 to establish the Center for Ocean Plastic Studies. The international institute is led by Professor Atsuhiko Isobe, who also led the research team behind these latest findings.
The team wanted to examine the impact of microplastics to local coral reefs, so they focused their field work on the coast of Si Chang Island in the Gulf of Thailand. The area is known for its small reef flats as well as being a common area for anthropological studies.
“Coral has three main anatomical parts: the surface mucus, the outside of the coral body; the tissue, which is the inner parts of the coral; and the skeleton, the hard deposits of calcium carbonate they produce. Our first step was to develop a way to extract and identify microplastics from our coral samples,” continues Jandang. “We put our samples through a series of simple chemical washes designed to break apart each anatomical layer. After each subsequent layer was dissolved, we would filter out the content and then work on the next layer.”
In total, they collected and studied 27 coral samples across four species. 174 microplastic particles were found in their samples, mostly ranging from 101–200 μm in size, close to the width of a human hair. Of the detected microplastics 38% were distributed on the surface mucus, 25% in the tissue, and 37% were found in the skeleton. As for types of microplastics, the team found that nylon, polyacetylene, and polyethylene terephthalate (PET) were the three most prevalent, accounting for 20.11%, 14.37%, and 9.77%, respectively, of the identified samples.
These new findings also indicate that coral may act as a marine plastic ‘sink’, sequestering plastic waste from the ocean, like how trees sequester CO2 from the air.
“The ‘missing plastic problem’ has been troubling scientists who track marine plastic waste, but this evidence suggests that corals could account for that missing plastic,” says Jandang. “Since coral skeletons remain intact after they die, these deposited microplastics can potentially be preserved for hundreds of years. Similar to mosquitos in amber.”
Further study is still necessary to understand the full impact of these findings on coral reefs and the global ecosystem.
“The corals that we studied this time are distributed all around the world. To get a more accurate picture of the situation we must conduct extensive studies globally across an array of coral species,” concludes Isobe. “We also do not know the health effects of microplastics on coral and the larger reef community. There is still much to be done to accurately evaluate the impact of microplastics on our ecosystem.”
For more information about this research, see “Possible sink of missing ocean plastic: Accumulation patterns in reef-building corals in the Gulf of Thailand,” Suppakarn Jandang, María Belén Alfonso, Haruka Nakano, Nopphawit Phinchan, Udomsak Darumas, Voranop Viyakarn, Suchana Chavanich, and Atsuhiko Isobe, Science of the Total Environment, https://doi.org/10.1016/j.scitotenv.2024.176210
About Kyushu University
Founded in 1911, Kyushu University is one of Japan’s leading research-oriented institutes of higher education, consistently ranking as one of the top ten Japanese universities in the Times Higher Education World University Rankings and the QS World Rankings. The university is one of the seven national universities in Japan, located in Fukuoka, on the island of Kyushu—the most southwestern of Japan’s four main islands with a population and land size slightly larger than Belgium. Kyushu U’s multiple campuses—home to around 19,000 students and 8000 faculty and staff—are located around Fukuoka City, a coastal metropolis that is frequently ranked among the world’s most livable cities and historically known as Japan’s gateway to Asia. Through its VISION 2030, Kyushu U will “drive social change with integrative knowledge.” By fusing the spectrum of knowledge, from the humanities and arts to engineering and medical sciences, Kyushu U will strengthen its research in the key areas of decarbonization, medicine and health, and environment and food, to tackle society’s most pressing issues.
Journal: Science of The Total Environment
DOI: 10.1016/j.scitotenv.2024.176210
Method of Research: Experimental study
Subject of Research: Animals
Article Title: Possible sink of missing ocean plastic: Accumulation patterns in reef-building corals in the Gulf of Thailand
Article Publication Date: 18-Sep-2024
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