Conservation
Biology
Volume
27, Issue 1, pages 219–228, February 2013
BLAKE
R. HOSSACK1,2,
WINSOR
H. LOWE3,
PAUL
STEPHEN CORN1
Author
Information
1U.S.
Geological Survey, Northern Rocky Mountain Science Center, Aldo Leopold
Wilderness Research Institute, Missoula, U.S.A.
2Wildlife
Biology Program, University of Montana, Missoula, U.S.A.
3Division
of Biological Sciences, University of Montana, Missoula, U.S.A.
Email:
PAUL STEPHEN CORN (blake_hossack@usgs.gov)
Article
first published online: 14 SEP 2012
DOI: 10.1111/j.1523-1739.2012.01921.x
Abstract
Climate
change is expected to increase the frequency and severity of drought and
wildfire. Aquatic and moisture-sensitive species, such as amphibians, may be
particularly vulnerable to these modified disturbance regimes because large
wildfires often occur during extended droughts and thus may compound
environmental threats. However, understanding of the effects of wildfires on
amphibians in forests with long fire-return intervals is limited. Numerous stand-replacing
wildfires have occurred since 1988 in Glacier National Park (Montana, U.S.A.),
where we have conducted long-term monitoring of amphibians. We measured
responses of 3 amphibian species to fires of different sizes, severity, and age
in a small geographic area with uniform management. We used data from wetlands
associated with 6 wildfires that burned between 1988 and 2003 to evaluate
whether burn extent and severity and interactions between wildfire and wetland
isolation affected the distribution of breeding populations. We measured
responses with models that accounted for imperfect detection to estimate
occupancy during prefire (0–4 years) and different postfire recovery periods.
For the long-toed salamander (Ambystoma macrodactylum) and Columbia spotted
frog (Rana luteiventris), occupancy was not affected for 6 years after
wildfire. But 7–21 years after wildfire, occupancy for both species decreased
≥25% in areas where >50% of the forest within 500 m of wetlands burned. In
contrast, occupancy of the boreal toad (Anaxyrus boreas) tripled in the 3 years
after low-elevation forests burned. This increase in occupancy was followed by
a gradual decline. Our results show that accounting for magnitude of change and
time lags is critical to understanding population dynamics of amphibians after
large disturbances. Our results also inform understanding of the potential
threat of increases in wildfire frequency or severity to amphibians in the
region
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