Halophytes for high-saline agriculture: optimising performance and understanding physiology. The recent drought has shaved off up to 1 per cent of Australia's economic growth and resulted in losses of over $6 billion in crop and livestock production. At the same time, very large volumes of water with impaired chemical quality are generated by industry and municipal water treatment processes. In most cases, these cannot be used directly for crop irrigation and have to be disposed of at extreme co ....Halophytes for high-saline agriculture: optimising performance and understanding physiology. The recent drought has shaved off up to 1 per cent of Australia's economic growth and resulted in losses of over $6 billion in crop and livestock production. At the same time, very large volumes of water with impaired chemical quality are generated by industry and municipal water treatment processes. In most cases, these cannot be used directly for crop irrigation and have to be disposed of at extreme cost and waste. This project will utilise halophytes as 'alternative cash crops' to use the saline water produced by the coal seam gas operations in the Surat Basin area in Queensland. This will result in a saving of at least $48 million over the five years of operation.Read moreRead less
Manipulating plant root exudation for soil-borne disease control. This project expects to fundamentally advance analysis and manipulation of root exudation, determine influence of rhizosphere microbiota on exudation, molecular responses to resting spore stimulation and to develop novel disease controls. Expected outcomes of this project include the demonstrated potential of novel disease mitigation and student training in innovative approaches to plant pathology and analytical chemistry. This sh ....Manipulating plant root exudation for soil-borne disease control. This project expects to fundamentally advance analysis and manipulation of root exudation, determine influence of rhizosphere microbiota on exudation, molecular responses to resting spore stimulation and to develop novel disease controls. Expected outcomes of this project include the demonstrated potential of novel disease mitigation and student training in innovative approaches to plant pathology and analytical chemistry. This should provide significant benefits, such as effective disease management tools.Read moreRead less
Membrane transporters in oxidative stress signalling and tolerance in plants. Oxidative stress imposed by salinity and drought severely limits agricultural crop production, resulting in multibillion dollar losses to farmers. Australia is one of the driest continents, with a significant proportion of arable land affected by salinity. Thus, developing salt- and drought tolerant species is critical to minimise the impact of these stresses on crop production. This project will reveal specific ionic ....Membrane transporters in oxidative stress signalling and tolerance in plants. Oxidative stress imposed by salinity and drought severely limits agricultural crop production, resulting in multibillion dollar losses to farmers. Australia is one of the driest continents, with a significant proportion of arable land affected by salinity. Thus, developing salt- and drought tolerant species is critical to minimise the impact of these stresses on crop production. This project will reveal specific ionic mechanisms mediating reactive oxygen species signalling and tolerance in plants. This will help achieve the above goal by providing plant breeders with vital information on key genes controlling oxidative stress tolerance in plants. Read moreRead less
Phytochemistry Of Thrips Resistance In Potato And Its Influence On Acquisition And Transmission Of Tomato Spotted Wilt Virus. TSWV causes multi-million dollar losses to the Australian potato industry, which is the countries largest and most valuable vegetable commodity and an important source of income and employment for rural communities. Development of TSWV epidemics relies on the activity of vector thrips acquiring virus from infected plants and transmitting it to healthy potatoes. Deployment ....Phytochemistry Of Thrips Resistance In Potato And Its Influence On Acquisition And Transmission Of Tomato Spotted Wilt Virus. TSWV causes multi-million dollar losses to the Australian potato industry, which is the countries largest and most valuable vegetable commodity and an important source of income and employment for rural communities. Development of TSWV epidemics relies on the activity of vector thrips acquiring virus from infected plants and transmitting it to healthy potatoes. Deployment of thrips resistant potato would greatly assist disease control. This project will determine the efficacy of thrips resistance in reducing TSWV epidemics and identify the chemical basis of resistance, which could be used as a screening tool for potato breeding, and could form the basis of a synthetic chemical tool for thrips prevention in potato and other crops.Read moreRead less
Compost extract: a new paradigm for disease management in sustainable horticulture. There is significant legislative and consumer pressure worldwide to reduce the amount of pesticide applied to food crops. Compost extract is a watery extract of mature compost that when applied to a crop canopy allows simultaneous suppression of a broad range of plant diseases while maintaining biodiversity in an agricultural ecosystem. This technology represents a paradigm shift from the monoculture approach o ....Compost extract: a new paradigm for disease management in sustainable horticulture. There is significant legislative and consumer pressure worldwide to reduce the amount of pesticide applied to food crops. Compost extract is a watery extract of mature compost that when applied to a crop canopy allows simultaneous suppression of a broad range of plant diseases while maintaining biodiversity in an agricultural ecosystem. This technology represents a paradigm shift from the monoculture approach of single-target fungicides or biological control agents. Scientific evaluation has been hampered by a lack of standard production techniques. Our aim is to identify and characterise compost extract technology that produces known and consistently high levels of effectiveness and safety.Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC160100025
Funder
Australian Research Council
Funding Amount
$2,259,000.00
Summary
ARC Training Centre in Food Safety in the Fresh Produce Industry. ARC Training Centre in Food Safety in the Fresh Produce Industry. This centre aims to create an innovation platform of food safety researchers and industry personnel who can significantly advance the safety of fruit and vegetables in Australia. The intended outcomes are safer food, leading to enhanced health and wellbeing; industry growth in the food/agribusiness sector; enhanced trust and international reputation; and increased a ....ARC Training Centre in Food Safety in the Fresh Produce Industry. ARC Training Centre in Food Safety in the Fresh Produce Industry. This centre aims to create an innovation platform of food safety researchers and industry personnel who can significantly advance the safety of fruit and vegetables in Australia. The intended outcomes are safer food, leading to enhanced health and wellbeing; industry growth in the food/agribusiness sector; enhanced trust and international reputation; and increased access to growing export markets. Intended benefits to industry are ready-to-use technologies for strengthened food safety, and a new generation of highly-skilled food safety scientists with experience in conducting industry-focused research.Read moreRead less
Molecular tools for understanding, predicting and managing flowering and reproductive development in Brassica oleracea. This project integrates basic research with application to a significant horticultural industry, building on Australia's position as a leader in world research on molecular and genetic regulation of flowering. The project will strengthen Australia's research reputation in this field, provide new tools for cultivar screening in and management of B. oleracea seed crops. The proj ....Molecular tools for understanding, predicting and managing flowering and reproductive development in Brassica oleracea. This project integrates basic research with application to a significant horticultural industry, building on Australia's position as a leader in world research on molecular and genetic regulation of flowering. The project will strengthen Australia's research reputation in this field, provide new tools for cultivar screening in and management of B. oleracea seed crops. The project will deliver training for 3 PhD students at the interface between basic and applied research. A shortage of skilled scientists with ability to link understanding of plant development at the molecular/genetic level with improved crop management practices has been identified by the horticultural sector as a major challenge. Read moreRead less
Development of a risk management system for systemic downy mildew of poppies. Development of a risk management system for systemic downy mildew of poppies. This project aims to identify the critical inoculum sources of systemic downy mildew—a new disease threat to the Australian poppy industry, which produces over half the world’s medicinal opiates. It will assess these sources’ relative importance and interaction with agronomic site factors in epidemics; and also intends to understand the syste ....Development of a risk management system for systemic downy mildew of poppies. Development of a risk management system for systemic downy mildew of poppies. This project aims to identify the critical inoculum sources of systemic downy mildew—a new disease threat to the Australian poppy industry, which produces over half the world’s medicinal opiates. It will assess these sources’ relative importance and interaction with agronomic site factors in epidemics; and also intends to understand the systemic progression in planta, an area poorly understood in all downy mildew pathosystems. The project expects the data will form the basis of a disease risk index tool to educate growers and guide disease management strategies essential to this industry’s long term viability.Read moreRead less
Meeting the challenges of Sclerotinia crown rot in a perennial production system - pyrethrum. The Australian pyrethrum industry has undergone rapid growth in the last decade, which has seen it become the second largest producer of natural insecticidal pyrethrins in the world. Current production supplies 60% of the global market, with further expansion planned. Sclerotinia crown rot is a major disease that results in plant death; reducing yields and the life of the perennial crop. This project ....Meeting the challenges of Sclerotinia crown rot in a perennial production system - pyrethrum. The Australian pyrethrum industry has undergone rapid growth in the last decade, which has seen it become the second largest producer of natural insecticidal pyrethrins in the world. Current production supplies 60% of the global market, with further expansion planned. Sclerotinia crown rot is a major disease that results in plant death; reducing yields and the life of the perennial crop. This project aims to develop more cost effective and environmentally sustainable methods of managing this disease. This will help to ensure consistent supply of pyrethrin to the world market, reduce the costs of production and increase the net return to growers.Read moreRead less
The role of phytotoxins in ray blight disease of pyrethrum and significance of toxin tolerance to disease resistance. Ray blight disease, caused by Phoma ligulicola, is the greatest threat to the Australian pyrethrum industry causing $2.0M in annual losses. We aim to clarify the pathology of P.ligulicola in pyrethrum, focussing on the role of fungal toxins during infection. Toxin importance in disease will be determined through histology and induction of toxin- pathogen mutants. Toxins will be ....The role of phytotoxins in ray blight disease of pyrethrum and significance of toxin tolerance to disease resistance. Ray blight disease, caused by Phoma ligulicola, is the greatest threat to the Australian pyrethrum industry causing $2.0M in annual losses. We aim to clarify the pathology of P.ligulicola in pyrethrum, focussing on the role of fungal toxins during infection. Toxin importance in disease will be determined through histology and induction of toxin- pathogen mutants. Toxins will be characterised and used in tissue culture to select obtain toxin tolerant pyrethrum clones that will be evaluated for agronomic performance and disease resistance. Successful development of resistant clones will decrease production costs, minimise risk of fungicide resistance development and reduce environmental pollution.Read moreRead less