By following individual frogs in the rainforest, we reveal that hot frogs are less likely to be infected with a potentially deadly fungus.
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| The Stoney Creek Frog (Litoria lesueuri complex) spends much of its time above the optimal growth temperature range of the amphibian chytrid fungus pathogen (17-25°C), and has not experienced population declines due to the disease chytridiomycosis. © Jodi J. L. Rowley. |
The amphibian chytrid fungus (Batrachochytrium dendrobatidis)
is responsible for the often fatal amphibian disease chytridiomycosis.
This disease has now been associated with declines and extinctions in
hundreds of species of amphibians worldwide, and is a serious threat to
global amphibian biodiversity.
One such reason is temperature. In the
lab, the amphibian chytrid fungus grows best between 17-25°C and
infected captive frogs can be cured by simply raising the temperature.
Natural populations of frogs also appear to be affected by temperature,
with infected frogs more often detected in cooler months and at higher
(and therefore cooler) altitudes. So there’s reason to suspect that
temperature may play an important role in determining whether individual
frogs are infected with the amphibian chytrid fungus in nature.
To investigate this, a small team of
volunteers and I tracked over 100 frogs of three species in the
rainforests of northeastern Australia. Each frog was fitted with a tiny
radio-transmitter or diode attached via a tailor-made waist-belt that
allowed us to find each frog every day and night for up to 16 days at a
time. This was no easy feat in steep, boulder-strewn streams surrounded
by dense (and often prickly!) vegetation. Once we located each frog, we
recorded its body temperature (using an infrared gun or thermally
sensitive radio-transmitter). This was also often rather tricky- just
because the transmitter is telling you the frog is close, it doesn’t
mean that it’s easy to see. Frogs that sit on rocks tend to look like
rock, and frogs that sit on leaves have a tendency to look like leaves!
Although frogs were often located in the
same parts of the same stream (with the same air temperature), the body
temperatures of individual frogs varied considerably among and within
individuals. A frog sitting under a boulder in the stream was a whole
lot cooler than a frog basking in the sun ten metres up a tree or
sitting on a sun-warmed rock.
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| The Endangered Waterfall Frog (Litoria nannotis) disappeared from many sites during epidemics of the disease chytridiomycosis in the late 1980′s and early 1990′s. This species spends little time above the optimal growth temperature range of the amphibian chytrid fungus pathogen (17-25°C). © Jodi J. L. Rowley. |
The results of our intensive
frog-stalking revealed that the more time individual frogs were found at
temperatures above 25°C, the less likely they were to be infected by
the amphibian chytrid. Frogs of all species were very unlikely to be
infected if 75% or more of their body temperatures were above 25°C. This
is the first demonstration that individual frog thermal histories
affect the probability of amphibian chytrid infection in nature.
Our findings also point towards one
possible way to reduce the impact of the disease on threatened
amphibians in nature. By carefully manipulating habitats to increase the
availability of warmer temperatures, we may be able to help frogs reach
temperatures that allow them to reduce or eliminate infection. While at
first glance, our findings may suggest that global climate change may
act in favour of amphibians, it’s too complicated to predict. The
impacts of global climate change, particularly at the small scales
relevant to a frog, are likely to vary among species and sites. While
increased air temperatures at some sites might decrease disease impact,
increased cloud or canopy cover may increase it.
Reference: Rowley, J.J.L. & Alford, R.A. Hot bodies protect amphibians against chytrid infection in nature. Scientific Reports 3, 1515;DOI:10.1038/srep01515 (2013). (OPEN ACCESS)
Research from the School of Marine and Tropical Biology at James Cook University and the Australian Museum.
Top Photo: Green Eyed Tree Frog with radio-transmitter © Jodi J L Rowley
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