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
Discovery Early Career Researcher Award - Grant ID: DE190101364
Funder
Australian Research Council
Funding Amount
$422,460.00
Summary
Securing future supplies of chicken-meat protein. This project aims to generate advanced knowledge in amino acid metabolism in poultry in order to reduce soybean inclusion in broiler diets. Chicken-meat is the dominant animal protein source in human diets in Australia. However, Australia chicken-meat industry will need to increase production by more than 40 per cent to meet population growth by 2050. Soybean meal is the major protein source in poultry diets but the sustainability of increased so ....Securing future supplies of chicken-meat protein. This project aims to generate advanced knowledge in amino acid metabolism in poultry in order to reduce soybean inclusion in broiler diets. Chicken-meat is the dominant animal protein source in human diets in Australia. However, Australia chicken-meat industry will need to increase production by more than 40 per cent to meet population growth by 2050. Soybean meal is the major protein source in poultry diets but the sustainability of increased soy production is problematic. The expected outcomes of this project will be an increase in our future capacity to produce affordable, healthy chicken-meat with humane animal welfare by novel dietary formulations. Chicken-meat production generates less greenhouse gases than its competitors but this project will contribute to the reduction of harmful environmental outputs and ensure food security for Australia.Read moreRead less
Sustaining chicken-meat production with alternative protein sources. This project aims to secure sustainable chicken-meat production by the radical reduction or even elimination of imported soybean meal as the primary protein source in Australian broiler diets by its replacement with feed-grade amino acids and local feedstuffs. This project will expand our comprehension of starch/glucose and protein/amino acid digestive dynamics in poultry diets based on wheat, the primary feed grain in Australi ....Sustaining chicken-meat production with alternative protein sources. This project aims to secure sustainable chicken-meat production by the radical reduction or even elimination of imported soybean meal as the primary protein source in Australian broiler diets by its replacement with feed-grade amino acids and local feedstuffs. This project will expand our comprehension of starch/glucose and protein/amino acid digestive dynamics in poultry diets based on wheat, the primary feed grain in Australia; however, wheat does inherently possess nutritional disadvantages. Expected outcomes include soybean meal-free feed formulations for the Australian chicken-meat industry to enhance the affordable and environmentally viable production of chicken-meat coupled with improved bird welfare and flock health. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100802
Funder
Australian Research Council
Funding Amount
$410,778.00
Summary
Enabling a circular economy for poultry via exploration of metabolism. This project aims to address the environmental and economic burden of food waste by enabling its utilisation as a feed for poultry. This project expects to generate new knowledge in poultry nutrition using a holistic approach exploring the nutritional, health, welfare, economic and environmental effects of food waste diets for poultry. The expected outcomes of this project include enabling food waste diets for poultry and a g ....Enabling a circular economy for poultry via exploration of metabolism. This project aims to address the environmental and economic burden of food waste by enabling its utilisation as a feed for poultry. This project expects to generate new knowledge in poultry nutrition using a holistic approach exploring the nutritional, health, welfare, economic and environmental effects of food waste diets for poultry. The expected outcomes of this project include enabling food waste diets for poultry and a greater understanding of basic nutrition including, carbohydrate and fat metabolism. This should provide significant environmental and economic benefits by utilising food waste that would otherwise go to landfill and improving our understanding of poultry nutrition, giving potential economic savings over $500 million.Read moreRead less
Evaluation of Bacillus amyloliquefaciens H57 as a probiotic in livestock using animal nutrition studies and metagenomics. To improve animal production, gene sequencing will unravel how microbial communities in the rumen of sheep and cattle and the gastro intestinal tract of poultry respond to feed quality and probiotic bacteria. The animal nutrition trials will also measure weight gain and feed utilisation efficiency, particularly for nitrogen, protein and energy.