Conserving and recovering the koala populations on NSW Far North Coast. Conserving and recovering the koala populations on NSW Far North Coast. This project aims to develop a novel, integrated socio-ecological approach for connecting landscapes and communities for the recovery of threatened koala populations on the New South Wales far north coast. This should increase understanding of how local landholders and land managers respond to koala recovery programs and why they respond positively and b ....Conserving and recovering the koala populations on NSW Far North Coast. Conserving and recovering the koala populations on NSW Far North Coast. This project aims to develop a novel, integrated socio-ecological approach for connecting landscapes and communities for the recovery of threatened koala populations on the New South Wales far north coast. This should increase understanding of how local landholders and land managers respond to koala recovery programs and why they respond positively and become engaged for the long-term. The intended outcome is a spatial prioritisation framework for species recovery that integrates social and ecological values, and increased global knowledge of how to recover declining wildlife populations.Read moreRead less
Impacts of habitat disruption and global change on liana-tree interactions. This project will test whether tropical rainforests in Australia, the Amazon, and Borneo respond similarly to key environmental threats, habitat fragmentation and global-change phenomena. If forests in all three regions are affected similarly, then research in tropical Australia could help predict the fate of imperilled rainforests around the world.
Accelerating species richness gains and carbon sequestration in secondary regrowth in north Queensland. Tropical abandoned lands offer important opportunities to increase carbon storage and conserve biodiversity. However, natural forest regeneration is slow and frequently inhibited by woody weeds. The project will involve a collaboration between eminent tropical biologists and the carbon-industry to devise innovative strategies to accelerate restoration of degraded land.
Rehabilitating a changing landscape: using the latest advances in koala ecology to direct adaptive management. The koala has been identified as one of the world's flagship species suffering from environmental change. In contrast to the decline of koalas in New South Wales generally, the eucalypts planted in Gunnedah to combat salinity led to an increase in koalas. However, the startlingly high death rate of Gunnedah koalas (25 per cent of the population) in the heatwave during the drought in 200 ....Rehabilitating a changing landscape: using the latest advances in koala ecology to direct adaptive management. The koala has been identified as one of the world's flagship species suffering from environmental change. In contrast to the decline of koalas in New South Wales generally, the eucalypts planted in Gunnedah to combat salinity led to an increase in koalas. However, the startlingly high death rate of Gunnedah koalas (25 per cent of the population) in the heatwave during the drought in 2009 must be understood. There are also new threats brought about by intensive land modification. This project aims to determine the effects of environmental change on the koala population through a study of landscape ecology, leaf chemistry, disease epidemiology and koala movements. This aims to lead to better management decisions for arboreal fauna.Read moreRead less
Predicting metapopulation dynamics with multiple patch states. Classical theory allows metapopulations to have subpopulations in one of two states, occupied or unoccupied. However, patches may have their own dynamic created by ecological succession or disturbance processes such as grazing. We will develop new theory incorporating patch dynamics, and test the theory on a spatially explicit metapopulation in the real world, the mound spring invertebrates of the Great Artesian Basin. We will use th ....Predicting metapopulation dynamics with multiple patch states. Classical theory allows metapopulations to have subpopulations in one of two states, occupied or unoccupied. However, patches may have their own dynamic created by ecological succession or disturbance processes such as grazing. We will develop new theory incorporating patch dynamics, and test the theory on a spatially explicit metapopulation in the real world, the mound spring invertebrates of the Great Artesian Basin. We will use the theory to forecast the risk of extinction for these endemic species, and develop methods to quantify the statistical power of monitoring for environmental trends.Read moreRead less
Landscape-scale monitoring and adaptive management of woodland birds in the Mt Lofty Ranges. Despite the fundamental role of scientific monitoring in nature conservation, its research importance and potential is widely neglected. There is an urgent need to improve quantitative rigour, particularly to ensure adequate statistical power is achieved when monitoring at a landscape scale. We will apply new analytical tools to the problem of devising a powerful and flexible monitoring regime for a high ....Landscape-scale monitoring and adaptive management of woodland birds in the Mt Lofty Ranges. Despite the fundamental role of scientific monitoring in nature conservation, its research importance and potential is widely neglected. There is an urgent need to improve quantitative rigour, particularly to ensure adequate statistical power is achieved when monitoring at a landscape scale. We will apply new analytical tools to the problem of devising a powerful and flexible monitoring regime for a highly threatened woodland bird community in South Australia. Monitoring will be embedded within a decision-making framework with explicit links to local management agencies. Results will be broadly applicable across agricultural areas of Australia, where bird assemblages are in general decline.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL100100150
Funder
Australian Research Council
Funding Amount
$1,668,132.00
Summary
Advancing Australian Leadership in Tropical Conservation Science. Tropical forests are vital for Australia. They protect coral reefs, reduce flooding and soil erosion, and help stabilise the climate by promoting life-giving rainfall and storing massive stocks of carbon that would otherwise worsen global warming. They also sustain stunning biodiversity and provide livelihoods for hundreds of millions of people worldwide. Via a dynamic environmental research and policy program, this project will p ....Advancing Australian Leadership in Tropical Conservation Science. Tropical forests are vital for Australia. They protect coral reefs, reduce flooding and soil erosion, and help stabilise the climate by promoting life-giving rainfall and storing massive stocks of carbon that would otherwise worsen global warming. They also sustain stunning biodiversity and provide livelihoods for hundreds of millions of people worldwide. Via a dynamic environmental research and policy program, this project will promote sustainable forest use in tropical Australia, the imperilled Asia-Pacific region, and beyond. It will build world-leading research capacity, strengthen ties with Australia's neighbours, and provide Australian scientists with an array of new challenges and research opportunities.Read moreRead less
Conservation planning in a dynamic and uncertain world. Nature conservation planning is an emerging discipline at the interface of biological and mathematical sciences focused on designing conservation areas. We will improve existing tools for conservation planning, which almost always assume a static world, by developing theories and procedures for undertaking conservation planning in a dynamic and uncertain world. A risk assessment and decision-making framework will be developed so that a vari ....Conservation planning in a dynamic and uncertain world. Nature conservation planning is an emerging discipline at the interface of biological and mathematical sciences focused on designing conservation areas. We will improve existing tools for conservation planning, which almost always assume a static world, by developing theories and procedures for undertaking conservation planning in a dynamic and uncertain world. A risk assessment and decision-making framework will be developed so that a variety of landscape dynamics can be taken into account when planning reserves. This research will help to ensure that reserve networks designed in the future achieve their ultimate goal of the long-term persistence of biodiversity.Read moreRead less
The conservation of widely distributed species: implications of differences between western and eastern koala populations. Koalas are an iconic species in Australia, generating $2.5 billion in tourist income alone. This project will be a first to test cross-regional variations in koala-habitat relationships, with implications for conservation of other species occupying broad geographical ranges. It will also predict the effect of future climate change on western koala populations living at the ....The conservation of widely distributed species: implications of differences between western and eastern koala populations. Koalas are an iconic species in Australia, generating $2.5 billion in tourist income alone. This project will be a first to test cross-regional variations in koala-habitat relationships, with implications for conservation of other species occupying broad geographical ranges. It will also predict the effect of future climate change on western koala populations living at the margin of their ecological tolerances. It will provide regional natural resource management bodies and state conservation agencies with a sound ecological framework to conserve western koalas in the long term. Regional communities will benefit from involvement by incorporating new conservation knowledge into sub-catchment and property management planning.Read moreRead less
A Bayesian framework for metapopulation dynamics of species in endangered communities: integrating demographic, environmental and genetic data. Biodiversity conservation is a spatial and temporal problem. Populations change in time, constrained by the structure and spatial division of their habitat. This study will develop a tool that can be used to assess the influence of environmental fluctuations and landscape heterogeneity on the persistence of endemic species in the mound springs of the Gr ....A Bayesian framework for metapopulation dynamics of species in endangered communities: integrating demographic, environmental and genetic data. Biodiversity conservation is a spatial and temporal problem. Populations change in time, constrained by the structure and spatial division of their habitat. This study will develop a tool that can be used to assess the influence of environmental fluctuations and landscape heterogeneity on the persistence of endemic species in the mound springs of the Great Artesian Basin. Using a Bayesian framework to integrate data from diverse sources, we will develop models for the biodiversity impacts of groundwater withdrawal and climate change in central Australia. These tools are essential for management of this ecosystem, which has been listed as an 'endangered community' under the Environmental Protection and Biodiversity Conservation Act of 1999.Read moreRead less