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PFAS ‘forever chemicals’ are getting into ocean ecosystems, where dolphins, fish and manatees dine

Miami Herald archives

The Conversation is an independent and nonprofit source of news, analysis and commentary from academic experts.

This article was updated April 10, 2024, with the EPA issuing the first federal drinking water standards for PFAS.

PFAS, the “forever chemicals” that have been raising health concerns across the country, are not just a problem in drinking water. As these chemicals leach out of and and wash off and , they can end up in streams that ultimately discharge into ocean ecosystems where fish, dolphins, manatees, sharks and other marine species live.

We study the risks from these persistent pollutants in coastal environments as at Florida International University’s Institute of the Environment.

Because PFAS can and accumulate in marine plants and animals, including fish that humans eat, the spread of these chemicals has and implications.

Biscayne Bay and nearby coastal areas are teeming with fish, including many varieties that people eat. In a recent study, we in Miami’s to help pinpoint ways to reduce the harm.

What are PFAS?

PFAS – perfluoroalkyl and polyfluoroalkyl substances – are a group of human-made contaminants that have been . They’re found in personal care products, such as cosmetics and shampoo, and in water-repellent coatings for nonstick cookware and food packaging. They’re also used in adhesives and aqueous firefighting foams, among other products.

As those PFAS-containing products washed down drains and were thrown in landfills over the years, PFAS chemicals became widespread in the environment. Eventually, these chemicals found their way into aquatic ecosystems, including surface water, groundwater and coastal environments.

An illustration shows some of the sources of PFAS in the environment. The same stability and resistance to degrading that makes these chemicals valuable for water- and stain-proof products also makes them nearly impossible to destroy. Hence, the nickname “forever chemicals.” They persist in the environment for decades to centuries.

That’s a problem, because PFAS have been linked to , endocrine, developmental, reproductive and neurological disruption and increased risk of bladder, , and . A drinking water study by the U.S. Geological Survey estimated these chemicals were in across the U.S., and a large percentage of Americans are now believed to have . The EPA finalized the first federal on April 10, 2024.

Studies have also found PFAS in a broad range of , including in the livers of otters and in gulls’ eggs, as well as across the U.S. These chemicals have already been shown to affect the and .

How PFAS get into the marine environment

When we began tracking the sources of PFAS in Biscayne Bay, we found hot spots of these chemicals around the exits of urban canals – especially the Miami River, Little River and Biscayne Canal. Each of these canals, we found, is a contributing to the presence of PFAS in offshore areas of the Atlantic Ocean.

One major source of that PFAS is sewage contamination from failed septic systems and wastewater leaks in urban areas. This is evident by the presence of the types of PFAS – such as PFOS, PFOA, PFPeA, PFHxS, PFHxA, PFBA and PFBS – that stain and grease repellents and in carpets, food packaging materials and household products.

Another major source is represented by the predominance of in the Miami River – 6-2 FTS is a fluorotelomer PFAS typically used in aqueous film-forming foam found at military and airport facilities. The Miami River flows past rail yards, industries and Miami International Airport on its way to Biscayne Bay.

A map from the study shows PFAS hot spots near canals that carry water from the city. Red indicates higher PFAS concentrations, measured in nanograms per liter. Green indicates lower, more diluted PFAS concentrations. We also used a model to predict how ocean currents would disperse PFAS coming out of those canals and into coastal areas. We found that the PFAS concentrations were highest close to the canals, decreased along the bay and declined as ocean water became deeper and more saline, which makes PFAS less soluble in water.

Overall, PFAS concentrations were almost in surface waters near land compared with deep-water samples collected 13 to 33 feet (4 to 10 meters) below the surface in the bay and offshore. That suggests the highest risk is to pelagic fish that hang out in surface waters, such as mackerel, tunas and mahi-mahi.

How marine organisms are at risk

The in our study were below the Florida Department of Environmental Protection advisory levels in surface water for human health exposure. However, the advisory levels might not be protective of human and marine life.

They do not take into consideration that these chemicals accumulate . Higher concentration in the top of the food web means PFAS could pose a greater , sharks and humans .

Olutobi Daniel Ogunbiyi, an author of this article and lead author of the study, takes water samples in Biscayne Bay. Many types of PFAS identified in our samples are not regulated, and their potential toxicity is unknown. We believe there is a need for federal and state agencies to develop guidelines and implement action plans to protect people and the aquatic life in Biscayne Bay.

What you can do about it

Given the persistence of PFAS and their widespread use, it is not surprising that these forever chemicals are found in almost all water systems in South Florida and are showing up .

While scientists look for effective and efficient ways to eliminate and remove these chemicals from water, food and the environment, people can limit their use of PFAS-containing products to reduce the amounts of these chemicals that get into the marine environment.

Here are some to watch for: Teflon nonstick cookware; food packaging for fast food and popcorn; water-resistant clothing and cosmetics; and treated carpets.

_________

, Assistant Professor of Chemistry, and , Ph.D. Candidate in Chemistry,

This article is republished from under a Creative Commons license. Read the .

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