Quantitative genetics of Eucalyptus globulus. Eucalypt plantations in Australia have expanded rapidly over the last decade. With increasing market competition from overseas plantations for both pulp and solid wood products, Australia must maintain a competitive edge through efficiencies in production and product quality. Breeding and deployment of genetically superior planting stock is part of the solution. With global climate chance and requirements for re-afforestation in drier zones, there ....Quantitative genetics of Eucalyptus globulus. Eucalypt plantations in Australia have expanded rapidly over the last decade. With increasing market competition from overseas plantations for both pulp and solid wood products, Australia must maintain a competitive edge through efficiencies in production and product quality. Breeding and deployment of genetically superior planting stock is part of the solution. With global climate chance and requirements for re-afforestation in drier zones, there is an increasing requirement to genetically improve drought tolerance. This project will provide genetic information and strategies to back Eucalyptus globulus breeding and deployment programs for traditional as well as drier environments. Read moreRead less
Using cutting edge genomic tools to dissect the molecular control of hybrid vigour in cereals. Hybrid cereals grow in a wide range of environments, require less water and produce more grain from less land. This project will generate an enhanced capacity to rapidly develop new hybrid cereal varieties. The Australian community will benefit by having enhanced food security using less water and less land. The Australian community will also benefit because land and water will be released to the envir ....Using cutting edge genomic tools to dissect the molecular control of hybrid vigour in cereals. Hybrid cereals grow in a wide range of environments, require less water and produce more grain from less land. This project will generate an enhanced capacity to rapidly develop new hybrid cereal varieties. The Australian community will benefit by having enhanced food security using less water and less land. The Australian community will also benefit because land and water will be released to the environment, or to support other industries and their communities, or to grow other crops. The wide environmental adaptation of these hybrid cereals will allow the Australian community to respond flexibly to adverse climatic changes. Read moreRead less
Mechanistic characterisation of genotype x environment interactions in sorghum and arabidopsis. Sorghum is an economically important cereal crop for Australia. In Australia, sorghum is used as a staple animal feed and it is very important for the live stock industry. With the predicted changes of temperature and rainfall patterns due to climate change, negative effects on sorghum yield are expected, which can have adverse effects on Australian economy. Our studies will identify and mark genes th ....Mechanistic characterisation of genotype x environment interactions in sorghum and arabidopsis. Sorghum is an economically important cereal crop for Australia. In Australia, sorghum is used as a staple animal feed and it is very important for the live stock industry. With the predicted changes of temperature and rainfall patterns due to climate change, negative effects on sorghum yield are expected, which can have adverse effects on Australian economy. Our studies will identify and mark genes that regulate flowering and seed production in sorghum in response to changes in temperature and light interactions. These studies will help to develop novel sorghum varieties with desirable characters through plant-breeding programmes.Read moreRead less
How common and what is the significance of cis-acting regulatory variation and genomic imprinting in plants? Plant based processes provide truly sustainable solutions to many of the challenges facing Australia. The proposed research will help elucidate how plants regulate variation in gene expression rather than changes in the structure of encoded proteins. This is an area of gene expression, that has not been approached before, that explains the plant's ability to respond to external stimuli. ....How common and what is the significance of cis-acting regulatory variation and genomic imprinting in plants? Plant based processes provide truly sustainable solutions to many of the challenges facing Australia. The proposed research will help elucidate how plants regulate variation in gene expression rather than changes in the structure of encoded proteins. This is an area of gene expression, that has not been approached before, that explains the plant's ability to respond to external stimuli. Variation between plant species in the number of genes does not fully explain the differences between them. This information will come not from seqenceing genomes but from investigation of regulatory elements. Read moreRead less
Identification of genes controlling wood fibre properties in Eucalyptus nitens. Australian forestry is shifting to high intensity eucalypt plantations and increasingly focussing on development of breeds and clones with superior wood and pulp traits. Many of these traits are under moderate to strong genetic control and DNA markers have helped identify regions on eucalypt chromosomes that influence these traits. This project aims to identify the genes at these chromosomal locations that influence ....Identification of genes controlling wood fibre properties in Eucalyptus nitens. Australian forestry is shifting to high intensity eucalypt plantations and increasingly focussing on development of breeds and clones with superior wood and pulp traits. Many of these traits are under moderate to strong genetic control and DNA markers have helped identify regions on eucalypt chromosomes that influence these traits. This project aims to identify the genes at these chromosomal locations that influence wood fibre development and which have a strong influence on major commercial traits. The project will increase our understanding of wood and fibre development in eucalypts, and facilitate development of genetic markers to track superior genes during breeding.Read moreRead less
Unravelling the relationship between growth and wood properties in temperate eucalypts. The most important biological traits affecting profit in eucalypt plantations grown for pulpwood are growth, wood density and pulp yield. Shrinkage and collapse are important for timber production. Little information is available on the size and direction of the correlations between these traits, yet they are important in determining selection response in breeding as well as environmental impacts on pulp and ....Unravelling the relationship between growth and wood properties in temperate eucalypts. The most important biological traits affecting profit in eucalypt plantations grown for pulpwood are growth, wood density and pulp yield. Shrinkage and collapse are important for timber production. Little information is available on the size and direction of the correlations between these traits, yet they are important in determining selection response in breeding as well as environmental impacts on pulp and sawlog yield. The collaborating growers and breeders have brought together a unique base of Eucalyptus globulus and E. nitens field trials that will allow an integrated quantitative and molecular genetic study of the interrelationships amongst these key profit traits.Read moreRead less
Genetic association studies of fundamental wood fibre components in Pinus radiata resource populations. Radiata pine is Australia's premiere softwood plantation species occupying in excess of one million hectares, contributing over $18 billion to Australia's GNP and providing employment to 130,000 Australians. With a trade deficit in forest and forest products of $1.85 billion, current massive plantation establishment efforts are in train to reverse this trend. These have to be backed by researc ....Genetic association studies of fundamental wood fibre components in Pinus radiata resource populations. Radiata pine is Australia's premiere softwood plantation species occupying in excess of one million hectares, contributing over $18 billion to Australia's GNP and providing employment to 130,000 Australians. With a trade deficit in forest and forest products of $1.85 billion, current massive plantation establishment efforts are in train to reverse this trend. These have to be backed by research into the factors that determine the base resource's quality, growth and sustainability. Results will lead to improved resource quality, increased productivity and new industrial opportunities, directly improving our trade position and releasing pressure on our native forest resources.Read moreRead less
Characterisation and selection of phytocompound and physical seed quality characters of chickpea (Cicer arietinum). To develop and expand both value and volume of the Australian market share for chickpea. Retention and expansion of existing markets will occur through improved seed physical traits such as size, colour and processing efficiency, whilst creation of new markets will be achieved through enhancing novel traits such as the level of phytocompounds. In collaboration with Victoria's Dep ....Characterisation and selection of phytocompound and physical seed quality characters of chickpea (Cicer arietinum). To develop and expand both value and volume of the Australian market share for chickpea. Retention and expansion of existing markets will occur through improved seed physical traits such as size, colour and processing efficiency, whilst creation of new markets will be achieved through enhancing novel traits such as the level of phytocompounds. In collaboration with Victoria's Department of Primary Industry staff, genes governing chickpea quality traits will be characterised through applying novel combinations of selection and analytical methods. A multidsciplinary team of plant breeders, grains chemists and molecular biologists will advance chickpea breeding in Australia by applying cutting-edge technologies.Read moreRead less
Seed quality and disease resistance trait mapping in lentil (Lens culinaris ssp. culinaris). To protect and increase our world lentil market share, the mission of the Australian lentil breeders is to develop lentil varieties with superior seed qualities. Three highly desirable seed quality traits are; fatter and larger shape, better splitting efficiency and resistance to blemishing by ascochyta blight infection. To speed up the development of varieties with these traits, the genetic loci governi ....Seed quality and disease resistance trait mapping in lentil (Lens culinaris ssp. culinaris). To protect and increase our world lentil market share, the mission of the Australian lentil breeders is to develop lentil varieties with superior seed qualities. Three highly desirable seed quality traits are; fatter and larger shape, better splitting efficiency and resistance to blemishing by ascochyta blight infection. To speed up the development of varieties with these traits, the genetic loci governing them will be characterised and closely associated molecular markers identified. Markers will be validated for their use in marker-assisted breeding programs via back-crossing and field and glass house testing.Read moreRead less
Pyramiding ascochyta blight (A. rabiei) resistance in chickpea. Ascochyta blight (A. rabiei) is the most devastating disease that affects chickpea production in Australia. This project will produce enhanced chickpea breeding germplasm with sustainable resistance to ascochyta blight. This will be achieved through the enrichment of highly informative genome linkage maps and the development of molecular markers closely associated with novel resistance genes. Markers will be used to screen backcross ....Pyramiding ascochyta blight (A. rabiei) resistance in chickpea. Ascochyta blight (A. rabiei) is the most devastating disease that affects chickpea production in Australia. This project will produce enhanced chickpea breeding germplasm with sustainable resistance to ascochyta blight. This will be achieved through the enrichment of highly informative genome linkage maps and the development of molecular markers closely associated with novel resistance genes. Markers will be used to screen backcrossed populations for novel resistance in order to pyramid the genes involved. The most resistant lines, to all of the A. rabiei pathotypes, will be selected for use in future resistance breeding programs.Read moreRead less