Soil physical limitations to growth in sub-tropical hardwood plantations. Large areas of eucalypt plantations are being established to replace native forest wood production in many areas of Australia. A major impediment facing the industry in subtropical eastern Australia is inappropriate site species matching. This is largely due to lack of understanding of the major soil types in the region and the effect on growth of different species. This project will compare site productivity and soil ch ....Soil physical limitations to growth in sub-tropical hardwood plantations. Large areas of eucalypt plantations are being established to replace native forest wood production in many areas of Australia. A major impediment facing the industry in subtropical eastern Australia is inappropriate site species matching. This is largely due to lack of understanding of the major soil types in the region and the effect on growth of different species. This project will compare site productivity and soil characteristics in two major hardwood species and investigate fundamental relationships between soil characteristics and tree root growth. The outcome will be a mechanistic understanding of soil physical limitations to tree growth.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
Risk, impact on productivity and control of Mycosphaerella infections in plantations in plantations of E. nitens and E. globulus. Mycosphaerella, a defoliating fungal pathogen of eucalypts, has the potential to change markedly the economics of plantation development. This research will explore the fundamental physiological and pathological processes associated with the disease, link these findings into established process-based models of forest plantation growth for predictive purposes and util ....Risk, impact on productivity and control of Mycosphaerella infections in plantations in plantations of E. nitens and E. globulus. Mycosphaerella, a defoliating fungal pathogen of eucalypts, has the potential to change markedly the economics of plantation development. This research will explore the fundamental physiological and pathological processes associated with the disease, link these findings into established process-based models of forest plantation growth for predictive purposes and utilise hyperspectral remote sensing techniques to scale impact from the tree to plantation level. In doing this research not only are questions of key importance to an important and growing industry sector addressed, but an innovative approach to disease impact assessment established and a skills base and methodology widely applicable to other tree and agricultural disease problems established.Read moreRead less
Determining generic indicators of stress in eucalypt leaves for application to the remote sensing of canopy condition and productivity modelling. Biotic and abiotic stresses induce generic alterations of leaf chemistry (e.g. chlorophyll, anthocyanins). We will explore the behaviour of eucalypt leaf reflectance to changes in leaf cellular chemistry and structure arising from exposure to a range of stressful factors. We will relate leaf reflectance to physiological processes using a research radia ....Determining generic indicators of stress in eucalypt leaves for application to the remote sensing of canopy condition and productivity modelling. Biotic and abiotic stresses induce generic alterations of leaf chemistry (e.g. chlorophyll, anthocyanins). We will explore the behaviour of eucalypt leaf reflectance to changes in leaf cellular chemistry and structure arising from exposure to a range of stressful factors. We will relate leaf reflectance to physiological processes using a research radiation interception model. We will report on a) the potential integration of data related to stress, into process-based models for eucalypt plantation growth and b) the exploitation of generic reflectance indicators of stress in the remote acquisition of high resolution multispectral imagery with potential to spatially quantify plantation eucalypt health.Read moreRead less
Hoop pine nitrogen and water use efficiency: improving the understanding and management with advanced stable isotope, physiological and molecular techniques. This project represents the first attempt to integrate the use of innovative stable isotope, physiological and molecular techniques for improving the understanding and management of genetic and environmental factors regulating hoop pine nitrogen use efficiency (NUE) and water use efficiency (WUE). The successful conduct of the project will ....Hoop pine nitrogen and water use efficiency: improving the understanding and management with advanced stable isotope, physiological and molecular techniques. This project represents the first attempt to integrate the use of innovative stable isotope, physiological and molecular techniques for improving the understanding and management of genetic and environmental factors regulating hoop pine nitrogen use efficiency (NUE) and water use efficiency (WUE). The successful conduct of the project will result in improved stable isotope, physiological and molecular techniques for NUE and WUE studies; improved understanding and management of hoop pine NUE and WUE for enhancing plantation productivity; and successful training of a high-calibre postgraduate student and sustaining a pool of world-class researchers to meet the needs of Australian forest industry.Read moreRead less
Understanding plant uptake of organic and inorganic nitrogen for optimal fertiliser application in forestry. Nitrogen (N) in soils occurs in both organic and inorganic forms. Plants can take up inorganic N - nitrate and ammonium - but, on average, these account for only 5% of the soluble N in soils. Recent evidence suggests that plants may be able to tap into some of the 95% of N that occurs in organic forms. We will investigate the importance of organic N uptake for two plantation Eucalyptus sp ....Understanding plant uptake of organic and inorganic nitrogen for optimal fertiliser application in forestry. Nitrogen (N) in soils occurs in both organic and inorganic forms. Plants can take up inorganic N - nitrate and ammonium - but, on average, these account for only 5% of the soluble N in soils. Recent evidence suggests that plants may be able to tap into some of the 95% of N that occurs in organic forms. We will investigate the importance of organic N uptake for two plantation Eucalyptus species by tracing the uptake of different N forms by bacteria, fungi and eucalypts. This information will redefine what is meant by 'available N' and will guide the development of a new test for soil N status.Read moreRead less
Linking environmental stress in pine plantations to bark stripping by browsers and fungal attack: developing novel options for management. The Australian forest industry, under the pressure of certification requirements, is moving towards a more integrated, reduced chemical, environmentally sustainable approach to protecting forest. Novel insights into the stress biology of pine will provide valuable information that will underpin efforts to reduce risk e.g. the matching of specific genotypes to ....Linking environmental stress in pine plantations to bark stripping by browsers and fungal attack: developing novel options for management. The Australian forest industry, under the pressure of certification requirements, is moving towards a more integrated, reduced chemical, environmentally sustainable approach to protecting forest. Novel insights into the stress biology of pine will provide valuable information that will underpin efforts to reduce risk e.g. the matching of specific genotypes to site so that pest resistance can be maintained even under environmental stress conditions. By understanding the 'attraction' factor of stressed pine to wallabies we will develop and test an urgently and nationally required diversionary feed for this browser. Lethal control involving poison is becoming increasingly restricted.Read moreRead less
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
Guiding early silvicultural interventions through predicting canopy and crown dynamics in plantations of sub-tropical eucalypts. This project aims to establish the scientific basis for silvicultural treatments of eucalypt plantations for clear wood production. While eucalypt plantations in north-eastern NSW have dramatically increased in recent times, the knowledge base for the production clear, branch-free wood from the tree species used does not exist. A physiological, mechanistic understandin ....Guiding early silvicultural interventions through predicting canopy and crown dynamics in plantations of sub-tropical eucalypts. This project aims to establish the scientific basis for silvicultural treatments of eucalypt plantations for clear wood production. While eucalypt plantations in north-eastern NSW have dramatically increased in recent times, the knowledge base for the production clear, branch-free wood from the tree species used does not exist. A physiological, mechanistic understanding of crown and canopy dynamics as well as branch shedding will form the scientific foundation for stand manipulations such as pruning and thinning to enhance wood quality. Project outcomes will provide the basis for a stand management simulation model for the most important eucalypt species.Read moreRead less
Organisation and function of embedded oil glands in eucalypts. Some eucalypt leaves contain large quantities of essential oils, which have been extracted for commercial purposes for many years. Advancement of this industry, however, requires basic research directed at enhancing both the yield of oil and the range of valuable constituents. This project will make use of a new protocol for isolating and purifying the foliar oil-producing glands to identify a new suite of oil gland constituents and ....Organisation and function of embedded oil glands in eucalypts. Some eucalypt leaves contain large quantities of essential oils, which have been extracted for commercial purposes for many years. Advancement of this industry, however, requires basic research directed at enhancing both the yield of oil and the range of valuable constituents. This project will make use of a new protocol for isolating and purifying the foliar oil-producing glands to identify a new suite of oil gland constituents and to understand the way in which they are made and deployed in the gland. The research will also contribute to our general understanding of oil gland structure and function.Read moreRead less