Abstract
Sloughing maintains the skins integrity and critical functionality in amphibians. Given the behavioural, morphological and osmoregulatory changes that accompany sloughing, this process is likely to be physiologically costly. Chytridiomycosis, a cutaneous disease of amphibians caused by the fungus Batrachochytrium dendrobatidis (Bd), disrupts skin function and increases sloughing rates. Moreover, mortality rates from chytridiomycosis are significantly higher in juveniles and so we hypothesised that smaller individuals maybe more susceptible to chytridiomycosis because of allometric scaling effects on the energetic and osmoregulatory costs of sloughing. We measured in-vivo cutaneous ion loss rates and whole animal metabolic rate (MR) of Green tree frogs, Litoria caerulea, over a range of body sizes both infected and uninfected frogs during sloughing. Infected animals had a greater rate of ion loss and mass-specific MR during non-sloughing periods but there were no additional effects of sloughing on either of these parameters. There were also significant interactions with body size and Bd load indicating that smaller animals with higher Bd loads have greater rates of ion loss and higher energetic demands. Our results shed light on why smaller Bd-infected anurans often exhibit greater physiological disruption than larger individuals.
Highlights
Chytridiomycosis is an epidemic fungal disease affecting around 400 amphibian species worldwide[47]
While sloughing has been shown to contribute to the clearing of Bd infections over time in some resistant species, more susceptible species continue to develop chytridiomycosis othfecainrbteornmdoiuolxtiadnedp(rBod)umcitdio-nslo(V uCgOh2;pmerligodhs−
We demonstrated that smaller frogs have shorter intermoult interval (IMI) than larger individuals, and IMI was further shortened when infected with Bd
Summary
All procedures in this study were carried out in accordance with the guidelines and regulations of the approval of The University of Queensland’s Animal Ethics Unit (SBS/316/14/URG) and the Queensland Department of Environment and Heritage Protection (WISP15102214). Full method details are provided in ‘Supplementary Materials’. Litoria caerulea were collected from southeast Queensland and ranged in body mass from 0.5–70 g (n = 36). All animals were housed in individual, ventilated, clear plastic containers. Containers were tilted at ~10° with paper towels saturated with chemically aged water (dilution 1:4000; VitaPet, NSW, Australia) as substrate and a half PVC pipe for shelter. Frogs were checked daily, fed once a week on vitamin-dusted crickets and enclosures cleaned weekly. All frogs were swabbed to confirm the absence of Bd infection (see below)
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