The Australian Research Data Commons (ARDC) invites you to participate in a short survey about your
interaction with the ARDC and use of our national research infrastructure and services. The survey will take
approximately 5 minutes and is anonymous. It’s open to anyone who uses our digital research infrastructure
services including Reasearch Link Australia.
We will use the information you provide to improve the national research infrastructure and services we
deliver and to report on user satisfaction to the Australian Government’s National Collaborative Research
Infrastructure Strategy (NCRIS) program.
Please take a few minutes to provide your input. The survey closes COB Friday 29 May 2026.
Complete the 5 min survey now by clicking on the link below.
Markers of milk quality in commercially produced UHT milks and milk powders. Efficient production of safe, wholesome food relies on the application of the best available knowledge of the food material and the processing technologies involved. This project applies proteomics, the most advanced protein analysis technique, to determine the changes that occur in milk during high heat treatment and subsequent storage of the heat-processed milk product. Armed with such knowledge, the dairy processin ....Markers of milk quality in commercially produced UHT milks and milk powders. Efficient production of safe, wholesome food relies on the application of the best available knowledge of the food material and the processing technologies involved. This project applies proteomics, the most advanced protein analysis technique, to determine the changes that occur in milk during high heat treatment and subsequent storage of the heat-processed milk product. Armed with such knowledge, the dairy processing industry will be able to make informed decisions about processing and storage conditions to ensure the final products provided to the consumer are of the highest possible quality. Read moreRead less
Ultrasonic Processing of Dairy Ingredients to Control Protein Aggregation and Promote Heat Stability. This project is an emerging collaboration between the University of Melbourne, Food Science Australia and the Dairy Ingredients Group of Australia. We aim to use acoustically generated chemical and physical effects to modify dairy proteins. Transformation of the sulphur-containing proteins by this means should overcome many of the difficulties currently encountered in thermal processing of whole ....Ultrasonic Processing of Dairy Ingredients to Control Protein Aggregation and Promote Heat Stability. This project is an emerging collaboration between the University of Melbourne, Food Science Australia and the Dairy Ingredients Group of Australia. We aim to use acoustically generated chemical and physical effects to modify dairy proteins. Transformation of the sulphur-containing proteins by this means should overcome many of the difficulties currently encountered in thermal processing of whole milk and whey proteins. This work will place the Australian dairy industry in a pre-eminent position for the development of valuable, heat-stable and uniquely functional ingredients based on novel micro/nano structures. Existing world class expertise will be further developed in ultrasonic processing and sonochemistry as frontier technologies.Read moreRead less
The Molecular Mechanism of Protein Instability in Dairy Powder Systems. Dairy is the fourth largest rural industry sectors in Australia, directly involving more than 13,000 farms and a large number of dairy factories. Most of Australia's 10 billion litre milk flow is converted to powder form for exports, with an annual value exceeding $1billion. The anticipated improvements in the performance and shelf-life of the dried dairy powder systems to be investigated in this project have the potential ....The Molecular Mechanism of Protein Instability in Dairy Powder Systems. Dairy is the fourth largest rural industry sectors in Australia, directly involving more than 13,000 farms and a large number of dairy factories. Most of Australia's 10 billion litre milk flow is converted to powder form for exports, with an annual value exceeding $1billion. The anticipated improvements in the performance and shelf-life of the dried dairy powder systems to be investigated in this project have the potential to generate significant economic impacts in both the dairy production and processing sectors. This work will also benefit the wider scientific community in dairy- and food-related areas, particularly in relation to the novel multidisciplinary approach involving a combination of material science and protein chemistry.Read moreRead less
Development of novel omega-3 enriched poultry products. New Health recommendations and changes to the Food Standards Code encourage greater dietary intake of omega-3 (w-3) fatty acids. Our core research on modifying fatty acid composition of poultry tissues and preliminary studies with our industry partner's proprietary fishmeal product (PorcOmega) have indicated the feasibility of producing novel meat products and eggs with high w-3 contents, which would qualify to carry a new nutrition label. ....Development of novel omega-3 enriched poultry products. New Health recommendations and changes to the Food Standards Code encourage greater dietary intake of omega-3 (w-3) fatty acids. Our core research on modifying fatty acid composition of poultry tissues and preliminary studies with our industry partner's proprietary fishmeal product (PorcOmega) have indicated the feasibility of producing novel meat products and eggs with high w-3 contents, which would qualify to carry a new nutrition label. We now propose, in collaboration with our industry partner, to assess the viability of producing such products by conducting poultry feeding trials with PorcOmega on a commercial scale and evaluating both the levels of w-3 enrichement of chicken breast, thigh and sausages, shelf-life and consumer acceptability (sensory evaluation) of these products. We expect to establish feeding strategies for adoption by commercial producers of premium poultry and eggs for local or export markets.Read moreRead less
Development of mature and intense flavours in low-fat cheeses using micro-encapsulated enzyme technology. Obesity related diseases are escalating in Australia. Consumers, although encouraged to favour low-fat alternatives in their diet to combat obesity, find low-fat alternatives unpalatable and continue to select full-fat alternatives. There is a need to provide consumers with a full-fat flavoured low-fat cheese. The aim of this project is to develop low-fat cheese products with flavours compar ....Development of mature and intense flavours in low-fat cheeses using micro-encapsulated enzyme technology. Obesity related diseases are escalating in Australia. Consumers, although encouraged to favour low-fat alternatives in their diet to combat obesity, find low-fat alternatives unpalatable and continue to select full-fat alternatives. There is a need to provide consumers with a full-fat flavoured low-fat cheese. The aim of this project is to develop low-fat cheese products with flavours comparable to fully ripened, mature, full-fat cheeses using microencapsulation technology. The outcome will be a rise in demand for low-fat cheese products that will reduce dietary fat intake while maintaining the positive nutritional benefits associated with cheese.Read moreRead less
Integrating electrophysiology and molecular biology to understand the role of cell membranes in bacterial responses to chill and osmotic stress. Modern food manufacture is driven by competing demands: consumers prefer foods that are 'natural', i.e. having received minimal processing and containing less preservatives, and last, but are safe. Thus, a challenge is to find minimal sets of treatments and preservatives that limit microbial growth.
Current methods to for determining limits to microbi ....Integrating electrophysiology and molecular biology to understand the role of cell membranes in bacterial responses to chill and osmotic stress. Modern food manufacture is driven by competing demands: consumers prefer foods that are 'natural', i.e. having received minimal processing and containing less preservatives, and last, but are safe. Thus, a challenge is to find minimal sets of treatments and preservatives that limit microbial growth.
Current methods to for determining limits to microbial growth are time and consuming and empirical. We will assess the potential of a new method (MIFE) to rapidly measure limits of bacterial growth under combinations of treatments. At the same time we will study how cells, and in particular how the cell membrane, responds to these stresses to provide insights for the development of new, minimal - yet safe - food preservation technologies.
Read moreRead less
Establishing evidence for the functional properties of a whole grain in weight management. The successful development of functional foods relies on communicating proven effects. This project aims to prove that the food containing the satiety properties of a whole grain (OG) may help in weight management. We will conduct basic research investigating the link between consumption of OG-containing foods and the regulatory mechanisms of satiety, and test whether the satiety properties can be used to ....Establishing evidence for the functional properties of a whole grain in weight management. The successful development of functional foods relies on communicating proven effects. This project aims to prove that the food containing the satiety properties of a whole grain (OG) may help in weight management. We will conduct basic research investigating the link between consumption of OG-containing foods and the regulatory mechanisms of satiety, and test whether the satiety properties can be used to prevent, reduce and correct body weight gain in the early, middle and late stages of obesity. We will then apply this understanding in a human trial of mildly and long term overweight subjects, to aid the formulation of statements on the potential health benefits from consuming OG.Read moreRead less
Tomato and vegetable oil synergies for healthier foods. Vegetable and fruit products are recognised for their content of health-promoting phytonutrients. This project will investigate the bioavailability and subsequent in-vivo antioxidant activity of tomatoes and vegetable oils alone or in combination. A second aim will be to isolate particular phytonutrients from tomates and selected vegetable oils, and then to combine them for determination of synergistic interactions affecting antioxidant ac ....Tomato and vegetable oil synergies for healthier foods. Vegetable and fruit products are recognised for their content of health-promoting phytonutrients. This project will investigate the bioavailability and subsequent in-vivo antioxidant activity of tomatoes and vegetable oils alone or in combination. A second aim will be to isolate particular phytonutrients from tomates and selected vegetable oils, and then to combine them for determination of synergistic interactions affecting antioxidant activity. Opportunities for the preparation of new phytonutrient-oil combination foods with increased antioxidant activity and the potential to enhance the health status of consumers will be developed. The research will provide food processors with expertise to develop novel plant-derived ingredients and food products for sale in the internationally growing functional foods market.Read moreRead less
Next-generation technology for determining fitness-for-use of starches in cereal grains. The project will deliver a new methodology to characterize starch-containing materials such as grains. This will provide the first tools to readily measure the full size distribution of starch in industry laboratories, giving far more information than is currently accessible. The data will be extremely sensitive to structural characteristics associated with desirable end-use properties. The new process will ....Next-generation technology for determining fitness-for-use of starches in cereal grains. The project will deliver a new methodology to characterize starch-containing materials such as grains. This will provide the first tools to readily measure the full size distribution of starch in industry laboratories, giving far more information than is currently accessible. The data will be extremely sensitive to structural characteristics associated with desirable end-use properties. The new process will enable conventional instrumentation methodology to be re-engineered to better select starch-containing materials. This will enable superior targeting and processing of materials for improved products in human nutrition, animal feed and manufactured goods such as biodegradable plastics.Read moreRead less
Self-assembly of gelling biopolymer particles. Biopolymers provide a renewable source of structuring agents for a variety of potential uses in food, pharmaceutical and other applications that require bio-compatibility. Swollen biopolymer particles of sub-millimetre size are particularly useful as they combine macroscopic structure formation with an ability to flow and a desirable soft solid texture. Two limitations to the current utilisation of biopolymer particles are that they either cannot be ....Self-assembly of gelling biopolymer particles. Biopolymers provide a renewable source of structuring agents for a variety of potential uses in food, pharmaceutical and other applications that require bio-compatibility. Swollen biopolymer particles of sub-millimetre size are particularly useful as they combine macroscopic structure formation with an ability to flow and a desirable soft solid texture. Two limitations to the current utilisation of biopolymer particles are that they either cannot be predictably produced direct from a dried form, or if they are (e.g. cooked starch granules), there is a lack of scientific understanding that limits use of natural sources without subsequent chemical modification. This project will provide the science & technology to overcome these limitations.Read moreRead less