Australian rushes: unearthing the function of root clusters and sand-binding roots. Unearthing the functioning of highly specialised root structures provides fundamental insights into the role of native rush plants in south-western Australian ecosystems and addresses a major issue with Australia's biodiversity, currently a Priority area for the ARC. Native rushes form a prominent but inconspicuous component of the Australian 'grass-like' flora, accounting for more than half the plant biomass on ....Australian rushes: unearthing the function of root clusters and sand-binding roots. Unearthing the functioning of highly specialised root structures provides fundamental insights into the role of native rush plants in south-western Australian ecosystems and addresses a major issue with Australia's biodiversity, currently a Priority area for the ARC. Native rushes form a prominent but inconspicuous component of the Australian 'grass-like' flora, accounting for more than half the plant biomass on some landscapes. Rushes are also highly sensitive to small increments in nutrients in disturbed environments and thus form a management priority relating to their use in rehabilitation of degraded landscapes, such as mine sites and wetland margins. Read moreRead less
Spatio-temporal analysis of molecular changes during leaf senescence in arabidopsis and wheat and their response to the environment. Innovative agricultural solutions in Australia can be gained by changing the abundance of proteins and metabolites to influence plant performance and provide more robust plants and plant products. The aging and dying of leaves (leaf senescence) is a key factor in our understanding of plant development and the recovery of nutrients from dying tissues. Leaf senescenc ....Spatio-temporal analysis of molecular changes during leaf senescence in arabidopsis and wheat and their response to the environment. Innovative agricultural solutions in Australia can be gained by changing the abundance of proteins and metabolites to influence plant performance and provide more robust plants and plant products. The aging and dying of leaves (leaf senescence) is a key factor in our understanding of plant development and the recovery of nutrients from dying tissues. Leaf senescence is also important for pre-harvest impacts on seed and grain quality as leaves represent the major nitrogen store remobilised to feed these plant products. This work will support the generation of intellectual property to be applied within Australia's plant-based industries and at the same time provides a strong environment for the training of students and researchers.Read moreRead less
The impact of water logging on mitochondrial metabolism in leaves and roots of Grey poplar. Water logging and flooding are seasonal occurrences in a variety of environments. These events cause various damage to environments, including damage to plants. The damage to plants has traditionally been associated with annuals, such as various crop species. However larger plants, i.e. trees, are also very susceptible to water-logging and flooding. As it can take from several years to decades for tress t ....The impact of water logging on mitochondrial metabolism in leaves and roots of Grey poplar. Water logging and flooding are seasonal occurrences in a variety of environments. These events cause various damage to environments, including damage to plants. The damage to plants has traditionally been associated with annuals, such as various crop species. However larger plants, i.e. trees, are also very susceptible to water-logging and flooding. As it can take from several years to decades for tress to be established it is important to understand how trees can withstand water-logging and flooding. As tree plantation are uses for commercial and environmental purposes this knowledge will be useful to a broad spectrum of users in the community.Read moreRead less
Regulation of ion homeostasis by two-component signalling elements. Dryland salinity is continuously claiming Australian lands and is a serious threat to our agricultural industry, native flora and fauna, and infrastructure. Attempting to feed an increasing population whilst agricultural land is disappearing, places an ever-increasing burden on our remaining land. While there is no simple solution to this problem, understanding how plants regulate cellular ion concentrations will help to generat ....Regulation of ion homeostasis by two-component signalling elements. Dryland salinity is continuously claiming Australian lands and is a serious threat to our agricultural industry, native flora and fauna, and infrastructure. Attempting to feed an increasing population whilst agricultural land is disappearing, places an ever-increasing burden on our remaining land. While there is no simple solution to this problem, understanding how plants regulate cellular ion concentrations will help to generate plants that are suitable for restoration of damaged lands or crop plants that are more tolerant to saline soils. Furthermore, knowledge acquired from the proposed project will also be useful for generating healthier crop plants with enhanced levels of ions essential for the human diet. Read moreRead less
The other half of the G-protein story: Functional analysis of the plant G-protein gamma subunits. It is now established that G-proteins are involved in the transduction of a number of important processes in plants (Cell division, stomata control, defence, light perception, etc). Nevertheless the data accumulated to date is based on the study of one of the two subunits (alpha) of the G-proteins. Almost nothing is known about the role of the second (and independent) subunit: beta-gamma. We will st ....The other half of the G-protein story: Functional analysis of the plant G-protein gamma subunits. It is now established that G-proteins are involved in the transduction of a number of important processes in plants (Cell division, stomata control, defence, light perception, etc). Nevertheless the data accumulated to date is based on the study of one of the two subunits (alpha) of the G-proteins. Almost nothing is known about the role of the second (and independent) subunit: beta-gamma. We will study for the first time the role of the beta-gamma subunit in plants. We will use a comprehensive approach combining biochemical, physiological, phenotypic, genomic and proteomic studies.Read moreRead less