11/14/11 Bat VS turbine = dead bat
DEAD BATS AT WIND FARMS PERPLEX RESEARCHERS, DEVELOPERS
by Brian Bienkowski,
SOURCE Great Lakes Echo, Michigan State University Knight Center for Environmental Journalism, greatlakesecho.org
November 14, 2011
Wind turbines popping up around the Great Lakes are getting a reputation among webbed-winged night prowlers as large, spinning murderers.
Bats are dying at wind farms across the U.S. Research has shown far more bat deaths than bird deaths, which perplexes wind farm owners and researchers alike.
Researchers in southeastern Wisconsin are seeing 10 bats deaths for every one bird death at local wind farms, said Melissa Behr, a veterinary pathologist at the University of Madison-Wisconsin.
It makes sense that heavy, spinning blades could kill flying wildlife. But bats have internal sonar. They use it to call out and listen to the returning echoes.
It usually keeps them from running into things.
But wind turbines spin up to 175 miles per hour. Bats’ internal sonar range reaches approximately 60 feet.
The math is not in their favor.
“A bat would have roughly a quarter of a second to react to a turbine blade – not very long at all,” David Drake said in a prepared statement. Drake is a wildlife ecology professor at University of Wisconsin-Madison.
Drastic pressure changes around fast-moving blades threaten bats as well, causing disorientation and exploding internal organs.
Researchers from the University of Wisconsin-Madison studied these two causes of bat deaths – trauma from running into blades, and trauma from pressure changes, which is called barotrauma. Their findings were published in the Journal of Mammalogy.
They collected 41 dead bats in 2009 at the Forward Energy Center in southeastern Wisconsin to examine how they died.
“Seventy-five percent had fractures, which would suggest blunt trauma (running into the blades),” Behr said. “We found 10 percent with no fractures, which would suggest barotrauma.”
Behr cautions that just because fractures suggest they hit the blade, barotrauma may still play a role.
“If bats are barotraumatized, their ears fill with fluid and they would not be able to locate the blade,” Behr said. “It’s possible that bats that hit blades were barotraumatized beforehand.”
Southeastern Wisconsin is along the migration route for a few species of bats. Migrating bats die more frequently by turbine than resident bats, according to the United States Geological Survey.
“When they come back north in June, they seem much less susceptible to being killed then,” Behr said. “Then in August or September they go back south and they get nailed.”
There were approximately 40 bats killed per turbine at 60 turbines in southeastern Wisconsin during the past migrating season, Behr said.
The videos below show the migrating patterns of the three types of bats that die most frequently at wind turbine sites – hoary bats, silver-haired bats and red bats. There are dense numbers of all three species in August and September in southeastern Wisconsin.
(Videos: US Geological Survey – Fort Collins Science Center)
[videos available at source]
Officials in the Great Lakes region are working with wind developers to mitigate bat deaths, said Jill Utrup, wildlife biologist with the U.S. Fish and Wildlife Service’s Green Bay, Wisc., field office.
“We try to get developers in to consult with us as early as possible,” Utrup said. “We can help find out where the bats are and help place turbines away from those areas.”
Detectors are used to listen for bats so turbines can be placed away from them, Utrup said.
Another option is turning off turbines on nights with low wind speed.
“There seems to be more deaths when it’s a low wind speed night,” Utrup said. “We’ve seen some success regionally with shutting down the turbines at night.”
It is unclear why low wind speed nights cause more bat deaths. It’s possible that they’re flying around more those nights because insects are more active, Utrup said.
Some wind developers are putting up money to figure out the bat death problem. The University of Wisconsin-Madison study was partially funded by the Forward Wind Energy Center in southeastern Wisconsin.
The Forward Wind Energy Center did not return calls requesting comment.
While mitigation strategies are expanding, questions remain.
“We can’t conclusively say what’s happening,” Behr said. “We can’t prove all the broken bones were caused by the blades … it could be barotrauma. We really need more research on this.”