Epidemiology and pathogenesis of chytridiomycosis in Australian frogs. Strong evidence exists that chytridiomycosis is an introduced disease of amphibians that has caused mass mortality resulting in amphibian population declines and extinctions. Epidemiologic studies will include i) field and experimental studies to determine mortality rates, transmission rates, differences in species susceptibility, and persistence of the pathogen as a saprobe, and ii) molecular epidemiology of fungal strains t ....Epidemiology and pathogenesis of chytridiomycosis in Australian frogs. Strong evidence exists that chytridiomycosis is an introduced disease of amphibians that has caused mass mortality resulting in amphibian population declines and extinctions. Epidemiologic studies will include i) field and experimental studies to determine mortality rates, transmission rates, differences in species susceptibility, and persistence of the pathogen as a saprobe, and ii) molecular epidemiology of fungal strains to examine spread and origin. Pathogenicity studies will be aimed at how chytridiomycosis causes death in frogs. The results will be significant for the conservation of amphibians worldwide and in improving our understanding of diseases in free-living animals.Read moreRead less
Biology and Integrated conservation of temperate Australian orchids. To successfully conserve rare and endangered orchids an integrated approach to translocation must be adopted. The orchid species and associated fungal symbionts must be succesfully established at a site to achieve a self-sustaining population. Currently little is know about the in situ interactions of orchid and fungal endophytes. Research here will determine essential field interactions and requirements of both partners. The e ....Biology and Integrated conservation of temperate Australian orchids. To successfully conserve rare and endangered orchids an integrated approach to translocation must be adopted. The orchid species and associated fungal symbionts must be succesfully established at a site to achieve a self-sustaining population. Currently little is know about the in situ interactions of orchid and fungal endophytes. Research here will determine essential field interactions and requirements of both partners. The ex situ conservation of rare and endangered species should included reliable long-term storage of propagation material such as seed. Information obtained will be used to develop orchid conservation packages for implementation by landmanagers.Read moreRead less
Exploring the genetic and functional diversity nexus in ericoid mycorrhizal and related symbioses. Epacrids are important components of the Australian flora and several are considered threatened, yet we know relatively little regarding the importance of ericoid mycorrhizal fungal diversity to their survival. The proposed work will provide essential information on the functional significance of ericoid mycorrhizal endophyte diversity in the growth and survival of epacrids. It will further lead to ....Exploring the genetic and functional diversity nexus in ericoid mycorrhizal and related symbioses. Epacrids are important components of the Australian flora and several are considered threatened, yet we know relatively little regarding the importance of ericoid mycorrhizal fungal diversity to their survival. The proposed work will provide essential information on the functional significance of ericoid mycorrhizal endophyte diversity in the growth and survival of epacrids. It will further lead to improved propagation of epacrids and better informed decisions for sustainable management of Australian native vegetation.Read moreRead less
Plant : fungal symbioses in Australian forests - new perspectives using laser microdissection. Ericaceae are important components of the Australian flora in many habitats, including forests and fragile alpine regions that are significant to Australia's cultural and natural heritage, and several species are considered threatened. This project addresses the fundamental question of whether networks of symbiotic fungal mycelia act as below-ground bridges between Ericaceae plants and tree roots. If d ....Plant : fungal symbioses in Australian forests - new perspectives using laser microdissection. Ericaceae are important components of the Australian flora in many habitats, including forests and fragile alpine regions that are significant to Australia's cultural and natural heritage, and several species are considered threatened. This project addresses the fundamental question of whether networks of symbiotic fungal mycelia act as below-ground bridges between Ericaceae plants and tree roots. If demonstrated, this would alter current views of carbon and nutrient cycling in Australian forests and provide the basis for better informed decisions for the sustainable management of Australian forest resources. This is particularly important in the context of carbon sequestration and future climate change.Read moreRead less