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Ocean plastic does not lead to marine life population decline, ASU study shows

Analysis of decades of research reveals no evidence that plastic pollution causes overall losses in megafauna species


ASU scientist Jesse Senko with sea turtle
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October 09, 2020

The carcass of an albatross chick, covered in bottle caps. A dead sperm whale on a Scottish beach, stomach full of debris.

Horrifying images, to be sure. But is plastic pollution causing populations of large sea animals like these to decline?

There is no scientific evidence to support that it is, according to a new study led by a marine biologist at Arizona State University.

The research examined 1,200 peer-reviewed studies published over the past 50 years that described interactions of marine wildlife with plastic pollution. Of these, only 47 studies considered population-level effects of plastic interactions with marine megafauna.

“I think there's some glimmer of hope in this study that is showing at least at current levels, it really isn't affecting these animals on a population level,” said lead author Jesse Senko, an assistant research professor in the School for the Future of Innovation in Society.

“We did not expect this when we started the study,” Senko said. “It caught us off guard.”

Graphic photos shock readers, but threats that don’t show up well on cameras are more serious, Senko said. Climate change, fisheries bycatch, habitat degradation, noise pollution, and direct catch for human consumption are all threats that have been proven to cause population levels to decline.

“It’s not a free pass for people to use as much plastic as they want. I think we should still aim to reduce it, obviously. But I think we really need to think about how we cover this problem because I fear that it draws away attention from the real threats.”

— Assistant Research Professor Jesse Senko

“If you look at the amount of coverage plastic pollution gets, it's really disproportionate compared to all the other threats,” Senko said. “The take-home is we know that plastic pollution kills individual animals. And it's certainly an animal welfare issue because not only does it kill them, it causes a lot of suffering, but there's no evidence yet to suggest that it causes any population decline in any of these species.”

Some species are more tolerant of plastic than others. Senko pointed to certain populations of large whales where almost 80% of the animals in that population have become entangled in plastic and eventually shed the gear. Sea turtles can have plastic in their guts for as long as four months.

“In a lot of cases, sea turtles and seabirds will just poop the plastic right out,” Senko said. “And so a lot of the mortality that we've attributed to the plastic might actually be because the animals are sick. … Sometimes animals wash ashore dead and they have a bunch of plastic in their stomach. Scientists will do a necropsy and say, ‘Oh, the animal died of plastic pollution.’ Well, it turns out that what we're starting to see is sick animals tend to feed on plastic so that it may be that the animal was already sick and then interacted with plastic. It's not necessarily the plastic itself that's killing the animals.”

This juvenile Kemp’s ridley sea turtle was found 65 nautical miles west of Sarasota, Florida. It had ingested the latex end of a toy balloon, from which the synthetic ribbon trailed from the turtle and was wrapped around its front flippers. Photo by Blair Witherington

When Senko and his team started the analysis, they expected that they would find some studies that found population level impacts.

“This was a shocker that, you know, in the last 50 years, after sifting through thousands upon thousands of studies, not a single one was able to document that plastic caused the population decline and/or reduced population growth in any of these species.”

Senko believes that controlled studies can help shed light on the fate of marine wildlife. Studies will need to be evaluated on a case-by-case basis in terms of animal welfare, but surrogate species could potentially be used for endangered ones. These studies can control the amounts and types of plastic ingested, including chemical-laden plastic, as well as track weathering, dosage, and components of the introduced items. Researchers can concurrently track changes in feeding, weight, growth rates, and other behaviors to gain a better understanding of how marine megafauna might be affected, which can ultimately be used to infer possible population-level impacts where interaction rates with plastic pollution are well-documented or believed to be high.

“It’s not a free pass for people to use as much plastic as they want,” Senko said. “I think we should still aim to reduce it, obviously. But I think we really need to think about how we cover this problem because I fear that it draws away attention from the real threats.”

Co-author Janie Reavis said it’s possible to study the ocean without being near it.

"Working on this global review paper as an undergraduate student at ASU made me realize it’s possible to study marine species and global-scale conservation threats in a landlocked state like Arizona. It also gave me the opportunity to co-author a paper during my undergrad, which ended up being a stepping stone into my PhD project," said Reavis, a second-year PhD student in biology.

The study publishes Oct. 12 in the journal Endangered Species research. 

Top photo: Jesse Senko studying sea turtles in the Sea of Cortez, Baja California, Mexico, with research associate Juan Cuevas. Photo courtesy of ASU Enterprise Marketing Hub.

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