The Potential of the Fungicide Phosphite to Control the Autonomous Spread of Phytophthora cinnamomi in Natural and Rehabilitated Ecosystems. Phytophthora cinnamomi is recognised by the Federal Government as a key threatening process to Australia's biodiversity. This project will enhance the existing methodologies and protocols to improve the effectiveness and persistence of phosphite to reduce or contain the autonomous spread of this pathogen through susceptible and threatened plant communities. ....The Potential of the Fungicide Phosphite to Control the Autonomous Spread of Phytophthora cinnamomi in Natural and Rehabilitated Ecosystems. Phytophthora cinnamomi is recognised by the Federal Government as a key threatening process to Australia's biodiversity. This project will enhance the existing methodologies and protocols to improve the effectiveness and persistence of phosphite to reduce or contain the autonomous spread of this pathogen through susceptible and threatened plant communities. It will provide environmental, mining and land-care organisations with improved techniques to control P. cinnamomi in a range of plant communities and environments associated with mining and natural ecosystems.Read moreRead less
Saprophytic Ability and Long-term Survival of Phytophthora cinnamomi in Rehabilitated Bauxite Mines and Adjacent Eucalyptus marginata (Jarrah) Forest. The plant pathogen Phytophthora cinnamomi is listed by the Commonwealth as a ?Key threatening process? to Australia's biodiversity. This study will examine the physical, chemical and biological factors that influence long-term survival of P. cinnamomi in a range of jarrah forest and mine site soils, by examining saprophytic ability and endogenous ....Saprophytic Ability and Long-term Survival of Phytophthora cinnamomi in Rehabilitated Bauxite Mines and Adjacent Eucalyptus marginata (Jarrah) Forest. The plant pathogen Phytophthora cinnamomi is listed by the Commonwealth as a ?Key threatening process? to Australia's biodiversity. This study will examine the physical, chemical and biological factors that influence long-term survival of P. cinnamomi in a range of jarrah forest and mine site soils, by examining saprophytic ability and endogenous dormancy. Managers will be provided with better tools for determining the presence and predicting the persistence of P. cinnamomi by obtaining information on the environmental factors that influence survival time in different soils and how to manipulate these to decrease the pathogen's survival.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100130
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
Specialised greenhouse space for new initiatives. This greenhouse facility will enable fundamental research of nutrient transport in fruits, seeds and fibre and will underpin biotechnological advances to improve crop yield and quality. The development of drought tolerant Sorghum as a dedicated bio-energy crop will reduce dependence on fossil fuels, building towards an environmentally sustainable Australia.
The genus Banksia: can ecophysiological traits associated with nutrient acquisition explain species distribution and rarity? We aim to investigate if an important aspect of a specialised mechanism of nutrient acquisition by different species of the genus Banksia (Proteaceae) accounts for their distribution and rarity. This aspect is the pattern of exudates that are produced by their 'proteoid' roots. Different species of the Proteaceae produce different exudates and it is envisaged that variatio ....The genus Banksia: can ecophysiological traits associated with nutrient acquisition explain species distribution and rarity? We aim to investigate if an important aspect of a specialised mechanism of nutrient acquisition by different species of the genus Banksia (Proteaceae) accounts for their distribution and rarity. This aspect is the pattern of exudates that are produced by their 'proteoid' roots. Different species of the Proteaceae produce different exudates and it is envisaged that variation in pattern reflects their capacity to grow on certain soil types. Our studies will provide key information on processes that determine species distribution, with consequences for defining better management regimes for rare and endangered species.Read moreRead less
Assessing plant virus threats to indigenous Western Australian flora: implications for biodiversity, conservation, ecosystem reclamation and the wildflower industry. Australia's unique flora is a valuable asset, not only in terms of aesthetic value, ecotourism, commercial floriculture, the environment and rural communities, but also in relation to water quality, a sink for carbon, and a source for novel medicinal chemicals. The threat posed by plant viruses to native flora has largely been igno ....Assessing plant virus threats to indigenous Western Australian flora: implications for biodiversity, conservation, ecosystem reclamation and the wildflower industry. Australia's unique flora is a valuable asset, not only in terms of aesthetic value, ecotourism, commercial floriculture, the environment and rural communities, but also in relation to water quality, a sink for carbon, and a source for novel medicinal chemicals. The threat posed by plant viruses to native flora has largely been ignored, but with global climate change, virus infection will become increasingly important. This study will document the role of plant viruses in the sustainability of Australia's floral heritage and industries, and develop strategies to limit virus spread through plant nurseries, rehabilitation of degraded ecosystems and conservation of threatened species.Read moreRead less
Discovery of the molecular mode of action of karrikins in plants. Karrikins are a newly-discovered family of naturally-occurring plant growth regulators that stimulate seed germination and seedling vigour. They were discovered in smoke and while they are centrally important in fire ecology they have far wider significance since species from non-fire-prone regions also respond to karrikins. Our research will discover how karrikins work at the molecular level in plant cells. Our discoveries will b ....Discovery of the molecular mode of action of karrikins in plants. Karrikins are a newly-discovered family of naturally-occurring plant growth regulators that stimulate seed germination and seedling vigour. They were discovered in smoke and while they are centrally important in fire ecology they have far wider significance since species from non-fire-prone regions also respond to karrikins. Our research will discover how karrikins work at the molecular level in plant cells. Our discoveries will be applied to improve growth of crop plants, to stimulate germination of weeds so that they can be eradicated, and in restoration ecology to revegetate degraded land such as minesites. Australia's world-leading position in this new important research area will be enhanced.Read moreRead less
Discovery of the physiological and molecular modes of action of butenolides in promoting seed germination and vigour in plants. The Australian discovery of butenolides opens up a new scientific frontier and new opportunities for land management, plant conservation and agriculture. Butenolides will be used to promote seed germination and plant growth in land reclamation, in conservation of species, to break dormancy in weeds so that they can be eradicated, and to promote germination and vigour in ....Discovery of the physiological and molecular modes of action of butenolides in promoting seed germination and vigour in plants. The Australian discovery of butenolides opens up a new scientific frontier and new opportunities for land management, plant conservation and agriculture. Butenolides will be used to promote seed germination and plant growth in land reclamation, in conservation of species, to break dormancy in weeds so that they can be eradicated, and to promote germination and vigour in crops. Realising the full potential of butenolides demands that we understand how they work so that creative approaches can be developed that may not even require use of the chemical. Crucially by achieving these aims ahead of international competitors we can ensure that Australia gains maximum benefit.Read moreRead less
PHYSIOLOGICAL AND BIOCHEMICAL DISSECTION OF COBALT ACCUMULATION BY PLANTS. Co is a valuable metal for the Australian economy. The project will advance phytomining of non-economic Co ores and also the phytoremediation of (60)Co-contaminated soils. It will assist development of phytotechnologies for Co, eg improvement of Co content of fodder crops for ruminants in Co-deficient areas. All these applications will benefit ARC's National Research Priorities Goal 1: an environmentally friendly Australi ....PHYSIOLOGICAL AND BIOCHEMICAL DISSECTION OF COBALT ACCUMULATION BY PLANTS. Co is a valuable metal for the Australian economy. The project will advance phytomining of non-economic Co ores and also the phytoremediation of (60)Co-contaminated soils. It will assist development of phytotechnologies for Co, eg improvement of Co content of fodder crops for ruminants in Co-deficient areas. All these applications will benefit ARC's National Research Priorities Goal 1: an environmentally friendly Australia. Understanding Co uptake by accumulator species will also promote awareness, conservation and sustainable use of biodiversity in Australia. Outcomes will impact on Goal 3: frontier technologies, as the potential spin-off applications of Co-based phytotechnologies will fuel future environmental technologies in Australia.Read moreRead less
Regulation of ion homeostasis by two-component signalling elements. Dryland salinity is continuously claiming Australian lands and is a serious threat to our agricultural industry, native flora and fauna, and infrastructure. Attempting to feed an increasing population whilst agricultural land is disappearing, places an ever-increasing burden on our remaining land. While there is no simple solution to this problem, understanding how plants regulate cellular ion concentrations will help to generat ....Regulation of ion homeostasis by two-component signalling elements. Dryland salinity is continuously claiming Australian lands and is a serious threat to our agricultural industry, native flora and fauna, and infrastructure. Attempting to feed an increasing population whilst agricultural land is disappearing, places an ever-increasing burden on our remaining land. While there is no simple solution to this problem, understanding how plants regulate cellular ion concentrations will help to generate plants that are suitable for restoration of damaged lands or crop plants that are more tolerant to saline soils. Furthermore, knowledge acquired from the proposed project will also be useful for generating healthier crop plants with enhanced levels of ions essential for the human diet. Read moreRead less
Advanced cryobanking for propagation-recalcitrant and critically endangered plant species. This project aims to advance methods for the conservation of recalcitrant/threatened plant species to achieve best practice ecological restoration in areas of high biodiversity. In particular, the nature of freezing and dehydration damage to cell membranes at various stages of tissue culture and cryopreservation will be investigated to try to minimise deleterious effects. In addition, metabolic changes tha ....Advanced cryobanking for propagation-recalcitrant and critically endangered plant species. This project aims to advance methods for the conservation of recalcitrant/threatened plant species to achieve best practice ecological restoration in areas of high biodiversity. In particular, the nature of freezing and dehydration damage to cell membranes at various stages of tissue culture and cryopreservation will be investigated to try to minimise deleterious effects. In addition, metabolic changes that affect cryogenic survival will be assessed to provide further insight into the role of oxidative stress and the toxicity of cryopreservation processes. Ultimately, improved cryogenic protocols will be developed to maintain the integrity of long-term cryobanks of key species for ecological restoration, such as in post-mined areas.Read moreRead less