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The Conversation
The Conversation
Environment
Leslie Hart, Associate Professor of Public Health, College of Charleston

Microplastic pollution is everywhere, even in the exhaled breath of dolphins – new research

Microplastics are invisible but omnipresent. Musat/iStock via Getty Images Plus

Bottlenose dolphins in Sarasota Bay in Florida and Barataria Bay in Louisiana are exhaling microplastic fibers, according to our new research published in the journal PLOS One.

Tiny plastic pieces have spread all over the planet – on land, in the air and even in clouds. An estimated 170 trillion bits of microplastic are estimated to be in the oceans alone. Across the globe, research has found people and wildlife are exposed to microplastics mainly through eating and drinking, but also through breathing.

A microsopic image shows a thread-like squiggle of purple. The scale given for the object is 0.2 microns.
A plastic microfiber found in the exhaled breath of a bottlenose dolphin is nearly 14 times smaller than a strand of hair and can be seen only with a microscope. Miranda Dziobak/College of Charleston, CC BY-SA

Our study found the microplastic particles exhaled by bottlenose dolphins (Tursiops truncatus) are similar in chemical composition to those identified in human lungs. Whether dolphins are exposed to more of these pollutants than people are is not yet known.

Why it matters

In humans, inhaled microplastics can cause lung inflammation, which can lead to problems including tissue damage, excess mucus, pneumonia, bronchitis, scarring and possibly cancer. Since dolphins and humans inhale similar plastic particles, dolphins may be at risk for the same lung problems.

Research also shows plastics contain chemicals that, in humans, can affect reproduction, cardiovascular health and neurological function. Since dolphins are mammals, microplastics may well pose these health risks for them, too.

As top predators with decades-long life spans, bottlenose dolphins help scientists understand the impacts of pollutants on marine ecosystems – and the related health risks for people living near coasts. This research is important because more than 41% of the world’s human population lives within 62 miles (100 km) of a coast.

What still isn’t known

Scientists estimate the oceans contain many trillions of plastic particles, which get there through runoff, wastewater or settling from the air. Ocean waves can release these particles into the air.

A diagram showing how plastics are broken down into tiny bits by the action of waves.
The ocean releases microplastics into the air through surface froth and wave action. Once the particles are released, wind can transport them to other locations. Steve Allen, CC BY-SA

In fact, bubble bursts caused by wave energy can release 100,000 metric tons of microplastics into the atmosphere each year. Since dolphins and other marine mammals breathe at the water’s surface, they may be especially vulnerable to exposure.

Where there are more people, there is usually more plastic. But for the tiny plastic particles floating in the air, this connection isn’t always true. Airborne microplastics are not limited to heavily populated areas; they pollute undeveloped regions, too.

Our research found microplastics in the breath of dolphins living in both urban and rural estuaries, but we don’t yet know whether there are major differences in amounts or types of plastic particles between the two habitats.

How we do our work

Breath samples for our study were collected from wild bottlenose dolphins during catch-and-release health assessments conducted in partnership with the Brookfield Zoo Chicago, Sarasota Dolphin Research Program, National Marine Mammal Foundation and Fundación Oceanogràfic.

A person standing in chest high water holds a petri dish above a dolphin's blowhole.
Exhaled breath is collected from a dolphin during a wild dolphin health assessment in Barataria Bay in Louisiana. Todd Speakman/National Marine Mammal Foundation, CC BY-SA

During these brief permitted health assessments, we held a petri dish or a customized spirometer – a device that measures lung function – above the dolphin’s blowhole to collect samples of the animals’ exhaled breath. Using a microscope in our colleague’s lab, we checked for tiny particles that looked like plastic, such as pieces with smooth surfaces, bright colors or a fibrous shape.

Since plastic melts when heated, we used a soldering needle to test whether these suspected pieces were plastic. To confirm they were indeed plastic, our colleague used a specialized method called Raman spectroscopy, which uses a laser to create a structural fingerprint that can be matched to a specific chemical.

Our study highlights how extensive plastic pollution is – and how other living things, including dolphins, are exposed. While the impacts of plastic inhalation on dolphins’ lungs are not yet known, people can help address the microplastic pollution problem by reducing plastic use and working to prevent more plastic from polluting the oceans.

The Conversation

Leslie Hart receives funding from the National Institute of Environmental Health Sciences of the National Institutes of Health, Sea Grant, and the National Science Foundation. Research reported in this article was supported by the National Institute of Environmental Health Sciences of the National Institutes of Health under Award Number R15ES034169 and the College of Charleston's School of Health Sciences. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. Leslie Hart is an epidemiological consultant for the National Marine Mammal Foundation; however, this study was not conducted as a consultant. Bottlenose dolphin health assessments were conducted under Scientific Research Permit #26622 and #24359, issued by the National Oceanic and Atmospheric Administration’s (NOAA) National Marine Fisheries Service (NMFS). Research studies were reviewed and approved by Mote Marine Laboratory and NMFS Atlantic Institutional Animal Care and Use Committees (IACUC).

Miranda Dziobak does not work for, consult, own shares in or receive funding from any company or organization that would benefit from this article, and has disclosed no relevant affiliations beyond their academic appointment.

This article was originally published on The Conversation. Read the original article.

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