Conservation
Biology
Volume 26, Issue 6, pages 1112–1120, December 2012
Toby
Mitchell,
Lesley
A. Alton,
Craig
R. White,
Craig
E. Franklin
Article
first published online: 26 JUL 2012
School
of Biological Sciences, The University of Queensland, Brisbane, Australia
Email:
Craig E. Franklin (c.franklin@uq.edu.au)
DOI: 10.1111/j.1523-1739.2012.01906.x
Global
increases in ultraviolet-B radiation (UVBR) associated with stratospheric ozone
depletion are potentially contributing to the decline of numerous amphibian
species around the world. Exposure to UVBR alone reduces survival and induces a
range of sublethal effects in embryonic and larval amphibians. When additional
environmental stressors are present, UVBR can have compounding negative
effects. Thus, examination of the effects of UVBR in the absence of other
stressors may substantially underestimate its potential to affect amphibians in
natural habitats. We examined the independent and interactive effects of
increased UVBR and high conspecific density would have embryonic and larval
striped marsh frogs (Limnodynastes
peronii). We exposed individuals to a factorial combination of low and high
UVBR levels and low, medium, and high densities of striped marsh frog tadpoles.
The response variables were time to hatching, hatching success, posthatch
survival, burst-swimming performance of tadpoles (maximum instantaneous swim
speed following an escape response), and size and morphology of tadpoles.
Consistent with results of previous studies, we found that exposure to UVBR
alone increased the time to hatching of embryos and reduced the burst-swimming
performance and size of tadpoles. Similarly, increasing conspecific density
increased the time to hatching of embryos and reduced the size of tadpoles, but
had no effect on burst-swimming performance. The negative effect of UVBR on
tadpole size was not apparent at high densities of tadpoles. This result
suggests that tadpoles living at higher densities may invest relatively less
energy in growth and thus have more energy to repair UVBR-induced damage. Lower
densities of conspecifics increased the negative effects of UVBR on developing
amphibians. Thus, low-density populations, which may include declining
populations, may be particularly susceptible to the detrimental effects of
increased UVBR and thus may be driven toward extinction faster than might be
expected on the basis of results from single-factor studies.
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