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Published (Version of record)CC BY-NC-ND V4.0, Open Access
Published (Version of record)CC BY-NC-ND V4.0, Open
Journal article
High chytrid prevalence and infection intensities in tadpoles of Mixophyes fleayi
Wildlife research (East Melbourne), Vol.51(10), pp.1-11
30/09/2024
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Source: InCites
Abstract
Context : The amphibian chytrid fungus Batrachochytrium dendrobatidis (Bd) has caused catastrophic biodiversity loss globally, but species and life stages within species respond differently to the pathogen. Although tadpoles are often reported to be less vulnerable to disease, they can constitute important infection reservoirs in ecosystems.
Aims: We aimed to describe Bd infection patterns of a long-lived tadpole in a species where post-metamorphic animals appear to exhibit limited mortality as a result of chytridiomycosis. We further investigated how oral dekeratinisation can be used as an indicator of infection.
Methods : We conducted surveys of tadpoles of Mixophyes fleayi (Fleay’s barred frog) over 2 years, at two rainforest streams on the east coast of Australia, to assess patterns in Bd infection prevalence and intensity. We developed an integrated hierarchical model propagating pathogen-detection errors and incorporating how Bd infections affect oral dekeratinisation.
Key results: We found that Bd infection prevalence was strongly associated with lower temperatures and a larger body size, consistent with Bd optimal thermal range and a cumulative risk of exposure for tadpoles. The individual probability of a tadpole being infected with Bd was estimated to be 0.58 [95% HPDI: 0.432, 0.713], the odds of which were approximately eight times greater than for adults at the same sites. Tadpoles infected with Bd were 113 [29, 293] times more likely to have oral dekeratinisation than were uninfected tadpoles, where uninfected individuals were estimated to have a 0.05 [95% HPDI: 0.011, 0.11] probability of having mouthpart loss.
Conclusions : Our results showed that M. fleayi tadpoles are more likely to be infected with Bd than are adults, suggesting that tadpoles could contribute to Bd maintenance in streams. We further showed that sites can be rapidly assessed for Bd by visually checking for oral dekeratinisation. Implications Long-lived tadpoles, in general, may contribute to Bd maintenance in ecosystems. We suggest continued exploration of Bd immunocompetence across amphibian life stages to further understand the vastly different infection patterns.
Implications: Long-lived tadpoles, in general, may contribute to Bd maintenance in ecosystems. We suggest continued exploration of Bd immunocompetence across amphibian life stages to further understand the vastly different infection patterns.
Details
- Title
- High chytrid prevalence and infection intensities in tadpoles of Mixophyes fleayi
- Creators
- Matthijs Hollanders - Southern Cross UniversityLaura F. Grogan - Griffith UniversityHamish I. McCallum - Griffith UniversityDavid A. Newell - Southern Cross University
- Contributors
- Thomas Prowse (Editor) - The University of Adelaide
- Publication Details
- Wildlife research (East Melbourne), Vol.51(10), pp.1-11
- Publisher
- CSIRO Publishing
- Grant note
- This project was funded by the New South Wales Government’s Saving our Species Program; specific thanks go to Jill Smith and David Hunter. L. G. was supported by Australian Research Council (ARC) grants DP180101415 and DE200100490. H. M. and D. N. were supported by ARC grant DP180101415.
- Identifiers
- 991013225713802368
- Copyright
- © 2024 The Author(s) (or their employer(s))
- Academic Unit
- Faculty of Science and Engineering; Science
- Language
- English
- Resource Type
- Journal article