Tuna study reveals oil pollution causes heart problems

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A dead fish lays on the beach as workers clean up hay placed to protect the beach from oil and tar balls from the Deepwater Horizon site on May 15, 2010 in Dauphin Island, Alabama
© Getty/AFP/File Joe Raedle

Chicago (AFP) – The reason people have more heart attacks when air pollution levels rise may have been revealed by a study on the impact of the BP oil spill on tuna, scientists said Thursday.

Heart problems in humans and fish have long been linked to air pollution and oil spills respectively. But researchers had not yet sorted out exactly how the toxic compounds found in oil interfere with heart cells.

Interest in the problem increased when the devastating 2010 explosion on the BP-leased Deepwater Horizon drilling rig unleashed four million barrels of oil into the Gulf of Mexico during spawning season.

Scientists at the National Oceanic and Atmospheric Administration (NOAA) and Stanford University set out to understand what happened to the hearts of tuna which had been spawned near the spill.

They collected oil samples and young fish from the site and studied the impact of both fresh and ‘weathered’ oil on the fish heart muscles.

The researchers found that chemicals in the oil blocked the potassium and calcium channels that regulate heart rate and rhythm.

The basic mechanisms occurring there are vital processes in cardiac cells in all vertebrates — including humans.

“There’s lots of evidence that what’s in particulate matter — the exhaust coming out of our cars — is similar to what we’re measuring here in crude oil,” said study author Barbara Block, a biologist at Stanford University.

A biologist with the US Fish and Wildlife Service tries to catch a brown pelican covered with oil from the BP Deepwater Horizon oil spill, at Empire Jetty in the Gulf of Mexico on June 15, 2010
© AFP/File Saul Loeb

“We should be looking at the impact of air pollution on cardiac excitation coupling and I suspect we’ll find the exact same response as we find here.”

The discovery could have impacts beyond the regulation of oil pollution, said coauthor at Nat Scholz, who heads the ecotoxicology program at a NOAA fisheries center in Seattle.

“These results on the NOAA side are going to have the potential to go beyond crude oil because there’s so many other sources of PAH (toxic hydrocarbons) in coastal watersheds,” he told reporters at the annual meeting of the American Association for the Advancement of Science.

“There’s tie-ins from this to urban storm water runoff and pollution from other sources.”

The study also presented dismal prospects for the Gulf’s commercial fishing industry and for the region’s ecological health.

The breeding population of the bluefin tuna — which can live 35 years and grow to a whopping 1,400 pounds (650 kilograms) — had already fallen by 80 percent before the spill.

The latest stock assessment found that the bluefin tuna spawning population had fallen to just 36 percent of the 1970 baseline population.

A number of other important species — including yellowfin tuna, dolphins, blue marlin and swordfish — also spawn in the area worst hit by the spill.

Boats pull an oil boom behind them as they skim the oil from the surface near where the Deepwater Horizon oil platform sank, on May 9, 2010 in the Gulf of Mexico
© Getty/AFP/File Joe Raedle

While the impacts of the oil were most acute in embryos and larvae — because adults can filter out some of the oil with their gills and livers — the cardiac cells were blocked by oil at all stages of development.

The study also found that the ‘weathered’ oil — which had been broken down by wave action and chemical dispersants used to keep the oil out of fragile wetlands — was more toxic than fresh oil.

And even very low concentrations of oil had significant impacts.

It’s not yet clear when the Gulf fisheries will stop feeling the effects of the oil spill, Scholz said.

Relatively high concentrations of oil will simply kill the larvae. Lower levels of oil in the water will still affect the survivability of the fish, but in less obvious ways.

“We’re finding situations where fish that look outwardly normal may have subtle effects that persist,” Scholz  said. “If you put them on a fish equivalent of a treadmill later in life they have problems with their cardiac output.”

The study will be published Thursday in the journal Science.


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