Epidemiology of chytridiomycosis in rainforest stream tadpoles
Cashins, Scott David (2009) Epidemiology of chytridiomycosis in rainforest stream tadpoles. PhD thesis, James Cook University.
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Amphibians are declining at an alarming rate and approximately one third of species are currently threatened with extinction. A primary cause of this decline has been the emergence of the disease chytridiomycosis caused by the pathogen, Batrachochytrium dendrobatidis (Bd). Historically, the extinction of free-living species due to disease is exceedingly rare; however, dozens of amphibians in recent years are feared gone due to Bd. For disease to drive extinction, theory indicates a reservoir host is needed to maintain a positive force of infection on susceptible individuals to prevent pathogen "fade out" as the doomed species decline. Accordingly, understanding pathogen dynamics (e.g. prevalence, intensity, transmission, seasonality) within reservoir hosts is critical to properly understand and mitigate species declines and prevent extinction. In the case of chytridiomycosis, no non-amphibian hosts have been found, however, less susceptible adults and amphibian larvae can serve as reservoirs.
While most research has focused on infection in adults, tadpoles probably are important reservoirs; they carry the pathogen and are thought to suffer few negative effects, and most species that have declined are associated with aquatic habitats. To better understand the role tadpoles play in pathogen dynamics I investigated the epidemiology of Bd in a tadpole assemblage (consisting of five species) within two rainforest streams over two years. I studied changes in prevalence and intensity of infection over time and how their values were affected by abiotic factors such as temperature and water flow rate, as well as by biotic factors such as the ecology, behaviour and developmental rate of each species. In species with a high prevalence of infection, I studied the response of tadpoles to infection and the effects these responses had on the infection and on their physical condition. A saprobic or long-lived life stage of Bd could significantly alter pathogen dynamics among hosts. To investigate this possibility, I developed a method to detect Bd in the environment and I used this to sample the stream over the course of one year.
I found significant species-specific variation in space and resource use within the tadpole assemblage; these differences appear to affect susceptibility to infection. Torrent-adapted tadpoles were significantly more likely to be infected than pool-adapted tadpoles. This is likely due to differences in rates of development that affect duration of exposure to Bd and differences in behaviour that affect pathogen transmission. Prevalence of infection in torrent tadpoles increased with body size (proxy for duration of exposure) indicating that transmission occurred throughout the year. Prevalence varied seasonally between ~ 25-100% and was driven by a combination of duration of exposure, recruitment of small tadpoles and metamorphosis of large tadpoles. Drivers of infection intensity are less clear, however, body size and water flow are important and in fast-flowing habitats repeat transmission from the external environment appears to be more important than self-reinfection in determining individual infection intensities.
After infection most torrent tadpoles suffered significant tooth loss. This loss severely decreased their ability to feed (in some cases causing apparent starvation), which led to significant decreases in body condition for many individuals. Most tadpoles, however, regrew mouthparts despite continued infection, resumed feeding, and metamorphosed. The relationships between infection intensity, prevalence, tooth loss and body condition indicate that these tadpoles have a measure of tolerance or increased resistance, which may be a result of strong selection pressure exerted by chytridiomycosis.
Environmental sampling for Bd revealed that environmental levels are low throughout the year, but may increase when prevalence in tadpoles is highest, suggesting that tadpoles are the major source of Bd zoospores in the environment.
|Item Type:||Thesis (PhD)|
Publications arising from this thesis are available from the Related URLs field. The publications are:
Cashins, Scott D., Skerratt, Lee F., and Alford, Ross A. (2008) Sodium hypochlorite denatures the DNA of the amphibian chytrid fungus Batrachochytrium dendrobatidis. Diseases of Aquatic Organisms, 80 (1). pp. 63-67.
|Keywords:||amphibian declines; amphibian mortality; amphibian populations; amphibians; Batrachochytrium dendrobatidis; Bd; Bd zoospores; chytrid infections; chytridiomycosis; disease; endangered species; epidemiology; extinction; frogs; fungal infections; host-pathogen interactions; larvae; North Queensland; pathogenic fungi; pathogenic fungus; pathogenic microorganisms; pathogens; polliwogs; pollywogs; rain forest animals; rainforest stream tadpoles; rare species; species decline; stream dwelling frogs; tadpoles; threatened species; toads; Wet Tropics|
|FoR Codes:||06 BIOLOGICAL SCIENCES > 0602 Ecology > 060204 Freshwater Ecology @ 34%|
06 BIOLOGICAL SCIENCES > 0603 Evolutionary Biology > 060307 Host-Parasite Interactions @ 33%
07 AGRICULTURAL AND VETERINARY SCIENCES > 0707 Veterinary Sciences > 070704 Veterinary Epidemiology @ 33%
|SEO Codes:||96 ENVIRONMENT > 9608 Flora, Fauna and Biodiversity > 960806 Forest and Woodlands Flora, Fauna and Biodiversity @ 50%|
96 ENVIRONMENT > 9604 Control of Pests, Diseases and Exotic Species > 960404 Control of Animal Pests, Diseases and Exotic Species in Forest and Woodlands Environments @ 50%
|Deposited On:||20 Nov 2012 16:52|
|Last Modified:||03 Jan 2013 12:53|
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