Prediction of fruit quality by non-invasive assessment, with special reference to avocado. The project aims to develop non-invasive rapid assessment techniques of avocado quality (dry matter percentage, oil content, susceptibility to rots) suitable for application in at-line, in-line and in-field settings using NIR spectroscopic methods. The development and introduction of these non-invasive technologies into the avocado industry will allow rapid low-cost testing to support existing quality con ....Prediction of fruit quality by non-invasive assessment, with special reference to avocado. The project aims to develop non-invasive rapid assessment techniques of avocado quality (dry matter percentage, oil content, susceptibility to rots) suitable for application in at-line, in-line and in-field settings using NIR spectroscopic methods. The development and introduction of these non-invasive technologies into the avocado industry will allow rapid low-cost testing to support existing quality control procedures. The technology has the potential to enhance the competitive advantage of Australian producers/processors by guaranteeing high quality and optimising shelf-life. The ability to deliver a differentiated product will maximise sales in existing markets and facilitate the targeting of new domestic and overseas markets.Read moreRead less
Identification of nutritional bioactives in tropical fruit. Information on the nutritional properties of tropical fruits is currently limited to chemical analysis of vitamins, minerals and fibre. This project aims to identify additional nutritional components within tropical fruits by assessing activities against a range of cell-based assays. Selected assays will represent cellular processes relating to e.g. lipid metabolism, cancer prevention, and antioxidant effects. Assay-based fractionation ....Identification of nutritional bioactives in tropical fruit. Information on the nutritional properties of tropical fruits is currently limited to chemical analysis of vitamins, minerals and fibre. This project aims to identify additional nutritional components within tropical fruits by assessing activities against a range of cell-based assays. Selected assays will represent cellular processes relating to e.g. lipid metabolism, cancer prevention, and antioxidant effects. Assay-based fractionation approaches will be used to identify molecular bioactives acting either alone or synergistically with other components. Results will be used in public health and/or marketing communication, and will provide targets for breeding and varietal selection programmes.Read moreRead less
Addressing Child Nutritional Deficiency Through Development of a Nutritious Food Based on Dried Vegetable or Fruit. A significant proportion of Australian children are deficient in nutrients that dramatically affect mental and physical development. To improve health and wellness, micronutrients must be in a palatable form and be sufficiently absorbed to improve nutritional status. To optimise stability during processing, sensory quality and metabolic absorption, appropriate micronutrient food fo ....Addressing Child Nutritional Deficiency Through Development of a Nutritious Food Based on Dried Vegetable or Fruit. A significant proportion of Australian children are deficient in nutrients that dramatically affect mental and physical development. To improve health and wellness, micronutrients must be in a palatable form and be sufficiently absorbed to improve nutritional status. To optimise stability during processing, sensory quality and metabolic absorption, appropriate micronutrient food fortification technology must be used. This project proposes a unique linkage between three distinct University faculties and Industry, to combine the development of novel fortified dried-vegetable and/or fruit leathers with an efficient process for their production, nutritional studies to assess their absorption, and target market (young children) acceptance studies.Read moreRead less
Surface Modification of Spray-Dried Powders By Surface-Active Proteins. Internal wall deposits in spray dryers lead to product degradation and pose fire hazards. This situation has limited the manufacturing of high value bio-food powders by the Australian bio-food and dairy industry, which exports 13% of the milk powder in the world. The specific economic benefits to Australia from this project arise from innovative surface modification of powder particles by proteins, development of scientific ....Surface Modification of Spray-Dried Powders By Surface-Active Proteins. Internal wall deposits in spray dryers lead to product degradation and pose fire hazards. This situation has limited the manufacturing of high value bio-food powders by the Australian bio-food and dairy industry, which exports 13% of the milk powder in the world. The specific economic benefits to Australia from this project arise from innovative surface modification of powder particles by proteins, development of scientific instruments and predictive tools based on Computational Fluid Dynamics (CFD). These outcomes will lead to production of free flowing powders from bio-food materials.Read moreRead less
Maximising pineapple production for Australian farmers using genome editing. This project addresses the single biggest issue affecting the viability of pineapple farming in Australia and internationally: premature flowering leading to supply collapse. We aim to develop CRISPR technology to breed new pineapple varieties using non-GM approaches. Expected outcomes include the production of pineapples with resistance to premature flowering, as well as the technologies to deliver additional improveme ....Maximising pineapple production for Australian farmers using genome editing. This project addresses the single biggest issue affecting the viability of pineapple farming in Australia and internationally: premature flowering leading to supply collapse. We aim to develop CRISPR technology to breed new pineapple varieties using non-GM approaches. Expected outcomes include the production of pineapples with resistance to premature flowering, as well as the technologies to deliver additional improvements in the future. The new varieties will benefit farmers through increased production, maximising supply capability for a rapidly growing internal demand. This will benefit Australian pineapple producers through higher profitability in existing markets, as well as enabling expansion into international and future markets.Read moreRead less
Understanding of structure development in drying droplets through the stickiness paradigm. The aims of this research are to develop a new model for multicomponent droplet drying. This model will provide predictions of conditions where composition variation exists in the drying particles. Validation of the model will be made using a novel instrument to measure the in-situ development of surface stickiness during drying. Stickiness is an important issue encountered during drying and handling of so ....Understanding of structure development in drying droplets through the stickiness paradigm. The aims of this research are to develop a new model for multicomponent droplet drying. This model will provide predictions of conditions where composition variation exists in the drying particles. Validation of the model will be made using a novel instrument to measure the in-situ development of surface stickiness during drying. Stickiness is an important issue encountered during drying and handling of some key food and consumer materials. Currently, there is no technique to measure the evolution of stickiness during drying. Key outputs will include the model, the instrument, and the development of efficient methods to generate the multicomponent data.Read moreRead less
Generation of bananas with resistance to Fusarium wilt. Bananas are an important fruit crop in Australia, but the industry is continually threatened by numerous diseases such as Fusarium wilt. This project aims to generate transgenic banana plants with resistance to Fusarium wilt, a disease for which no effective control strategies currently exist.
Sustainable usage of dredged clay materials as land reclamation fills. Millions of cubic metres of dredged materials are removed from river and sea beds every year in dredging projects. It is common to dump a significant portion of the dredged spoils into the sea which can result in serious environmental problems such as deterioration of water quality, damage to aquatic habitats, disruption of ecosystems and dispersion of fine clay particles in seawater. The proposed use of dredged clays as land ....Sustainable usage of dredged clay materials as land reclamation fills. Millions of cubic metres of dredged materials are removed from river and sea beds every year in dredging projects. It is common to dump a significant portion of the dredged spoils into the sea which can result in serious environmental problems such as deterioration of water quality, damage to aquatic habitats, disruption of ecosystems and dispersion of fine clay particles in seawater. The proposed use of dredged clays as land reclamation fill will lead to a substantial reduction in or even eliminate the need for dumping dredged clays into offshore dumping locations. The stabilized dredged clays have great potential if their geotechnical characteristics are adequately understood.Read moreRead less
Understanding coffee quality. Through this project, coffee quality will be better understood at the chemical and genetic level. This will allow the selection of superior coffee varieties and appropriate processing in the production of high quality coffee to satisfy consumer preferences. This project will result in a strong local coffee industry with a growing reputation for quality, and global application of the technology may bring further economic benefits to Australia.
Industrial Transformation Training Centres - Grant ID: IC180100045
Funder
Australian Research Council
Funding Amount
$3,582,638.00
Summary
ARC Training Centre for Uniquely Australian Foods. The ARC Training Centre for Uniquely Australian Foods aims to provide a cohort of trained and industry-ready researchers who can lead the native foods industry forward. It plans to transform the native food and agribusiness sector, through the development of selected crops, foods and ingredients. The Centre will use an Indigenous governance group to oversee the process of converting traditional knowledge into branded products. Expected outcomes ....ARC Training Centre for Uniquely Australian Foods. The ARC Training Centre for Uniquely Australian Foods aims to provide a cohort of trained and industry-ready researchers who can lead the native foods industry forward. It plans to transform the native food and agribusiness sector, through the development of selected crops, foods and ingredients. The Centre will use an Indigenous governance group to oversee the process of converting traditional knowledge into branded products. Expected outcomes include technical information to support branding and market development, best practice development in social factors and legal arrangements for benefit sharing. This Centre will help drive sustainable growth of high-value products within the premium Australian food sector.
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