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How plants produce their biomass. This project aims to investigate mechanisms that underpin the formation of secondary walls, the bulk of biomass in plant cells. Plant cell walls are essential for plant growth and provide great raw materials for many industrial products. Understanding how cell walls are made would enable tailored plant biomass production, but understanding remains poor. The project will induce secondary walls at will and outline a framework for how secondary walls are made. The ....How plants produce their biomass. This project aims to investigate mechanisms that underpin the formation of secondary walls, the bulk of biomass in plant cells. Plant cell walls are essential for plant growth and provide great raw materials for many industrial products. Understanding how cell walls are made would enable tailored plant biomass production, but understanding remains poor. The project will induce secondary walls at will and outline a framework for how secondary walls are made. The outcomes are expected to be relevant for the fuel, feed, food and construction sectors, and thus to Australia's future.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120101562
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Quantifying the contribution of leaf vein networks to the leaf economics spectrum in native and agricultural species. Using a combination of eco-physiological and geometric measures this project will evaluate the influence of leaf vein networks on leaf economics. It is expected that this work will identify vein investment and network design as major sources of variability underlying species adaptive strategies, and the global leaf economics spectrum as a whole.
Biology of flowering plant male gametic cells in relation to fertilization. The world food supply is primarily dependent on plants. The continuation of an adequate food supply depends upon the success of fertilization that involves the fusion of the sperm cell with the egg cell. The entire process of fertilization can be manipulated once the specific molecules involved in its regulation have been identified. This project deals with the discovery of male gamete biomolecules involved in fertili ....Biology of flowering plant male gametic cells in relation to fertilization. The world food supply is primarily dependent on plants. The continuation of an adequate food supply depends upon the success of fertilization that involves the fusion of the sperm cell with the egg cell. The entire process of fertilization can be manipulated once the specific molecules involved in its regulation have been identified. This project deals with the discovery of male gamete biomolecules involved in fertilization. The knowledge obtained will have potential applications in developing novel breeding technologies for improved crop plants.Read moreRead less
Improving plant productivity and human health using next generation biotechnology approaches. Both medical and plant sciences face similar technological problems in harnessing the power of modern DNA sequencing for accelerating the pace of beneficial gene function discovery. Plant and animal researchers will collaborate in this program to meet this common challenge. The research outcomes envisaged in this proposal will benefit human health by enabling more rapid discovery of genes related to obe ....Improving plant productivity and human health using next generation biotechnology approaches. Both medical and plant sciences face similar technological problems in harnessing the power of modern DNA sequencing for accelerating the pace of beneficial gene function discovery. Plant and animal researchers will collaborate in this program to meet this common challenge. The research outcomes envisaged in this proposal will benefit human health by enabling more rapid discovery of genes related to obesity, immunity, fertility, neurological function and cancer. In the plant sphere, the outcomes will shed new light on plant functions related to plant energy metabolism, vitamin biosynthesis drought tolerance and water use by crops. The research will benefit both human health and agricultural food production and quality.Read moreRead less
Functional analysis of novel mitochondrial outer membrane proteins in Arabidopsis. Mitochondria play central roles in the life and death of cells. This project will characterise the functions of proteins on the mitochondrial surface, which mediate signals that define mitochondrial function, providing novel approaches to modify mitochondrial function and plant growth.
Re-balancing global resources: Manipulating toxic prussic acid (dhurrin) to improve nitrogen use efficiency in forage sorghum in a changing climate. Sorghum is grown widely is Australia and world-wide for forage, grain (mostly for animal feed) and biofuels. It grows well in dry areas. The problem is that the leaves contain a toxin that releases prussic acid (cyanide) that can reduce animal production or even kill stock feeding on it, especially when water stressed. The problem will get worse wit ....Re-balancing global resources: Manipulating toxic prussic acid (dhurrin) to improve nitrogen use efficiency in forage sorghum in a changing climate. Sorghum is grown widely is Australia and world-wide for forage, grain (mostly for animal feed) and biofuels. It grows well in dry areas. The problem is that the leaves contain a toxin that releases prussic acid (cyanide) that can reduce animal production or even kill stock feeding on it, especially when water stressed. The problem will get worse with climate change. Low-cyanide plants developed by us using non-GM methods grow fast, but accumulate nitrate instead which is also toxic. This is a waste of expensive fertiliser too. We aim to develop plants that divert resources to growth instead of toxins in order to reduce fertiliser use and help prepare for the future. The fast growing plants may also be useful as a biofuel crop.Read moreRead less
A novel DNA motif involved in plant mitochondrial stress responses. The future of Australia's agriculture is threatened by limited water resources, temperature extremes and soil salinity. This project aims to unravel how plants are able to adapt to this continuously changing environment, by focusing on the role of mitochondria - cellular compartments essential for energy metabolism and plant stress responses.
The response of mitochondria to oxidative stress in plants. Crops encounter many situations in their environment which place them under stress. Reactive oxygen molecules produced in these situations act as messengers to trigger defence mechanisms but also cause cellular damage. Mitochondria are the subcellular compartments involved in energy production and are essential for plant development and growth. However, they also have been implicated in the response of plants to stress and pathogen atta ....The response of mitochondria to oxidative stress in plants. Crops encounter many situations in their environment which place them under stress. Reactive oxygen molecules produced in these situations act as messengers to trigger defence mechanisms but also cause cellular damage. Mitochondria are the subcellular compartments involved in energy production and are essential for plant development and growth. However, they also have been implicated in the response of plants to stress and pathogen attack, and in production of reactive oxygen molecules. This proposal seeks to investigate how mitochondria are involved in these processes, focusing on the role of terminal oxidases. Potential outcomes include crops better able to cope with environmental stress.Read moreRead less
Epidemiology of Phoma spp. complex and other foliar pathogens affecting pyrethrum. We will quantify the spectrum of fungal plant pathogens found on pyrethrum (Tanacetum cineariifolium L.) foliage and their relative impact on yield and pyrethrin assay. For those fungi having a significant impact on production (such as Phoma ligulicola) we will conduct detailed epidemiological studies to determine how disease levels change with environmental parameters and geographical factors. This study will a ....Epidemiology of Phoma spp. complex and other foliar pathogens affecting pyrethrum. We will quantify the spectrum of fungal plant pathogens found on pyrethrum (Tanacetum cineariifolium L.) foliage and their relative impact on yield and pyrethrin assay. For those fungi having a significant impact on production (such as Phoma ligulicola) we will conduct detailed epidemiological studies to determine how disease levels change with environmental parameters and geographical factors. This study will adapt radiometric technology for disease assessment in pyrethrum, and develop predictive models for disease development based on environmental conditions and furthermore, assess the effect of simulated climate change events on disease severity in the future.Read moreRead less
Towards a durable management strategy for ray blight in Tasmanian pyrethrum crops. This project will take a multi-factorial approach to the identification of edaphic factors and their collinearity for the prediction of foliar disease caused by the fungus, Phoma ligulicola in Tasmanian pyrethrum crops. This will allow implementation of a decision support system whereby disease management options may be weighed against site specific risk. Alternative management strategies to the current fungicid ....Towards a durable management strategy for ray blight in Tasmanian pyrethrum crops. This project will take a multi-factorial approach to the identification of edaphic factors and their collinearity for the prediction of foliar disease caused by the fungus, Phoma ligulicola in Tasmanian pyrethrum crops. This will allow implementation of a decision support system whereby disease management options may be weighed against site specific risk. Alternative management strategies to the current fungicide based system for control will also be assessed for their efficacy and role in mitigating site risk. The effect of cultural control methods such as cultivar mixtures and host resistance will be modelled on the spatio-temporal characteristics of the epidemic and compared to these in naturally occurring epidemics at specific sites.Read moreRead less