In vitro propagation (through somatic embryogenesis) of rush and sedge species important for land rehabilitation. This project aims to transform existing propagation methods for rushes and sedges (recalcitrant, but key colonizer species) for restoring critical biodiversity in Australian mine-site restoration. This will be achieved through the process of somatic embryogenesis and will result in cost effective and efficient mass propagation. Significantly, this somatic embryogenesis research will ....In vitro propagation (through somatic embryogenesis) of rush and sedge species important for land rehabilitation. This project aims to transform existing propagation methods for rushes and sedges (recalcitrant, but key colonizer species) for restoring critical biodiversity in Australian mine-site restoration. This will be achieved through the process of somatic embryogenesis and will result in cost effective and efficient mass propagation. Significantly, this somatic embryogenesis research will provide the springboard for development of seed analogues (coated, desiccated somatic embryos) with subsequent economies from bypassing more costly nursery production of whole plants, utilizing existing infrastructure for direct seeding of restoration sites, and reducing dependence on dwindling reserves of wild-harvested seed.Read moreRead less
Profitable plantations of blue mallee for essential oil production. This project will develop the methods and knowledge required for establishing plantations of eucalypts (blue mallee) with very high and economically viable yields of eucalyptus oil. It is expected that the research will underpin an expansion of the essential oil industry both in Victoria and elsewhere in Australia.
Understanding and manipulating stress physiology of eucalypt seedlings to improve survival and growth. Eucalyptus globulus and E. nitens are the major species being established to meet the 2020 Vision (Anon 1999) of trebling Australia's plantation estate. Seedling mortality and/or reduced growth after planting, linked to the transition from ideal growing conditions in the nursery to stressful conditions (high drought and browsing risk) at the planting sites, significantly increase the costs of ....Understanding and manipulating stress physiology of eucalypt seedlings to improve survival and growth. Eucalyptus globulus and E. nitens are the major species being established to meet the 2020 Vision (Anon 1999) of trebling Australia's plantation estate. Seedling mortality and/or reduced growth after planting, linked to the transition from ideal growing conditions in the nursery to stressful conditions (high drought and browsing risk) at the planting sites, significantly increase the costs of plantation production. By investigating physiological mechanisms of seedlings and their responses to drought and browsing stress during establishment in the field, methods for the production of seedlings acclimated to drought or browsing stress will be developed. The research outcomes will help maximise the financial return on over $28 M per annum being invested by the 8 project partners in seedling production and planting over 80, 000 ha per year for the next 19 years to meet the requirements of Vision 2020.Read moreRead less
Maximising the essential oil yield of blue mallee plantations. Felton, Grimwade and Bickford Pty Ltd will collaborate with us to develop plant material and methods for establishing profitable plantations of blue mallee (Eucalyptus polybractea) for eucalyptus oil production. This is important because, as a result of recent legislation, the forest patches currently used in oil production will soon be unavailable to the company. We will also investigate the physiological and biochemical mechanism ....Maximising the essential oil yield of blue mallee plantations. Felton, Grimwade and Bickford Pty Ltd will collaborate with us to develop plant material and methods for establishing profitable plantations of blue mallee (Eucalyptus polybractea) for eucalyptus oil production. This is important because, as a result of recent legislation, the forest patches currently used in oil production will soon be unavailable to the company. We will also investigate the physiological and biochemical mechanisms underlying oil quality and quantity in blue mallee. This knowledge will assist the industry in the longer term by allowing them to improve and modify their products in response to changes in market demands.Read moreRead less
Developing eucalypt plantations for pharmaceutical flavanone production. The project aims to produce the tools and knowledge required to establish plantations of mallee eucalypts for the production of pinocembrin and structurally related flavanones. This is important because these flavanones have been shown to have a range of medicinal applications, including treatment of diseases of the central nervous system. The research plans to focus on producing and establishing trees with improved flavano ....Developing eucalypt plantations for pharmaceutical flavanone production. The project aims to produce the tools and knowledge required to establish plantations of mallee eucalypts for the production of pinocembrin and structurally related flavanones. This is important because these flavanones have been shown to have a range of medicinal applications, including treatment of diseases of the central nervous system. The research plans to focus on producing and establishing trees with improved flavanone content and growth rates, and on understanding the biochemical mechanisms that underlie flavanone production and structural modification. Expected outcomes include supporting the development of profitable plantations in rural Australia and the establishment of plantations more widely in southern Australia, especially on marginal land.Read moreRead less
Enhancing the essential oil yield of clonal blue mallee plantations. Production of high quality eucalyptus oil in Victoria involves sustainable harvesting of foliage from public land. A recent review of land use by the Victorian Government has required that, over the next few years, oil producers move their harvesting operations into plantations on private land. This project will assist producers by developing methods for establishing plantations of eucalypts (blue mallee) with very high and e ....Enhancing the essential oil yield of clonal blue mallee plantations. Production of high quality eucalyptus oil in Victoria involves sustainable harvesting of foliage from public land. A recent review of land use by the Victorian Government has required that, over the next few years, oil producers move their harvesting operations into plantations on private land. This project will assist producers by developing methods for establishing plantations of eucalypts (blue mallee) with very high and economically viable yields of eucalyptus oil. This research will help restore Victoria's position as one of the major producers of high quality eucalyptus oil. Read moreRead less
Adding value to blue mallee plantations. The project aims to develop the tools and knowledge required for establishing and enhancing the profitability of plantations of blue mallee (Eucalyptus polybractea). This is important because mallees have considerable potential for sustainable essential oil and biomass production in low rainfall regions, and they can sequester considerable amounts of carbon in their below-ground parts. The project intends to produce trees with improved oil quality and yie ....Adding value to blue mallee plantations. The project aims to develop the tools and knowledge required for establishing and enhancing the profitability of plantations of blue mallee (Eucalyptus polybractea). This is important because mallees have considerable potential for sustainable essential oil and biomass production in low rainfall regions, and they can sequester considerable amounts of carbon in their below-ground parts. The project intends to produce trees with improved oil quality and yields through chromosome doubling and breeding, and to dissect the mechanisms that underpin essential oil production through the production of mutants and studies of the main monoterpene producing enzyme.Read moreRead less
Mixed species plantations: does diversity help tropical eucalypts grow faster, better, longer? To test the assumption that mixtures are better than monocultures, using data from experiments (QFRI) and community plantings. Growth rate, habit (form, branching), timber and soil characteristics in Eucalyptus pellita (Red Mahogany) plantings should elucidate whether mixtures:
1. grow (above-ground woody biomass) faster than pure plantings;
2. have straighter trees with smaller branches;
3. improve ....Mixed species plantations: does diversity help tropical eucalypts grow faster, better, longer? To test the assumption that mixtures are better than monocultures, using data from experiments (QFRI) and community plantings. Growth rate, habit (form, branching), timber and soil characteristics in Eucalyptus pellita (Red Mahogany) plantings should elucidate whether mixtures:
1. grow (above-ground woody biomass) faster than pure plantings;
2. have straighter trees with smaller branches;
3. improve soil fertility; and whether
4. differences are accentuated in subsequent rotations.
E. pellita has valuable dark-red timber, and is widely planted in north Queensland, despite variable performance (3-30 m3/ha/yr, average 10m3/ha/yr). Analyses will reveal opportunities for conservation outcomes and sustainable timber production.Read moreRead less
Forest ecosystem diversity, function and service in response to perturbations: the key regulatory role of biogeochemical cycling. The natural and anthropogenic perturbations such as elevated atmospheric carbon dioxide (CO2), nitrogen(N) deposition, fires and land contamination have transformed much of the land surface on the earth and significantly modified terrestrial biogeochemical cycles in the past century. This project seeks to develop and apply novel nuclear magnetic resonance spectroscopy ....Forest ecosystem diversity, function and service in response to perturbations: the key regulatory role of biogeochemical cycling. The natural and anthropogenic perturbations such as elevated atmospheric carbon dioxide (CO2), nitrogen(N) deposition, fires and land contamination have transformed much of the land surface on the earth and significantly modified terrestrial biogeochemical cycles in the past century. This project seeks to develop and apply novel nuclear magnetic resonance spectroscopy, isotopic and bio-molecular techniques to examine the key role of interactive biogeochemical cycles of carbon and major elements (N, Phosphorous) in regulating forest ecosystem responses to these perturbations. This project will result in improved mitigation and adaptation strategies for such perturbations, thereby restoring and sustaining forest ecosystems and conserving biodiversity in natural ecosystems.Read moreRead less
Enhancing natural enemy mortality of chrysomelids in young eucalypt plantations through habitat manipulation. Eucalyptus plantations are the future of Australian forestry. In eucalypt plantations leaf-feeding beetles reduce tree growth by an average of 53%, substantially reducing profits. Sustainable management of these pests is best done by maximising the impact of native beneficial agents, eg wasps and spiders. This research will quantify the beneficial insects in plantations and increase ....Enhancing natural enemy mortality of chrysomelids in young eucalypt plantations through habitat manipulation. Eucalyptus plantations are the future of Australian forestry. In eucalypt plantations leaf-feeding beetles reduce tree growth by an average of 53%, substantially reducing profits. Sustainable management of these pests is best done by maximising the impact of native beneficial agents, eg wasps and spiders. This research will quantify the beneficial insects in plantations and increase their efficacy by manipulating the plantation environment so it provides more of the resources (food & shelter) these beneficials require. This approach is significant as it has not been previously attempted in forestry. Our management recommendations will make the plantation sector more profitable and sustainable.Read moreRead less