Rebuilding Sustainable and Functional Biodiversity following Coal Mining. Open-cut mines are a significant land-use in Australia and generate considerable GDP. Poor management prior to mining has caused much topsoil to be lost and microbes vital to sustainable nutrient cycling reduced to <10% that of a sustainable forest. To address this problem we are developing a rehabilitation model using Mount Owen open-cut coal mine which passes through a Upper Hunter forest. This project will discover ways ....Rebuilding Sustainable and Functional Biodiversity following Coal Mining. Open-cut mines are a significant land-use in Australia and generate considerable GDP. Poor management prior to mining has caused much topsoil to be lost and microbes vital to sustainable nutrient cycling reduced to <10% that of a sustainable forest. To address this problem we are developing a rehabilitation model using Mount Owen open-cut coal mine which passes through a Upper Hunter forest. This project will discover ways of utilizing microbe-derived nitrogen vital to a sustainable supply for native forests. Our aim is to reestablish these microbes in mine soils and determine their impact on forest community development.Read moreRead less
How does soil fertility affect jarrah forest rehabilitation after mining? This project will examine the effect of fertiliser additions on the species composition and functional diversity of jarrah forest that develops after bauxite-mining. It is directly relevant to the achievement of the sustainable use of natural resources in Australia. Expected outcomes are best-practice management guidelines regarding the amount of fertiliser that results in the most effective achievement of completion cri ....How does soil fertility affect jarrah forest rehabilitation after mining? This project will examine the effect of fertiliser additions on the species composition and functional diversity of jarrah forest that develops after bauxite-mining. It is directly relevant to the achievement of the sustainable use of natural resources in Australia. Expected outcomes are best-practice management guidelines regarding the amount of fertiliser that results in the most effective achievement of completion criteria, and also an improved understanding of the consequences of fertiliser application on the biodiversity (plants and soil biota) and ecosystem function of rehabilitated forest ecosystems. Read moreRead less
The evolution and maintenance of specificity, mutualism and diversity in plant-soil microbe interactions. This research will significantly advance knowledge regarding the evolution of mutualisms between plant and soil microbes. Results will provide valuable data on the importance of below-ground microbial community structure to growth and productivity of an ecologically important component of the Australian flora (Acacia spp.), and contribute to the development of best ecosystem restoration prac ....The evolution and maintenance of specificity, mutualism and diversity in plant-soil microbe interactions. This research will significantly advance knowledge regarding the evolution of mutualisms between plant and soil microbes. Results will provide valuable data on the importance of below-ground microbial community structure to growth and productivity of an ecologically important component of the Australian flora (Acacia spp.), and contribute to the development of best ecosystem restoration practices. Furthermore, it will see the continued development of the Acacia-rhizobia system as a world-class model for exploring interactions between perennial legumes and microbial symbionts. The research also investigates the adaptability and potential for rapid evolution of critical elements of the soil microflora to environmental change.Read moreRead less
Development of cryopreservation for high value provenance collections of recalcitrant plant species used in post-mining restoration. This project will develop new and innovative ways to store highly valued native plant germplasm at ultra cold temperatures (-196 °C, in liquid nitrogen) as a means to ensure that elite genotypes used in minesite restoration and critically endangered species are not lost forever to extinction. This project will be the first of its type in Australia utilising a multi ....Development of cryopreservation for high value provenance collections of recalcitrant plant species used in post-mining restoration. This project will develop new and innovative ways to store highly valued native plant germplasm at ultra cold temperatures (-196 °C, in liquid nitrogen) as a means to ensure that elite genotypes used in minesite restoration and critically endangered species are not lost forever to extinction. This project will be the first of its type in Australia utilising a multidisciplinary approach to answer key storage questions and will provide significant national benefits to conservation programs and landcare groups, providing these with additional resources to ensure the long-term survival of native plant germplasm collections. Read moreRead less
Does the timing and frequency of transient pollution events affect sessile marine invertebrates? Disturbances play a fundamental role in many coastal ecosystems, and understanding how they act is central to managing coastal areas. Humans are a major source of disturbances, especially through the controlled and accidental input of toxicants. Managing these inputs requires an understanding of how the timing and frequency of pollution events affect the animals exposed to these substances. I will ....Does the timing and frequency of transient pollution events affect sessile marine invertebrates? Disturbances play a fundamental role in many coastal ecosystems, and understanding how they act is central to managing coastal areas. Humans are a major source of disturbances, especially through the controlled and accidental input of toxicants. Managing these inputs requires an understanding of how the timing and frequency of pollution events affect the animals exposed to these substances. I will use a new field dosing system to determine these relationships, using copper, a common pollutant, as a model. The results will provide a broader understanding of the role of disturbance and produce a predictive model applicable to other pollutants.Read moreRead less
Novel approaches to ecologically sustainable and safe rehabilitation of gold mine tailings. Gold is a major export commodity for Australia and the gold mining industry provides employment and infrastructure for rural Australian communities. However, gold is often found in arsenopyrite rich ore bodies which, after the extraction process, have the potential to release toxic quantities of arsenic into the environment. The University of Melbourne, Stawell Gold Mines P/L. and Native Seeds P/L. are co ....Novel approaches to ecologically sustainable and safe rehabilitation of gold mine tailings. Gold is a major export commodity for Australia and the gold mining industry provides employment and infrastructure for rural Australian communities. However, gold is often found in arsenopyrite rich ore bodies which, after the extraction process, have the potential to release toxic quantities of arsenic into the environment. The University of Melbourne, Stawell Gold Mines P/L. and Native Seeds P/L. are collaborating to ensure the rehabilitation of arseniferous wastes is environmentally safe and sustainable. Research will investigate the selection of plant species, factors affecting plant survival, plant uptake of arsenic and prevention of excess movement of arsenic into the food-chain.Read moreRead less
Restoring riverine ecosystems: effective model-based planning and monitoring. Australia's riverine ecosystems are considerably degraded and require efficient and immediate attention to restore them to a sustainable condition. Restoration activities at all levels will benefit from the development of a robust framework that will improve understanding of restoration responses at both species and ecosystem levels. This will in turn enhance substantially the ability of managers of restoration project ....Restoring riverine ecosystems: effective model-based planning and monitoring. Australia's riverine ecosystems are considerably degraded and require efficient and immediate attention to restore them to a sustainable condition. Restoration activities at all levels will benefit from the development of a robust framework that will improve understanding of restoration responses at both species and ecosystem levels. This will in turn enhance substantially the ability of managers of restoration projects to identify realistic goals and provide a context for rigorous evaluations of the effectiveness of management interventions. This will result in scarce resources for conservation being directed to efforts with the greatest ecological benefits for stressed Australian lowland rivers.Read moreRead less
Unravelling community interactions between mammals and fungi, and the role of mycophagy in mediating biodiversity and driving ecosystem processes. Maintenance of Australia's forest biodiversity and healthy forested ecosystems are of national importance. Mammal species that are key to dispersing beneficial fungi in our forests have suffered greatest declines in the past, and further declines may ultimately lead to ecosystem collapse. My research seeks to unravel community relationship between ma ....Unravelling community interactions between mammals and fungi, and the role of mycophagy in mediating biodiversity and driving ecosystem processes. Maintenance of Australia's forest biodiversity and healthy forested ecosystems are of national importance. Mammal species that are key to dispersing beneficial fungi in our forests have suffered greatest declines in the past, and further declines may ultimately lead to ecosystem collapse. My research seeks to unravel community relationship between mammals and fungi, and how interactions within and between these groups maintain diverse communities. My results will enable forest managers to protect forest biodiversity from current and future threats and to restore degraded ecosystems. Through training of early career ecologists, the research also represents a tangible benefit to Australian science.Read moreRead less
Successful rehabilitation of species-rich heathlands after mining for heavy minerals. The Eneabba sandplains are located in one of the world's 25 'hotspots' for biodiversity and part of it is mined for heavy minerals. We seek to evaluate the ecology of rehabilitated minesites by comparing their species composition, spatial arrangement, functional attributes and response to experimental fire with that of the surrounding heathlands. This will enable us to gauge the new system's resilience to fire ....Successful rehabilitation of species-rich heathlands after mining for heavy minerals. The Eneabba sandplains are located in one of the world's 25 'hotspots' for biodiversity and part of it is mined for heavy minerals. We seek to evaluate the ecology of rehabilitated minesites by comparing their species composition, spatial arrangement, functional attributes and response to experimental fire with that of the surrounding heathlands. This will enable us to gauge the new system's resilience to fire and recommend corrective measures necessary to modify the pathway of restoration of the post-mining ecosystems as required. Because we take spatial relations and disturbance into account our approach is innovative and relevant to restoration ecology generally.Read moreRead less
Factors influencing the reovery of orchids and their mycorrhizal fungi in the post-mining landscape. Australian terrestrial orchids are highly vulnerable to reductions in soil fungus diversity after disturbance, due to their highly specific associations with soil fungi. This project would investigate how mycorrhizal fungal diversity and spatial variability changes with time during restoration of jarrah forest vegetation after bauxite mining. The impact of mycorrhizal fungi and other soil and ha ....Factors influencing the reovery of orchids and their mycorrhizal fungi in the post-mining landscape. Australian terrestrial orchids are highly vulnerable to reductions in soil fungus diversity after disturbance, due to their highly specific associations with soil fungi. This project would investigate how mycorrhizal fungal diversity and spatial variability changes with time during restoration of jarrah forest vegetation after bauxite mining. The impact of mycorrhizal fungi and other soil and habitat factors on orchid taxonomic diversity and habitat preferences in rehabilitated bauxite mine soils will be investigated. The post-mining environment will also be contrasted with undisturbed jarrah forest to understand why some orchids are common and others rare in these environments.Read moreRead less