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DISAMPING KANAN INI.............
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Curah hujan,
suhu tidak
pemanasan , mungkin kunci dalam adaptasi burung terhadap perubahan iklim
Precipitation, not warming temperatures, may be key in bird adaptation to
climate change
Date:
July 11,
2014
Source:
Oregon State University
Summary:
A new model analyzing how birds in western North
America will respond to climate change suggests that for most species, regional
warming is not as likely to influence population trends as will precipitation
changes. "In general, our study suggests that if climate change results in
winters with less precipitation, we likely will see a spring drying effect,"
one researcher said. "This means that populations of drought-tolerant
species will expand and birds that rely heavily on moisture should
decline."
...................................
A new model analyzing how birds in western North America
will respond to climate change suggests that for most species, regional warming
is not as likely to influence population trends as will precipitation changes.
Several past
studies have found that temperature increases can push some animal species --
including birds -- into higher latitudes or higher elevations. Few studies,
however, have tackled the role that changes in precipitation may cause,
according to Matthew Betts, an Oregon State University ecologist and a
principal investigator on the study.
"When
we think of climate change, we automatically think warmer temperatures,"
said Betts, an associate professor in Oregon State's College of Forestry.
"But our analysis found that for many species, it is precipitation that
most affects the long-term survival of many bird species.
"It
makes sense when you think about it," Betts added. "Changes in
precipitation can affect plant growth, soil moisture, water storage and insect
abundance and distributions."
Results of
the study, which was funded by the National Science Foundation with support
from the U.S. Geological Survey and others, are being published in the journal Global
Change Biology.
The
researchers examined long-term data on bird distributions and abundance
covering five states in the western United States, and in the Canadian province
of British Columbia, testing statistical models to predict temporal changes in
population of 132 bird species over a 32-year period. They analyzed the impacts
of temperature and precipitation on bird distributions at the beginning of the
study period (the 1970s) and then tested how well the predictions performed
against actual population trends over the ensuing 30 years.
The
scientists keyed in on several variables, including possible changes during the
wettest month in each region, the breeding season of different species, and the
driest month by area. Their model found that models including precipitation
were most successful at predicting bird population trends.
"For
some species, the model can predict about 80 percent of variation," Betts
said, "and for some species, it's just a flip of the coin. But the
strongest message is that precipitation is an important factor and we should
pay more attention to the implications of this moving forward."
The study
incorporated a lot of complex variables into the model, including
micro-climatic changes that are present in mountainous environments. The
research area encompassed California to northern British Columbia and the
mountain systems drive much of the changes in both temperature and
precipitation.
The
researchers chose December precipitation as one variable and found it to be
influential in affecting bird populations.
"Someone
might ask why December, since half of the bird species usually present in the
Pacific Northwest, for instance, might not even be here since they're
migratory," Betts noted. "But much of the critical precipitation is
snow that falls in the winter and has a carryover effect for months later --
and the runoff is what affects stream flows, plant growth and insect abundance
well down the road."
The rufous
hummingbird is one species that appeared affected by changes in December
precipitation, the researchers say. The species is declining across western
North America at a rate of about 3 percent a year, and the model suggest it is
linked to an overall drying trend in the Northwest. The evening grosbeak is
similarly affected the authors say.
On the other
hand, the California towhee shows a negative association with December
precipitation, appears to be drought-tolerant -- and its populations remain
stable.
"We
cannot say for certain that a change in December precipitation caused declines
in evening grosbeaks or rufous hummingbirds," said Javier Gutiérrez Illán,
a former postdoctoral researcher at Oregon State and lead author on the study.
"Our model shows, however, a strong association between the birds' decline
and precipitation changes and the fact that this variable pointed to actual
past changes in populations gives it validity."
"The
study shows that models can predict the direction and magnitude of population
changes," he added. "This is of fundamental importance considering
predictions were successful even in new locations."
The next
phase of the research is to use the model to determine if there are patterns in
the sorts of species affected -- for instance, birds that are migratory or
non-migratory, or short- or long-lived. They also hope to test additional
variables, including land use changes, wildfire impacts, competition between
species and other factors.
"In
general, our study suggests that if climate change results in winters with less
precipitation, we likely will see a spring drying effect," Betts said.
"This means that populations of drought-tolerant species will expand and
birds that rely heavily on moisture should decline."
Story
Source:
The above
story is based on materials provided by Oregon State University. Note: Materials may be edited
for content and length.
Journal
Reference:
- Javier Gutiérrez Illán, Chris D. Thomas, Julia A. Jones, Weng-Keen Wong, Susan M. Shirley, Matthew G. Betts. Precipitation and winter temperature predict long-term range-scale abundance changes in Western North American birds. Global Change Biology, 2014; DOI: 10.1111/gcb.12642
