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
Managing Ecosystem Change in the Greater Blue Mountains World Heritage Area. Protected areas are the primary mechanism for conserving Australia's unique biodiversity. Of added significance are areas of biodiversity recognised as World Heritage Areas, such as the GBMWA. Climate, pest species and altered fire regimes potentially diminish their ecological values but some of these anthropogenic threats can be managed. Effective management depends on spatially-explicit understanding that allows prior ....Managing Ecosystem Change in the Greater Blue Mountains World Heritage Area. Protected areas are the primary mechanism for conserving Australia's unique biodiversity. Of added significance are areas of biodiversity recognised as World Heritage Areas, such as the GBMWA. Climate, pest species and altered fire regimes potentially diminish their ecological values but some of these anthropogenic threats can be managed. Effective management depends on spatially-explicit understanding that allows priorities to be set and management objectives identified and tested. This research will develop a model for determining management priorities for large protected areas, meeting State, National and International obligations. Significant conservation benefits will accrue along with social, economic and human well-being benefits.Read moreRead less
Practical, powerful and cost effective indicators of sustainable forest management for the conservation of biological diversity. Much debate about appropriate use of Australia's forests stems from uncertainty about the magnitude of impacts on abundances and distributions of forest-dependent species, a key indicator of sustainable management under the Montreal Process. An opportunity exists to develop new tools to substantially improve our ability to detect and assess change. This project will de ....Practical, powerful and cost effective indicators of sustainable forest management for the conservation of biological diversity. Much debate about appropriate use of Australia's forests stems from uncertainty about the magnitude of impacts on abundances and distributions of forest-dependent species, a key indicator of sustainable management under the Montreal Process. An opportunity exists to develop new tools to substantially improve our ability to detect and assess change. This project will develop optimal monitoring design and analysis strategies for detecting population trends against a background of natural fluctuation and observation error. It will result in templates for coherent reporting on indicators at regional and national levels. It will exploit recent findings regarding observation error in surveys, advances in statistical control processes, simulation methods, and power analysis to develop a world-class species monitoring system.Read moreRead less
Larval Dispersal And The Design Of Marine Reserve Networks: Benefits Within And Beyond Boundaries. Most marine organisms produce tiny offspring that are dispersed unknown distances by oceanic currents. Our present strategies to manage marine resources lack this vital piece of information. This study will apply two revolutionary techniques that finally enable us to determine how far marine larvae travel. Using the team that developed these techniques, field studies will for the first time measure ....Larval Dispersal And The Design Of Marine Reserve Networks: Benefits Within And Beyond Boundaries. Most marine organisms produce tiny offspring that are dispersed unknown distances by oceanic currents. Our present strategies to manage marine resources lack this vital piece of information. This study will apply two revolutionary techniques that finally enable us to determine how far marine larvae travel. Using the team that developed these techniques, field studies will for the first time measure both retention of fish larvae within marine protected areas and dispersal of larvae to adjacent fished areas on coral reefs. This information can be directly applied to optimize the size of reserves and their spacing in marine protected area networks.Read moreRead less
ARC Centre of Excellence - Innovative science for sustainable management of coral reef biodiversity. Our vision is to apply enabling technologies to capture the national benefit arising from research excellence. The Centre has enormous capacity to provide economic, cultural, environmental and social benefits for Australia. The coral reefs of Australia, particularly the Great Barrier Reef, Ningaloo Reef, and Lord Howe Island World Heritage Area are Australian national icons, of great economic, so ....ARC Centre of Excellence - Innovative science for sustainable management of coral reef biodiversity. Our vision is to apply enabling technologies to capture the national benefit arising from research excellence. The Centre has enormous capacity to provide economic, cultural, environmental and social benefits for Australia. The coral reefs of Australia, particularly the Great Barrier Reef, Ningaloo Reef, and Lord Howe Island World Heritage Area are Australian national icons, of great economic, social, and aesthetic value to this country. In collaboration with our Partners, we will be the premier providers of the scientific expertise that underpins the management of Australian reefs, which is vital for the sustainable use of biodiversity goods and services (e.g. by the tourist industry, fisheries, and recreational users).Read moreRead less
Using ancient DNA to understand Australia's past and manage its future. The aim of this program is to establish an ancient DNA research centre for Australia, and use long-term natural records to investigate the genetic responses of animals, plants, and micro-organisms to environmental change. By examining biological processes before, during, and after major changes (eg coral bleaching, salination) the evolution and selective pressures at important genetic loci will be identified, and related to ....Using ancient DNA to understand Australia's past and manage its future. The aim of this program is to establish an ancient DNA research centre for Australia, and use long-term natural records to investigate the genetic responses of animals, plants, and micro-organisms to environmental change. By examining biological processes before, during, and after major changes (eg coral bleaching, salination) the evolution and selective pressures at important genetic loci will be identified, and related to environmental change to enhance effected planning and future management of Australia's ecosystems, biodiversity and tourism. Key records will come from lake-beds, billabongs, coral reefs, rodent nests, megafaunal bones, and ancient human material.Read moreRead less
Climate change and coral reef communities: predicting and managing future impacts. Coral reefs are critically important for the goods and services they provide, but are facing considerable threat from sustained, ongoing climate change. Results from this project, and supplementary data from other researchers within the ARC Centre of Excellence for Coral Reef Studies, will help develop innovative strategies to manage the effects of climate change on coral reef ecosystems. There is no comparable te ....Climate change and coral reef communities: predicting and managing future impacts. Coral reefs are critically important for the goods and services they provide, but are facing considerable threat from sustained, ongoing climate change. Results from this project, and supplementary data from other researchers within the ARC Centre of Excellence for Coral Reef Studies, will help develop innovative strategies to manage the effects of climate change on coral reef ecosystems. There is no comparable team in the world that has the capacity or resources to rigorously integrate world-class research into knowledge-based management of coral reef ecosystems.Read moreRead less
Disperse or die: the evolution of dispersal ability in a changing climate. Whether or not climate change will affect a species depends upon the ability of ecological communities to track climate change. Species that rapidly shift their range in response to climate change will not be unduly affected, whereas species that are stuck in one place are at extreme risk from a changing climate (they must either adapt, or perish). We need, therefore, a firm understanding of how, and how rapidly, specie ....Disperse or die: the evolution of dispersal ability in a changing climate. Whether or not climate change will affect a species depends upon the ability of ecological communities to track climate change. Species that rapidly shift their range in response to climate change will not be unduly affected, whereas species that are stuck in one place are at extreme risk from a changing climate (they must either adapt, or perish). We need, therefore, a firm understanding of how, and how rapidly, species shift their range. This project will develop a universal framework within which to model species' responses to climate change. As such, the project will contribute greatly to how we plan for, and manage, the effects of climate change.Read moreRead less
Demonstrating the impacts of ground tank closure on biodiversity and landscape function in southeast Australian rangelands. Despite incentives for improving biodiversity outcomes in pastoral landscapes pastoralists are resistant to strategic tank closure. Research will monitor the effects of total-closure, partial-closure and fencing of ground tanks on biodiversity. Results of research will be built into a model to assist land managers in decision making. The research will be conducted in conjun ....Demonstrating the impacts of ground tank closure on biodiversity and landscape function in southeast Australian rangelands. Despite incentives for improving biodiversity outcomes in pastoral landscapes pastoralists are resistant to strategic tank closure. Research will monitor the effects of total-closure, partial-closure and fencing of ground tanks on biodiversity. Results of research will be built into a model to assist land managers in decision making. The research will be conducted in conjunction with land management authorities thus outcomes can be readily passed on to relevant user groups. The project will aid in the adoption of sustainable land management practices in relation to total grazing pressure and biodiversity. The research within arid woodland and shrubland communities is applicable to a large area of Australia's rangelands.Read moreRead less
Environmental management of coral reef resilience. The primary aim of this project is to provide the scientific evidence needed to effectively manage and protect reef resilience within the GBR Marine Park. We will develop and apply scientific tools for understanding the large-scale effect of multiple physical environmental stresses on coral populations. Furthermore, we will determine how fish communities influence the potential for coral reefs to remain healthy in the face of global change. Cent ....Environmental management of coral reef resilience. The primary aim of this project is to provide the scientific evidence needed to effectively manage and protect reef resilience within the GBR Marine Park. We will develop and apply scientific tools for understanding the large-scale effect of multiple physical environmental stresses on coral populations. Furthermore, we will determine how fish communities influence the potential for coral reefs to remain healthy in the face of global change. Central to this work will be an evaluation of the potential of No-Take Zones, a contemporary management tool, to promote resilience and the ability of coral reefs to cope with environmental change.Read moreRead less