[va-richmond-general] An interesting article from the Ny Times
- From: "Kathy Kreutzer" <k-kreutzer@xxxxxxxxxxx>
- To: "'bird listserve'" <va-richmond-general@xxxxxxxxxxxxx>
- Date: Thu, 12 Feb 2009 20:34:35 -0500
Here is the link to the website - there are photos in the article.
http://www.nytimes.com/2009/02/13/science/earth/13webbirds.html?hp
Kathy Kreutzer, Chesterfield
February 13, 2009
Tracking the Flight of Birds, With Tiny Backpacks
By CORNELIA DEAN
<http://topics.nytimes.com/top/reference/timestopics/people/d/cornelia_dean/
index.html?inline=nyt-per>
Birds are famous for airborne speed and endurance. Some have been clocked
flying 60 miles per hour or more. Others make annual migrations from Alaska
to New Zealand, nonstop.
But for scientists, tracking birds as they perform those feats has been an
intractable problem. Now researchers think they have cracked it with a novel
device - a tiny bird backpack that contains sophisticated sensors and weighs
less than a dime.
The new technology has opened up vast new possibilities for bird
researchers. Already, it is yielding surprising findings - for example, that
some birds fly even faster than previously thought. But its real importance,
biologists say, is the opportunity to unlock mysteries of bird migration
that could help preserve species threatened by habitat loss and climate
change
<http://topics.nytimes.com/top/news/science/topics/globalwarming/index.html?
inline=nyt-classifier> .
"We knew that purple martins went to Brazil and wood thrush went to Central
America," said Bridget J. M. Stutchbury, a biologist at York University in
Toronto, who with colleagues fitted birds from the species with the sensors
and mapped their migrations last year. "But the details of how an individual
gets there, what routes they take, how fast they fly, how often they stop to
rest - these are the kinds of details we have never been able to have."
The research, reported Friday in the journal Science, involved 34 birds, but
only 7 were recovered with their sensors. Still, the work "is an important
step," said David W. Winkler, an ornithologist at the Cornell Laboratory of
Ornithology, where he said researchers were developing similar techniques.
"This represents a whole new level of accuracy," Dr. Winkler said.
The tracking system relies on instruments called solar geolocators that
collect and store data on where the birds are in relation to the sun.
Researchers remove the sensors, download the information and calculate where
the birds were, and when they were there.
"If the bird were on a hillside you'd get a slightly wrong time," Dr.
Stutchbury said. "If it were a cloudy day you would get a slightly wrong
time. But these devices are accurate enough, within 5 or 10 kilometers,"
about 3 to 6 miles.
Bird migration is a subject of fascination for scientists and the public
alike. Jacques Perrin's 2003 film, "Winged Migration," which used remote
control gliders and ultralight aircraft to follow birds as they traveled the
globe, attracted a large cult following. But while much is known about where
birds nest and where they spend the winter, figuring out how they get from
point A to point B has been a challenge that, over all, researchers have
been unable to meet, especially for small species like songbirds.
Researchers have tried banding birds' legs, tracking flocks with radar and
even using satellites, all to little avail. The new system was developed by
engineers at the British Antarctic Survey for use tracking wandering
albatrosses, birds that inhabit the waters around Antarctica.
But the wandering albatross is about the size of a large dog, Dr. Stutchbury
said. For her research, she needed instruments small enough and light enough
for a tiny songbird. Then, at a 2006 conference, the British researchers
said they had miniaturized their sensors to 1.5 grams. "That for me was a
magic number," she said. "I could put it on a large songbird."
The instruments Dr. Stutchbury uses actually weigh even less and sit on a
bird's back, just where the hips are. Each sensor is about the size of the
nail on a person's pinkie. "There's a little loop that goes around each
leg," she said. "It would be like you wearing a backpack."
In the summer of 2007, the researchers used nets to trap birds in
Pennsylvania and apply the sensors. They made sure the birds were flying,
eating, caring for young and otherwise acting normally. Then they sat back
and waited for the birds to head south - and then return. On April 25 last
year, the first bird with a geolocator returned to Pennsylvania. "It seemed
almost a miracle," Dr. Stutchbury said.
Analyzing the sensor data, the researchers found that their birds flew two
to six times faster going north than south - up to about 370 miles in a day,
which she said was much faster than had been thought. A female martin flew
almost 5,000 miles in 13 days, including 4 stopover days.
For these birds, the Yucatan Peninsula was an important stopover point, Dr.
Stutchbury said. Identifying important migratory stopovers will be an
important benefit of the technology, she and other experts said.
She said she and her colleagues had tried not to draw too many conclusions
because they had data from only seven birds. Still, she said, "that's seven
more than anybody else."
Last summer, she and her colleagues applied sensors to dozens of more birds.
The work is important, she said, because songbird species are already in
steep decline and climate change may threaten crucial habitat.
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