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
Role of soil factors and transmission on propagation material of fungal pathogens in the severity of strawberry crown and root disorders. Through identification of the pathogen complexes associated with root and crown disorders, their impacts, understanding the influences of environmental conditions and rotational species, knowing the sources of major pathogens, and identification of varietal resistances to the pathogens, this project will provide a unique opportunity for growers to better manag ....Role of soil factors and transmission on propagation material of fungal pathogens in the severity of strawberry crown and root disorders. Through identification of the pathogen complexes associated with root and crown disorders, their impacts, understanding the influences of environmental conditions and rotational species, knowing the sources of major pathogens, and identification of varietal resistances to the pathogens, this project will provide a unique opportunity for growers to better manage such disorders of strawberries occurring across southern Australia. Benefits include prevention of severe losses in strawberries, making strawberry production and exports more viable, sustainable and environmentally friendly, addressing the National Research Priority 'An Environmentally Sustainable Australia' and the Priority Goal of 'Transforming existing industries".Read moreRead less
The biology, genetics, pathology and control of Alternaria species in Paulownia plantations. The development of Paulownia plantations is a rapidly expanding industry in Australia. Recently, three Alternaria species have been associated with foliar and canker disease leading to tree deaths. Alternaria disease has the potential to cause economic losses to the industry in Western Australia. Therefore, this study will examine the pathology and genetic diversity of Alternaria species, establish path ....The biology, genetics, pathology and control of Alternaria species in Paulownia plantations. The development of Paulownia plantations is a rapidly expanding industry in Australia. Recently, three Alternaria species have been associated with foliar and canker disease leading to tree deaths. Alternaria disease has the potential to cause economic losses to the industry in Western Australia. Therefore, this study will examine the pathology and genetic diversity of Alternaria species, establish pathogenicity screening of different genetic material and look at a range of integrated chemical and silvicultural approaches to reduce disease impact and severity.Read moreRead less
Vineyard soil health and microbial biodiversity under different cover crop and floor management practices. This project will examine vineyard ?soil health? by monitoring the populations of soil microorganisms under different vineyard cultural practices, with an emphasis on microbial populations capable of suppressing soil borne disease and of increasing the nutrient uptake by the vine. The project will identify vineyard cover crop and floor management practices for the improvement of soil healt ....Vineyard soil health and microbial biodiversity under different cover crop and floor management practices. This project will examine vineyard ?soil health? by monitoring the populations of soil microorganisms under different vineyard cultural practices, with an emphasis on microbial populations capable of suppressing soil borne disease and of increasing the nutrient uptake by the vine. The project will identify vineyard cover crop and floor management practices for the improvement of soil health and sustainability in the rapidly expanding wine industry, providing considerable economic and environmental advantages to regional and rural communities.Read moreRead less
Fungal Glucanase Genes for Engineering Disease Resistance in Plants. Plants can be engineered for resistance to fungal diseases by transformation with recombinant genes encoding chitinase or glucanase. Although fungi are prolific producers of glucanases, with some species producing novel forms, they have been unexplored as a source of useful glucanases. This project will isolate glucanase-producing fungi from soil, screen them for antifungal activity, and clone the glucanase genes from one or m ....Fungal Glucanase Genes for Engineering Disease Resistance in Plants. Plants can be engineered for resistance to fungal diseases by transformation with recombinant genes encoding chitinase or glucanase. Although fungi are prolific producers of glucanases, with some species producing novel forms, they have been unexplored as a source of useful glucanases. This project will isolate glucanase-producing fungi from soil, screen them for antifungal activity, and clone the glucanase genes from one or more isolates. In view of the high degree of biodiversity in WA soils, we have a high expectation of finding novel glucanases which will be useful for engineering disease resistance in plants, or for other industrial processes.Read moreRead less
Use of Organic Residues in Edible Mushroom Production. The aims are to develop growth and casing materials for mushroom production based on organic wastes. Casing peat is the most expensive raw ingredient used in mushroom production and there are major concerns over supply due to increasing environmental concerns in supplier countries and quarantine issues such as the recent foot and mouth outbreak in Europe. This project will develop alternatives to imported peats as casing materials and invest ....Use of Organic Residues in Edible Mushroom Production. The aims are to develop growth and casing materials for mushroom production based on organic wastes. Casing peat is the most expensive raw ingredient used in mushroom production and there are major concerns over supply due to increasing environmental concerns in supplier countries and quarantine issues such as the recent foot and mouth outbreak in Europe. This project will develop alternatives to imported peats as casing materials and investigate a range of organic residues which can be used as basic growth media for button and exotic mushrooms. This will increase the viability and sustainability of the mushroom industry in Australia.Read moreRead less
Why are many fungicide lead compounds active against pathogens in axenic culture but inactive when applied to infected plants? It is much cheaper and easier to screen compounds for fungicidal activity in vivo (that is against the fungus grown in axenic culture) than to test in planta. However, it is commonly observed that compounds active in in vivo screens do not subsequently prove to be active in planta. The aim of this project is to investigate the physiological, biochemical and genetics basi ....Why are many fungicide lead compounds active against pathogens in axenic culture but inactive when applied to infected plants? It is much cheaper and easier to screen compounds for fungicidal activity in vivo (that is against the fungus grown in axenic culture) than to test in planta. However, it is commonly observed that compounds active in in vivo screens do not subsequently prove to be active in planta. The aim of this project is to investigate the physiological, biochemical and genetics basis of this discrepancy and to attempt to provide tools that circumvent the problem. It is expected the project will generate novel information on the environment in the plant experienced by the fungus.Read moreRead less