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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
Discovery of the molecular mode of action of karrikins in plants. Karrikins are a newly-discovered family of naturally-occurring plant growth regulators that stimulate seed germination and seedling vigour. They were discovered in smoke and while they are centrally important in fire ecology they have far wider significance since species from non-fire-prone regions also respond to karrikins. Our research will discover how karrikins work at the molecular level in plant cells. Our discoveries will b ....Discovery of the molecular mode of action of karrikins in plants. Karrikins are a newly-discovered family of naturally-occurring plant growth regulators that stimulate seed germination and seedling vigour. They were discovered in smoke and while they are centrally important in fire ecology they have far wider significance since species from non-fire-prone regions also respond to karrikins. Our research will discover how karrikins work at the molecular level in plant cells. Our discoveries will be applied to improve growth of crop plants, to stimulate germination of weeds so that they can be eradicated, and in restoration ecology to revegetate degraded land such as minesites. Australia's world-leading position in this new important research area will be enhanced.Read moreRead less
Functional diversity in root systems that are critical for water and nutrient acquisition by Australian monocotyledons. Specialised root structures facilitate water and nutrient acquisition in grass-like sedges, a major vegetation type on nutrient-poor, intensely weathered soils in Australia. The project will enhance our understanding of key root structures and functional traits for water and nutrient acquisition in various habitats. The identification of such structures and traits will contribu ....Functional diversity in root systems that are critical for water and nutrient acquisition by Australian monocotyledons. Specialised root structures facilitate water and nutrient acquisition in grass-like sedges, a major vegetation type on nutrient-poor, intensely weathered soils in Australia. The project will enhance our understanding of key root structures and functional traits for water and nutrient acquisition in various habitats. The identification of such structures and traits will contribute to Australia's excellent international reputation in this discipline. Increased fundamental insight into the strategies of perennial monocotyledons in Australian ecosystems will be directly relevant to difficult cases of landscape restoration on skeletal soils with widely varying water availability and thus addresses the National Research Priority: An Environmentally Sustainable Australia.Read moreRead less
Functional characterisation of novel transport protein in plants. The products of plants provide the food we eat, the air we breath and it is recognised that they play an integral role in defining and protecting the environment. Thus it is essential to understand how plant work to allow their use in novel applications and to adapt to changing environments. Many aspects of plant metabolism are unique to plants and thus we cannot guess or estimate importance from studies in animals or fungi. Appro ....Functional characterisation of novel transport protein in plants. The products of plants provide the food we eat, the air we breath and it is recognised that they play an integral role in defining and protecting the environment. Thus it is essential to understand how plant work to allow their use in novel applications and to adapt to changing environments. Many aspects of plant metabolism are unique to plants and thus we cannot guess or estimate importance from studies in animals or fungi. Approximately 4,000 proteins are specific to plants, or contain domains that are unique to plants. This investigation proposes to elucidate the function of some of these novel proteins, transporters, that play a critical role in transport processes in cells.Read moreRead less