https://www.sciencemag.org/news/2021/03/after-more-2-decades-searching-scientists-finger-cause-mass-eagle-deaths

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Eagles may get exposed to a neurotoxin through their prey.

MIKE MARTIN

After more than 2 decades of searching, scientists finger cause of
mass eagle deaths

By Erik StokstadMar. 25, 2021 , 2:00 PM

More than 25 years ago, biologists in Arkansas began to report dozens
of bald eagles paralyzed, convulsing, or dead. Their brains were
pocked with lesions never seen before in eagles. The disease was soon
found in other birds across the southeastern United States.
Eventually, researchers linked the deaths to a new species of
cyanobacteria growing on an invasive aquatic weed that is spreading
across the country. The problem persists, with the disease detected
regularly in a few birds, yet the culprit's chemical weapon has
remained unknown.

Today in Science, a team identifies a novel neurotoxin produced by
the cyanobacteria and shows that it harms not just birds, but fish
and invertebrates, too. "This research is a very, very impressive
piece of scientific detective work," says microbiologist Susanna Wood
of the Cawthron Institute. An unusual feature of the toxic molecule
is the presence of bromine, which is scarce in lakes and rarely found
in cyanobacteria. One possible explanation: the cyanobacteria produce
the toxin from a bromide-containing herbicide that lake managers use
to control the weed.

The discovery highlights the threat of toxic cyanobacteria that grow
in sediment and on plants, Wood says, where routine water quality
monitoring might miss them. The finding also equips researchers to
survey lakes, wildlife, and other cyanobacteria for the new toxin.
"It will be very useful," says Judy Westrick, a chemist who studies
cyanobacterial toxins at Wayne State University and was not involved
in the new research. "I started jumping because I got so excited."

Wildlife biologists with U.S. Geological Survey and local
institutions first detected the eagles' brain disease, now called
vacuolar myelinopathy, at DeGray Lake in Arkansas in late 1994. They
soon learned that coots and owls at the lake were dying with similar
brain lesions. The researchers ruled out industrial pollutants and
infectious disease, and they couldn't find any algal toxins in the
water. Then funding ran out, and the scientists turned to other
projects.

But Susan Wilde, an aquatic ecologist at the University of Georgia,
Athens, persisted, with intermittent funding. "I just had a lot of
colleagues and graduate students that were self-propelled to work on
this." Birds were dying at lakes and reservoirs throughout the
southeast, and at every lake her team visited, they found Hydrilla
verticillata, a tough and fast-growing invasive plant. In 2001, Wilde
noticed dark spots on the underside of the leaves. Back in the lab,
she put a sample under a microscope and shone light that makes
cyanobacteria glow red. The whole leaf lit up. "I was running around
the hallways," Wilde recalls. "It was kind of a eureka moment." The
cyanobacterium was a new species, which Wilde named Aetokthonos
hydrillicola in 2014. She suspected it was producing a neurotoxin.

To confirm that hunch, Wilde and colleagues fed hydrilla to mallards
in the lab. Only those that ate leaves harboring the cyanobacteria
developed brain lesions. Next, a group led by Timo Niedermeyer, a
natural products chemist at Martin Luther University
Halle-Wittenberg, figured out how to culture the cyanobacterium and
initially found that the lab-grown strain did not cause lesions in
chickens. "Huge disappointment," he recalls. But when they added
bromide salts to the culture medium, the cyanobacteria began to
produce the neurotoxin. In further tests, Wilde and colleagues found
that the toxin also kills fish, insects, and worms. "This is a really
potent neurotoxin, even at fairly low levels," she says. Wilde
suspects mammals are also vulnerable; her colleagues hope to test the
compound on mice.

Niedermeyer's lab discovered the neurotoxin was fat-soluble, which is
unusual for cyanobacterial toxins and suggests it can accumulate in
tissues. Fish and birds are exposed when they eat hydrilla coated
with the new species of cyanobacteria, and then the toxin may move
through the food web as eagles and owls consume afflicted prey. "If
verified, bioaccumulation has important consequences to the whole
ecosystem and human health" if people consume toxin-contaminated fish
or waterfowl, says Kaarina Sivonen, a microbiologist at the
University of Helsinki.

The cyanobacterium appears to get the bromide it needs to make the
toxin from hydrilla, which can concentrate bromide from lake sediment
in its leaves. Bromides are rare in freshwater, but they could be
eroding from rocks, or they might originate from coal-fired power
plants. Other sources could include brominated flame retardants,
fracking fluids, and road salt. Wilde suspects one local source might
be an herbicide, diquat dibromide, that is used to kill hydrilla.

Wilde points to recent success managing the weed without chemicals,
by stocking lakes with fish that eat hydrilla. Although grass carp
are not desirable for fishing, using sterile carp would ensure the
population would die out once its work was done. The Army Corps of
Engineers has already released the fish into a reservoir on the
border of Georgia and South Carolina, where they removed the
hydrilla. Since then, no more sick eagles have been found.

Saving the birds from the neurotoxin will be a long fight, however,
because both hydrilla and the cyanobacteria are exceptionally hardy.
The invasive plant is likely to continue to be spread by boats,
researchers say, and perhaps also migrating birds. "We should expect
the cyanobacterium to follow," says George Bullerjahn, a
microbiologist at Bowling Green State University, "and the threat of
toxicity to become a broader issue."

Posted in:

  * Environment
  * Plants & Animals

doi:10.1126/science.abi7119

[Stokstad_0]

Erik Stokstad

Erik is a reporter at Science, covering environmental issues. 

  * Email Erik
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