SALEM, Ore. — The words blasted to cellphones around Oregon’s capital city were ominous: “Civil emergency, prepare for action.”
Within half an hour, a second official alert clarified the subject wasn’t impending violence but toxins from an algae bloom, detected in Salem’s water supply.
Across the U.S., reservoirs that supply drinking water and lakes used for recreation are experiencing similar events with growing frequency. The trend represents another impact of global warming and raises looming questions about the effects on human health, researchers say.
“When water bodies warm up earlier and stay warmer longer … you increase the number of incidents,” said Wayne Carmichael, a retired Wright State University professor specializing in the organisms. “That’s just logical, and it’s being borne out.”
Technically called cyanobacteria, the ancient class of organisms that create the blooms are present nearly everywhere water is found but thrive in warm, still bodies like lakes and ponds. They also create a unique class of toxins, the impact of which on humans is only partly understood.
Long linked to animal deaths, high doses of the toxins in humans can cause liver damage and attack the nervous system. In the largest outbreaks, hundreds have been sickened by blooms in reservoirs and lakes, and officials in some areas now routinely close water bodies used for recreation and post warnings when blooms occur.
But less is known about exposure at lower doses, especially over the long term.
Small studies have linked exposure to liver cancer – one toxin is classified as a carcinogen, and others have pointed to potential links to neurodegenerative disease. But definitively proving those links would require larger studies, said Carmichael, who helped the World Health Organization set the first safe exposure standards for the toxins.
“It’s absolutely certain in my mind that warming temperatures are going to end up causing more of these algal blooms,” said Steven Chapra, an environmental engineering professor at Tufts University.
Chapra led a team including scientists from the Massachusetts Institute of Technology and the U.S. Environmental Protection Agency in one of the most comprehensive studies of the interplay between global warming and the blooms, published in 2017.
Because they prefer warm water, higher summer temperatures and more frequent heat waves help the organisms. More frequent droughts also cause reservoirs to be shallower in summer, causing them to warm faster.
And more intense rainstorms, also conclusively linked to climate change, can wash more nutrients into lakes and reservoirs, especially from farms where nitrogen and phosphorous-rich fertilizers are used, Chapra said.
In Utah, a 2016 algae bloom in a recreational-use lake sickened more than 100. When the story made national headlines, other states reached out.
“We started getting calls from other health departments all over the country saying, ‘Hey, we’re dealing with an algal bloom in a lake that has never ever had one before,’ ” said Aislynn Tolman-Hill, Utah County Health Department spokeswoman.
In Lake Erie, a major bloom in 2014 caused authorities to warn against drinking tap water in Toledo, Ohio, for more than two days, cutting off the main water source for more than 400,000 people.
Now blooms happen every year in Utah and Ohio. Officials in both states say they’ve largely been able to stop them from toxifying drinking water. But the blooms can still sicken people and pets that go in the water, and often hit recreation businesses that depend on lake access.
Other blooms, including flare-ups affecting drinking water, have been logged in recent years in New York, Florida and California.
In Oregon, officials lifted Salem’s drinking water advisory after several days, but then had to reissue the warning.
Testing for the blooms isn’t required by either federal or state law, Oregon officials noted.
Researchers say that needs to change because blooms are likely to become more common, including in states where low temperatures previously provided a buffer against them.
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