In this March 31, 2010 photo provided by U.S. Fish and Wildlife Service biologist Susi von Oettingen, bats are seen in a bunker in New Hampshire. Oettingen is part of a team that will study the habitat of the bats over the winter. (AP Photo/U.S. Fish and Wildlife Service, Susi von Oettingen)

(AP) -- Biologist Susi von Oettingen walked into the dark World War II-era military bunker and took out her flashlight. Among the old pipes, wires and machinery parts, she saw some bats hanging from cracks in the cement walls and ceiling.

It was an unusual place for the bats to hibernate, different from a mine or cave. But something else was different, too: None of them had white-nose syndrome, a fungus that's killing bats across the country.

The group of bats found last winter in the New Hampshire bunker was small, recalled von Oettingen, an endangered species biologist for the U.S. Fish and Wildlife Service. But two of the three species discovered there - the Northern Long-eared Bat and the Little Brown Bat - have been dying off from the disease.

Starting as early as next month, von Oettingen will be part of a group of state and federal biologists monitoring that bunker and a few others in the state. They'll study temperature and humidity levels and put up footholds for the bats, hoping to attract more and figure out if there's a way to control white-nose syndrome, first discovered near Albany, N.Y., in 2006.

"We may be able to maintain a white-nose-free site for these bats to return to," she said.

The disease, which appears to affect bats mostly during winter hibernation, has killed more than a million in the Northeast and has spread to at least 11 states, as far west as Oklahoma, and parts of Canada. Some caves on federal lands were closed to people this year to prevent them from spreading the disease.

Because the bunkers would be controlled, artificial settings, biologists also might be able to experiment with different treatments for bats with the disease, without worrying about how a spray or drug might affect other organisms.

"This is one of the most promising things I've heard," said Nina Fascione, executive director of Bat Conservation International, an Austin, Texas-based group that focuses on research initiatives involving bats and their ecosystems. "It presents an excellent opportunity to test things."

One of the challenges is encouraging enough bats to use the bunkers, von Oettingen said. "They move around on the landscape, so it may be that they will naturally colonize it, or we may bring some in," she said.

Von Oettingen said New Hampshire plans to reach out to neighboring states to examine their bunkers. Some, such as the one she visited, are on state parks land. Others are part of the National Wildlife Refuge System.

"There's tons of bunkers of all different kinds out there on the landscape," from World War II, the Cold War-era, and afterward, she said. "Now the question is, do some of these have bats? And so far, we haven't found any more."

Bats hang out in all sorts of manmade structures, but the idea of monitoring them for white-nose syndrome in an artificial setting is relatively new. In Tennessee, the Nature Conservancy has proposed building a large dome-shaped cave, "like a giant upside-down underground swimming pool," said Cory Holliday, the program's cave and karst director. "You can apply whatever control you wanted in there and you wouldn't be affecting a natural ecosystem."

Tennessee has about 15 species of bats, roughly half of which are potentially susceptible to white-nose syndrome. At least several hundred bats were found with symptoms last year. No deaths have been reported yet.

"We don't know with real certainty if it will work," Holliday said of the cave, "but with white-nose syndrome, it's moving really fast. We don't want to be left five years from now thinking, 'Well, I wish we could have.' "

In October, the U.S. Fish and Wildlife Service came out with a plan to investigate the cause of disease, in which a white fungus develops around bat muzzles, ears and wing membranes, and find ways to manage it.

Biologists say fewer bats, which eat insects, could lead to increased numbers of insect pests, resulting in harm to agriculture and forests. It is anticipated that white-nose syndrome will continue to spread, partly because the fungus can be carried on humans' clothing.

Under the plan, state agencies will monitor bat populations and design disease management programs. The federal government will assist in areas including research, education, funding and testing. Goals include setting up a central database, developing testing standards and continually reviewing knowledge of the disease to identify gaps and research needs.

In New Hampshire alone, surveys last year showed that the state lost over half of its hibernating bats.

"They're dead. They're gone. They're not here," said Emily Brunkhurst, a wildlife biologist for the New Hampshire Fish and Game Department.

"The thing about white-nose is it is an unprecedented disease," Brunkhurst said. "We have never seen a disease in wildlife that affects so many species and is so rapidly fatal and spread so incredibly rapidly."

Explore further Newly identified fungus implicated in white-nose syndrome in bats

More information:

U.S. Fish and Wildlife Service: U.S. Fish and Wildlife Service: http://www.fws.gov/WhiteNoseSyndrome/ New Hampshire Fish and Game Department: http://www.wildlife.state.nh.us/

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