A comparative study of the distribution and spread of potential molecular markers for Mundulla Yellows disease. Mundulla Yellows (MY), a newly recognised widespread lethal disease of Eucalyptus spp.in Australia, is a serious threat to national biodiversity and conservation. It is contagious, apparently biotic, but the causal agent is unknown. Identification of the cause is essential to establish sustainable control measures. We have detected a range of MY-associated RNAs constituting a disease ' ....A comparative study of the distribution and spread of potential molecular markers for Mundulla Yellows disease. Mundulla Yellows (MY), a newly recognised widespread lethal disease of Eucalyptus spp.in Australia, is a serious threat to national biodiversity and conservation. It is contagious, apparently biotic, but the causal agent is unknown. Identification of the cause is essential to establish sustainable control measures. We have detected a range of MY-associated RNAs constituting a disease 'fingerprint'. To identify individual RNAs uniquely associated with MY we aim to compare MY-RNA fingerprints from a range of affected species from different sites and with varying symptoms. Candidate RNAs will be cloned both for establishing molecular diagnostics for MY and identifying the cause.Read moreRead less
Susceptibility to Phytophthora cinnamomi and sensitivity to phosphorus in native Australian plants: why are they linked? Phytophthora cinnamomi is the cause of "Phytophthora dieback", recognised by the Federal Government as a major threat to Australia's biodiversity. This project will enhance our understanding of interactions between species belonging to two iconic Australian plant families (Proteaceae and Myrtaceae) and this serious threat. This understanding will underpin the development of ....Susceptibility to Phytophthora cinnamomi and sensitivity to phosphorus in native Australian plants: why are they linked? Phytophthora cinnamomi is the cause of "Phytophthora dieback", recognised by the Federal Government as a major threat to Australia's biodiversity. This project will enhance our understanding of interactions between species belonging to two iconic Australian plant families (Proteaceae and Myrtaceae) and this serious threat. This understanding will underpin the development of new chemicals to be used in combating the pathogen. In addition, it will provide molecular markers for phosphorus insensitivity and Phytophthora resistance that will be vital for Australia's horticultural industry as well as for the successful rehabilitation of minesites in areas suffering from "Phytophthora dieback". Read moreRead less
Why does phosphite protect some plants against Phytophthora but not others? Plant diseases caused by Phytophthora pose a major threat to Australia's biodiversity, horticulture and agriculture. The systemic chemical potassium phosphite is a key component of management strategies, but its effectiveness varies on different plant species. We will use molecular and biochemical techniques to understand why some plant species are protected against Phytophthora dieback by phosphite while others are not. ....Why does phosphite protect some plants against Phytophthora but not others? Plant diseases caused by Phytophthora pose a major threat to Australia's biodiversity, horticulture and agriculture. The systemic chemical potassium phosphite is a key component of management strategies, but its effectiveness varies on different plant species. We will use molecular and biochemical techniques to understand why some plant species are protected against Phytophthora dieback by phosphite while others are not. This will improve the options for managing bushland affected by dieback and will also expand our knowledge of plant disease resistance.Read moreRead less