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Protection of Botanical Innovation: A legal analysis of the scope and operation of national and international plant breeder's rights. Plants play a crucial role in Australian society: they are a major source of nutrition, shelter, clothing, fuel, medicines and aesthetic pleasure. They also make an important contribution to the Australian economy. The legislative regime established under the 1994 Plant Breeder's Rights Act was designed to promote research, investment and innovation in Australian ....Protection of Botanical Innovation: A legal analysis of the scope and operation of national and international plant breeder's rights. Plants play a crucial role in Australian society: they are a major source of nutrition, shelter, clothing, fuel, medicines and aesthetic pleasure. They also make an important contribution to the Australian economy. The legislative regime established under the 1994 Plant Breeder's Rights Act was designed to promote research, investment and innovation in Australian plant breeding. A lack of familiarity and widespread misunderstanding mean that the system is under-utilised with adverse consequences for plant innovation and Australia's economy. This groundbreaking research will provide a comprehensive analysis of plant breeder's rights in Australia to maximise understanding and awareness amongst key stakeholders.Read moreRead less
Australian native plant species as models for understanding the regulation and roles of betalain pigment synthesis. This project will have triple bottom line benefits. Economic: new cultivars developed from understanding betalains will sell worldwide, generating returns, incomes and employment in urban, peri-urban and rural Australia. Social: Novel Ptilotus and Calandrinia cultivars will adorn parks and gardens around Australia, thereby enhancing quality of life. Environmental: Ptilotus and Cala ....Australian native plant species as models for understanding the regulation and roles of betalain pigment synthesis. This project will have triple bottom line benefits. Economic: new cultivars developed from understanding betalains will sell worldwide, generating returns, incomes and employment in urban, peri-urban and rural Australia. Social: Novel Ptilotus and Calandrinia cultivars will adorn parks and gardens around Australia, thereby enhancing quality of life. Environmental: Ptilotus and Calandrinia are inherently drought resistant. Novel ornamental cultivars will have high water use efficiency and contribute to water conservation in urban Australia in the face of drought and global warming. Moreover, understanding their synthesis and roles could yield new strategies for enhancing stress tolerance in other species, including crop plants.Read moreRead less
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
A biological basis for the efficient breeding of native plants for export markets: a case study with the Australian Goodeniaceae. The native plant family Goodeniaceae exhibits enormous potential for the world potted-plant trade. To provide vital biological information for the efficient breeding of these plants, we will (i) determine the molecular evolutionary relationships of species, (ii) assess chromosomal variation within and among species, (iii) characterise mating patterns in natural popul ....A biological basis for the efficient breeding of native plants for export markets: a case study with the Australian Goodeniaceae. The native plant family Goodeniaceae exhibits enormous potential for the world potted-plant trade. To provide vital biological information for the efficient breeding of these plants, we will (i) determine the molecular evolutionary relationships of species, (ii) assess chromosomal variation within and among species, (iii) characterise mating patterns in natural populations using DNA fingerprinting for paternity analysis, (iv) develop techniques to overcome barriers to wide crossing, and (v) use DNA fingerprinting for the rapid identification of artificial hybrids. Expected outcomes are an understanding of evolution and mating in the Goodeniaceae and the efficient development of horticulturally significant materialRead moreRead less
Susceptibility to Phytophthora cinnamomi and sensitivity to phosphorus in native Australian plants: why are they linked? Phytophthora cinnamomi is the cause of "Phytophthora dieback", recognised by the Federal Government as a major threat to Australia's biodiversity. This project will enhance our understanding of interactions between species belonging to two iconic Australian plant families (Proteaceae and Myrtaceae) and this serious threat. This understanding will underpin the development of ....Susceptibility to Phytophthora cinnamomi and sensitivity to phosphorus in native Australian plants: why are they linked? Phytophthora cinnamomi is the cause of "Phytophthora dieback", recognised by the Federal Government as a major threat to Australia's biodiversity. This project will enhance our understanding of interactions between species belonging to two iconic Australian plant families (Proteaceae and Myrtaceae) and this serious threat. This understanding will underpin the development of new chemicals to be used in combating the pathogen. In addition, it will provide molecular markers for phosphorus insensitivity and Phytophthora resistance that will be vital for Australia's horticultural industry as well as for the successful rehabilitation of minesites in areas suffering from "Phytophthora dieback". Read moreRead less
The role of mycorrhizal fungi in nutrient supply and habitat specificity of the rare underground orchid (Rhizanthella gardneri). The underground orchid (Rhizanthella gardneri) is an extremely rare achlorophyllous myco-heterotroph that shares a mycorrhizal fungus with broom bush (Melaleuca uncinata). This project will investigate habitat requirements for R. gardneri and assess the orchid dependence on M. uncinata for carbon and nutrient supply. We will measure magnitude and timing of nutrient a ....The role of mycorrhizal fungi in nutrient supply and habitat specificity of the rare underground orchid (Rhizanthella gardneri). The underground orchid (Rhizanthella gardneri) is an extremely rare achlorophyllous myco-heterotroph that shares a mycorrhizal fungus with broom bush (Melaleuca uncinata). This project will investigate habitat requirements for R. gardneri and assess the orchid dependence on M. uncinata for carbon and nutrient supply. We will measure magnitude and timing of nutrient and carbon transfers between M. uncinata roots, fungal hyphae and R. gardneri using stable isotope techniques. This project will provide knowledge essential for conserving the underground orchid, a unique Australian plant, and other critically endangered orchids.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
Phytoremediation of arsenic contaminated sites using arsenic hyperaccumulating plants. The legacy of using arsenical compounds in pest control activities has resulted in many contaminated sites. Since the inorganic arsenic is carcinogenic, stringent laws have been enforced to control arsenic (As) in the environment. This project investigates the potential of using the recently discovered (Ma et al, 2001) arsenic hyperaccumulating (22,000 mgAs/kgDW) fern, Pteris vittata, in the removal of arsen ....Phytoremediation of arsenic contaminated sites using arsenic hyperaccumulating plants. The legacy of using arsenical compounds in pest control activities has resulted in many contaminated sites. Since the inorganic arsenic is carcinogenic, stringent laws have been enforced to control arsenic (As) in the environment. This project investigates the potential of using the recently discovered (Ma et al, 2001) arsenic hyperaccumulating (22,000 mgAs/kgDW) fern, Pteris vittata, in the removal of arsenic from dip sites and railway tracks in Qld, and orchards in northern NSW. The impacts of growing hyperaccumulating plants on grazing animals and the environment, and the disposal of arsenic from contaminated plants will also be studied.Read moreRead less
Development of novel forms of Marguerite Daisies (Argyranthemum species). Nuflora International Pty. Ltd. and its partners have developed a world class breeding program in marguerite daisies which has seen this formerly minor garden plant become an important commercial commodity in the international nursery industry, with sales of PBR protected varieties now topping ten million plants per year. However, further commercialization of this species into diverse international markets, such as the cut ....Development of novel forms of Marguerite Daisies (Argyranthemum species). Nuflora International Pty. Ltd. and its partners have developed a world class breeding program in marguerite daisies which has seen this formerly minor garden plant become an important commercial commodity in the international nursery industry, with sales of PBR protected varieties now topping ten million plants per year. However, further commercialization of this species into diverse international markets, such as the cut flower market, is limited by the level of genetic diversity in the gene pool available to breeders. This project seeks to greatly expand the level of genetic variability in marguerite daisies through inter-specific hybridization, mutation and chromosome engineering.Read moreRead less
Exploring the genetic and functional diversity nexus in ericoid mycorrhizal and related symbioses. Epacrids are important components of the Australian flora and several are considered threatened, yet we know relatively little regarding the importance of ericoid mycorrhizal fungal diversity to their survival. The proposed work will provide essential information on the functional significance of ericoid mycorrhizal endophyte diversity in the growth and survival of epacrids. It will further lead to ....Exploring the genetic and functional diversity nexus in ericoid mycorrhizal and related symbioses. Epacrids are important components of the Australian flora and several are considered threatened, yet we know relatively little regarding the importance of ericoid mycorrhizal fungal diversity to their survival. The proposed work will provide essential information on the functional significance of ericoid mycorrhizal endophyte diversity in the growth and survival of epacrids. It will further lead to improved propagation of epacrids and better informed decisions for sustainable management of Australian native vegetation.Read moreRead less