As frogs and salamanders emerge from
winter hibernation and migrate to their breeding ponds, herpetologists
throughout the region are paying close attention to the growing number of
amphibian diseases threatening frogs and salamanders in the Northeast.
The most worrisome is an infectious
fungal disease called chytridomycosis, or chytrid, which has caused major
die-offs of frog populations in the tropics and elsewhere and is blamed for
numerous frog extinctions in Latin America.
According to University of Rhode Island
herpetologist Nancy Karraker, chytrid grows on the skin of frogs, and when it
is found on their drink patch – a site on their belly where they
absorb water
into their bodies – the fungus makes it impossible for the frogs to regulate
how much water they absorb, causing them to become desiccated and die.
 |
| Bull frog (Todd McLeish) |
“Chytrid has been found in multiple
species of frogs in the Northeast, but we haven’t seen massive die-offs here,”
said Karraker, URI associate professor of natural resources science, who has
studied frogs around the world. “But that doesn’t mean that die-offs haven’t occurred,
just that they haven’t been at the scale we’ve seen in South America. So we
can’t say it’s not a problem here, and it certainly could become a serious
problem.”
Some scientists believe that the
disease originated in African clawed frogs, which were shipped around the world
for use in human pregnancy tests from the 1940s to the 1960s. Many of the frogs
escaped from captivity and could easily have spread the disease to native frogs
in many places. Other scientists think the fungus was ubiquitous around the
globe and that, initially, the only frogs that died were those with compromised
immune systems.
“I don’t know where the greatest
weight of support is for those ideas today,” Karraker said. “But maybe our
frogs aren’t as susceptible because they’re not facing the kinds of stressors
that may have impacted frogs in other places. Or it could be something to do
with their natural history. We just don’t know, and that’s partly why I’m
worried.”
In 2010, Antioch University New
England graduate student Mandy Gaudreau, working in collaboration with Lou
Perrotti, conservation director at Roger Williams Park Zoo, swabbed 47 frogs
and toads at 11 sites in Rhode Island and detected chytrid in 21 percent of her
samples.
“What struck me about her results is
that most of the ponds where she found chytrid were manmade ponds – farm ponds,
retention ponds,” Perrotti said. “Why was it in those and not in the natural
wetlands?”
He also wonders whether climate has
an effect.
“Frogs in Panama got wiped out.
Costa Rica got wiped out. It seems like it’s worst at that certain temperature
range,” he said. “Maybe our winters knock it back and keep it from becoming
prevalent. Tropical frogs don’t have the seasonality that we have here.”
Yet chytrid isn’t the only disease
threatening amphibians and reptiles in the area.
Scott Buchanan, a herpetologist at the Rhode
Island Department of Environmental Management’s Division of Fish and Wildlife,
is particularly concerned about ranavirus, an infectious disease that has
caused die-offs of reptiles, amphibians and fish in 20 states, including box
turtles in the Northeast. In frogs and toads, it especially affects the tadpole
stage, causing skin hemorrhages, erratic swimming, buoyancy problems, and the
inability to right themselves in the water.
“We know it’s here, it’s in our environment, but
if and when it becomes active is hard to predict,” he said.
Buchanan is also tracking a fungal disease in
snakes, a herpes virus in turtles, and chytrid in salamanders.
“Salamander chytrid has had devastating effects on
salamanders in Europe over the last 5 to 10 years, and it’s considered an
eventuality that it will be brought into the U.S. one way or another and run
through our salamanders,” he said. “The eastern U.S. is a global hotspot of
salamander diversity, and a lot of research is going on now to determine how
virulent it is, are particular species susceptible, and what are their natural
defenses.”
“What’s notable for us,” added Karraker, “is that
it’s usually really hard to change the rules for importing animals for the pet
trade, but in 2016, legislation was passed that prevented the import of 201
species of salamanders to prevent the introduction of the disease into the U.S.
That’s a landmark bit of legislation to protect our native species.”
Buchanan said that it is up to biologists and
others working in area wetlands to follow strict protocols to prevent the
spread of the diseases, like regularly disinfecting their boots, equipment and
tools as they move from site to site around the region.
“We have to be vigilant about potentially
transferring diseases from one wetland to another,” he said. “Because we move
from one wetland to the next throughout the day and throughout the season,
there’s real potential that we could move it around with us, and we often go to
the most important sites and monitor the most sensitive species.
“It’s something we take really seriously,”
Buchanan added. “We know how quickly things can change here, we know disease
pandemics can happen quickly, move around quickly, and cause devastating
impacts on populations. And if it doesn’t wipe them out completely, it can take
decades for them to recover.”
This article first appeared on EcoRI.org on March 14, 2020
No comments:
Post a Comment