Novel genomic technologies to improve fertility in northern beef cattle. This project aims to develop new genomic technologies to enable accelerated improvement of cow fertility. Increased global demand for beef is driving northern Australian beef enterprises to develop innovative ways to increase productivity. A substantial industry challenge is poor fertility of cows, with weaning rates frequently less than 40%. The expected outcomes of this project are an improvement in weaning rates to enabl ....Novel genomic technologies to improve fertility in northern beef cattle. This project aims to develop new genomic technologies to enable accelerated improvement of cow fertility. Increased global demand for beef is driving northern Australian beef enterprises to develop innovative ways to increase productivity. A substantial industry challenge is poor fertility of cows, with weaning rates frequently less than 40%. The expected outcomes of this project are an improvement in weaning rates to enable accelerated genetic gain for fertility in these enterprises by delivering a low cost array, which assays thousands of DNA variants affecting fertility simultaneously. This should provide significant benefits such as a new genomic prediction method informed by gene expression data from a unique resource of Brahman cattle with exceptionally high fertility, generating significant industry benefits.Read moreRead less
Quantitative genetic control of economic traits in Eucalyptus globulus. Eucalyptus globulus is the most important plantation eucalypt in Australia and a model for tree genetic research. The project aims to study the quantitative genetic architecture of this species, focusing on traits of economic significance, and provide new insights into: the relative importance of non-additive genetic effects, including maternal and reciprocal effects; the importance of indirect genetic effects, particularly ....Quantitative genetic control of economic traits in Eucalyptus globulus. Eucalyptus globulus is the most important plantation eucalypt in Australia and a model for tree genetic research. The project aims to study the quantitative genetic architecture of this species, focusing on traits of economic significance, and provide new insights into: the relative importance of non-additive genetic effects, including maternal and reciprocal effects; the importance of indirect genetic effects, particularly on the competitive interactions amongst trees; and the genetics of traits impacting the production of emerging plantation products such as veneer. This information is needed to improve genetic evaluation models and to better target germplasm to environments and products.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
Marker assisted selection of honey bees. The project will develop new molecular markers for commercially relevant trait of honey bees and ways of using these to implement marker-assisted selection for honey bee genetic improvement. Beekeepers need to use genetically improved stock to remain competitive. Honey production needs to be improved, and new ways of identifying disease resistant bees are needed. Unfortunately, breeding bees is very difficult. This project will use modern molecular gen ....Marker assisted selection of honey bees. The project will develop new molecular markers for commercially relevant trait of honey bees and ways of using these to implement marker-assisted selection for honey bee genetic improvement. Beekeepers need to use genetically improved stock to remain competitive. Honey production needs to be improved, and new ways of identifying disease resistant bees are needed. Unfortunately, breeding bees is very difficult. This project will use modern molecular genetic techniques to help find new efficient ways to breed better bees. The benefits will be a more viable beekeeping sector, a keystone industry that provides pollination services essential to many horticultural industriesRead moreRead less
Software Quality Improvement Through Static Analysis and Annotation. Software forms the basis of critical infrastructure that supports industries such as electronic commerce. Flaws in the software can lead to failure of the overall system, or allow the security mechanisms of the software to be by-passed. This project is developing methods to improve the quality of software by finding common flaws that lead to security vulnerabilities or runtime failures. Within Australia, it is estimated that th ....Software Quality Improvement Through Static Analysis and Annotation. Software forms the basis of critical infrastructure that supports industries such as electronic commerce. Flaws in the software can lead to failure of the overall system, or allow the security mechanisms of the software to be by-passed. This project is developing methods to improve the quality of software by finding common flaws that lead to security vulnerabilities or runtime failures. Within Australia, it is estimated that there are approximately 75,000 software developers who make substantial use of C/C++ and who could benefit from the availability of better automatic static analysis tools to improve both the quality of the code they produce and their productivity.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0454133
Funder
Australian Research Council
Funding Amount
$101,000.00
Summary
Upgrade of Infrared Analytical Facility. This application seeks funding to upgrade the existing infrared analytical facility in the Central Science Laboratory (CSL) by installing a near infrared analyser.This instrument will provide analytical support to researchers in the fields of silviculture, agriculture and chemistry by providing a low cost, rapid and accurate analysis of the chemical and physical properties of large sample numbers.This instrument will dramatically reduce the project costs, ....Upgrade of Infrared Analytical Facility. This application seeks funding to upgrade the existing infrared analytical facility in the Central Science Laboratory (CSL) by installing a near infrared analyser.This instrument will provide analytical support to researchers in the fields of silviculture, agriculture and chemistry by providing a low cost, rapid and accurate analysis of the chemical and physical properties of large sample numbers.This instrument will dramatically reduce the project costs, compared with traditional wet analytical methods,and enable larger and statistically more significant data sets to be acquired.The expected outcomes will include a more rapid identification of the genes controlling plant characteristics and the development of targeted plant breeding programs of economic significance to Australia.The development of specific resins for gold extraction will be both economically and environmentally important.Read moreRead less
Industrial Transformation Research Hubs - Grant ID: IH130200013
Funder
Australian Research Council
Funding Amount
$4,979,922.00
Summary
ARC Research Hub for advanced breeding to transform prawn aquaculture. ARC Research Hub for advanced breeding to transform prawn aquaculture. This Research Hub aims to bring together world-leading animal geneticists, research and service providers, and Australia's largest prawn farm to gather the genomic resources, commercial phenotypic data, and apply cutting-edge genetic and genomic selection methodologies, leading to the transformative improvement program for a black tiger prawn aquaculture s ....ARC Research Hub for advanced breeding to transform prawn aquaculture. ARC Research Hub for advanced breeding to transform prawn aquaculture. This Research Hub aims to bring together world-leading animal geneticists, research and service providers, and Australia's largest prawn farm to gather the genomic resources, commercial phenotypic data, and apply cutting-edge genetic and genomic selection methodologies, leading to the transformative improvement program for a black tiger prawn aquaculture species globally.Read moreRead less
Understanding, controlling and improving the flavour of almond kernels. Almond kernels may be sweet, semi-bitter or bitter, with the first two categories marketed as fresh nuts, while the latter are used in processed products such as marzipan. Semi-bitter kernels have a more interesting flavour than sweet kernels and we require tools to breed for this character. The bitter flavour is imparted by amygdalin via the cyanogenic pathway. This project will characterise the genetic control of sweet, ....Understanding, controlling and improving the flavour of almond kernels. Almond kernels may be sweet, semi-bitter or bitter, with the first two categories marketed as fresh nuts, while the latter are used in processed products such as marzipan. Semi-bitter kernels have a more interesting flavour than sweet kernels and we require tools to breed for this character. The bitter flavour is imparted by amygdalin via the cyanogenic pathway. This project will characterise the genetic control of sweet, semi-bitter and bitter flavour, amygdalin accumulation in developing kernels, and key enzymes in the cyanogenic pathway. Almond populations segregating for these traits will be used and the data will be integrated into the Australian almond meiotic map.Read moreRead less
Hop (Humulus lupulus L.) flavoromics for distinctive beer. Hop is the spice of beer, as it provides unique flavour chemicals imparting taste (bitterness) and aroma. With the worldwide rise of craft beer, there is international demand for differentiated beer. The flavour potential of hop has not been fully explored, and the genetic basis of hop chemistry is poorly understood. This project aims to gather flavoromic data through modern analytical chemistry, genomics, molecular genetics and brewing ....Hop (Humulus lupulus L.) flavoromics for distinctive beer. Hop is the spice of beer, as it provides unique flavour chemicals imparting taste (bitterness) and aroma. With the worldwide rise of craft beer, there is international demand for differentiated beer. The flavour potential of hop has not been fully explored, and the genetic basis of hop chemistry is poorly understood. This project aims to gather flavoromic data through modern analytical chemistry, genomics, molecular genetics and brewing in order to better understand the genetic basis of hop chemistry which affects the entire value chain: from hop farm to consumers' experience of beer. The overarching aim of this project is to offer smart breeding strategies leading to novel flavours (taste and aroma) for existing and emerging breweries.Read moreRead less
Microsatellite marker development for almond breeding. Australian almond growers produce 8,000 tonnes of kernel annually, and the long term aim is to develop strong export markets. The industry funds a breeding program at Adelaide University, comprising hybridisation and selection. Through our current ARC SPIRT grant we augment this with a program in molecular techniques. Research is well-advanced in the development of a genetic map for almond based on both molecular and agronomic characters. ....Microsatellite marker development for almond breeding. Australian almond growers produce 8,000 tonnes of kernel annually, and the long term aim is to develop strong export markets. The industry funds a breeding program at Adelaide University, comprising hybridisation and selection. Through our current ARC SPIRT grant we augment this with a program in molecular techniques. Research is well-advanced in the development of a genetic map for almond based on both molecular and agronomic characters. This IREX grant will facilitate integration of our map with the International Prunus mapping program, based at Cabrils, Spain. It will also facilitate augmentation of the map with jointly-developed microsatellite markers.Read moreRead less