Conservation planning: incorporating patch dynamics and climate change to achieve better outcomes. This research will make significant contributions to planning for An Environmentally Sustainable Australia. Key outcomes will include guidelines for including, for the first time, the patch dynamics of coral bleaching and pelagic productivity in conservation planning. By using an Australian icon, the Great Barrier Reef, as the case study for this research, the findings will be directly applicable a ....Conservation planning: incorporating patch dynamics and climate change to achieve better outcomes. This research will make significant contributions to planning for An Environmentally Sustainable Australia. Key outcomes will include guidelines for including, for the first time, the patch dynamics of coral bleaching and pelagic productivity in conservation planning. By using an Australian icon, the Great Barrier Reef, as the case study for this research, the findings will be directly applicable and implementable. Furthermore, this study will result in an understanding of the potential effect of climate change on patch dynamics, and will provide guidelines and theory for planning for such changes. This research will enable Australia to effectively protect its biodiversity and to relate this knowledge to its neighbours.Read moreRead less
Economics of Conserving Australian Tropical Wildlife: An Analysis of the Role of Economic Valuation, Property Rights and Commercialisation. Australian tropical native animals are selected to analyse economic valuation (use and non-use valuation) of wildlife species and to assess systematically the role of property rights and commercialisation in conservation. The project will (1) reduce bias of Australian economic studies in favour of temperate species; (2) answer several unresolved questions ra ....Economics of Conserving Australian Tropical Wildlife: An Analysis of the Role of Economic Valuation, Property Rights and Commercialisation. Australian tropical native animals are selected to analyse economic valuation (use and non-use valuation) of wildlife species and to assess systematically the role of property rights and commercialisation in conservation. The project will (1) reduce bias of Australian economic studies in favour of temperate species; (2) answer several unresolved questions raised in the Parlimentary Report on Commercial Utilisation of Australian Wildlife; (3) advance economic theory (e.g. relating to dynamic influences on economic valuation) and provide new insights into property rights making use of empirical and experimental results, and (4) thereby contribute to public policy decision-making.Read moreRead less
Fingerprints of global climate change and forest management on rhizosphere carbon and nutrient cycling. Using a series of innovative techniques, this project seeks to capture the excellent, exciting opportunities for studying impacts of global climate change (GCC) and forest management on plant-soil-microbe interactions in rhizosphere carbon and nutrient cycling, with two of the world's best GCC forest experiments in Sweden and USA and three long-term forest management experiments in Australia. ....Fingerprints of global climate change and forest management on rhizosphere carbon and nutrient cycling. Using a series of innovative techniques, this project seeks to capture the excellent, exciting opportunities for studying impacts of global climate change (GCC) and forest management on plant-soil-microbe interactions in rhizosphere carbon and nutrient cycling, with two of the world's best GCC forest experiments in Sweden and USA and three long-term forest management experiments in Australia. The successful conduct of this multidisciplinary collaborative research will result in: improved understanding and management of forest ecosystems in response to GCC and effective biodiversity conservation in managed forests; and enhanced international reputation and expertise of the Australian scientists in the relevant research fields.Read moreRead less
Network structure, connectivity and wildlife disease. Emerging infectious diseases of wildlife pose threats to human health (75% of human emerging diseases are zoonotic). They also threaten biodiversity and livestock. Changes in connectivity between wildlife individuals and populations are occurring because of human activities, including globalisation, climate change and habitat destruction. Understanding how these changes in connectivity affect wildlife disease dynamics is crucial for the deve ....Network structure, connectivity and wildlife disease. Emerging infectious diseases of wildlife pose threats to human health (75% of human emerging diseases are zoonotic). They also threaten biodiversity and livestock. Changes in connectivity between wildlife individuals and populations are occurring because of human activities, including globalisation, climate change and habitat destruction. Understanding how these changes in connectivity affect wildlife disease dynamics is crucial for the development of better strategies to manage their impacts. The project will also build Australia's wider capacity to manage outbreaks of infectious diseases.Read moreRead less
Maximising the conservation of biodiversity and the delivery of ecosystem services: What to do, where and when. The economic wealth of Australia is underpinned by its remarkable biological diversity. However, land and water degradation are eroding Australia's natural asset base damaging industries such as tourism, fisheries, and forestry. Given limited funds for biodiversity conservation, we need to minimise the misallocation of resources by making wise investments. This research will result in ....Maximising the conservation of biodiversity and the delivery of ecosystem services: What to do, where and when. The economic wealth of Australia is underpinned by its remarkable biological diversity. However, land and water degradation are eroding Australia's natural asset base damaging industries such as tourism, fisheries, and forestry. Given limited funds for biodiversity conservation, we need to minimise the misallocation of resources by making wise investments. This research will result in frameworks and tools to ensure that we maximise the protection of biological diversity and the delivery of ecosystem services (such as clean water) that are important for human well-being. We will share the results of our research with decision makers, scientists, and the general public.Read moreRead less
How can communities sustainably manage coral reefs? This project is relevant to the National Research Priority: An Environmentally Sustainable Australia. Key outcomes will include:
- a better understanding the most effective co-management arrangements for coral reefs;
- an evaluation of whether Australia's co-management models have the design principles associated with long-term success; and
- new insights into the socioeconomic environments under which co-management may be an effecti ....How can communities sustainably manage coral reefs? This project is relevant to the National Research Priority: An Environmentally Sustainable Australia. Key outcomes will include:
- a better understanding the most effective co-management arrangements for coral reefs;
- an evaluation of whether Australia's co-management models have the design principles associated with long-term success; and
- new insights into the socioeconomic environments under which co-management may be an effective management option.
These outcomes will promote the sustainable use of Australia's biodiversity by strengthening the capacity of co-management institutions. This project will also promote Australia's research capacity by providing research funds for one PhD student and one Honours student.
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Optimal management of complex ecological systems. Natural systems are inherently complex and difficult to predict. This complexity means that efficient management strategies are often uncertain, and resource managers have few theories or rules on which to base their decisions. We will integrate the existing theories and principles of conservation biology with decision-making tools and theory used in statistics, economics, control theory, engineering and mathematics. We will use novel methods to ....Optimal management of complex ecological systems. Natural systems are inherently complex and difficult to predict. This complexity means that efficient management strategies are often uncertain, and resource managers have few theories or rules on which to base their decisions. We will integrate the existing theories and principles of conservation biology with decision-making tools and theory used in statistics, economics, control theory, engineering and mathematics. We will use novel methods to investigate the reliability of different management decisions that are made in the face of uncertainty and involve learning. Our aim is to discover a general theory for a new branch of conservation biology: applied theoretical conservation ecology.Read moreRead less
The role of learning in conservation management: developing adaptive approaches for the conservation of biodiversity in a changing climate. Biodiversity underpins several major industries: agriculture, tourism, forestry and fisheries. To mitigate the loss of biodiversity, there have been significant investments from all levels of government, including 2.2 billion dollars to manage biodiversity and 138 million dollars simply to gather data on the impact of climatic changes. Despite this well inte ....The role of learning in conservation management: developing adaptive approaches for the conservation of biodiversity in a changing climate. Biodiversity underpins several major industries: agriculture, tourism, forestry and fisheries. To mitigate the loss of biodiversity, there have been significant investments from all levels of government, including 2.2 billion dollars to manage biodiversity and 138 million dollars simply to gather data on the impact of climatic changes. Despite this well intended funding, the key questions of how to best allocate this money between the many threatened species and regions of Australia, and how to adapt this allocation in light of climatic changes, remain unanswered. Our research will develop explicit and practical frameworks by which we can cost efficiently learn and act simultaneously.Read moreRead less
How do characteristics of seeds and landscape heterogeneity determine plant spread in new environments? Climate change and exotic invasions are among the greatest threats to Australia's, and the world's, biodiversity. Under a rapidly changing climate many Australian plant species will have to spread across a fragmented landscape to persist. In order to contain or eradicate invasive plant species we need to know how they will spread in novel landscapes. We will develop models which will be used f ....How do characteristics of seeds and landscape heterogeneity determine plant spread in new environments? Climate change and exotic invasions are among the greatest threats to Australia's, and the world's, biodiversity. Under a rapidly changing climate many Australian plant species will have to spread across a fragmented landscape to persist. In order to contain or eradicate invasive plant species we need to know how they will spread in novel landscapes. We will develop models which will be used for invasive plants to predict ecological and evolutionary responses to novel landscapes and novel dispersers and for native plants to predict their spread in to fragmented landscapes. These models can be used to prioritise management actions for species of most conservation concern, and predict how far and fast invasive species will spread.Read moreRead less
Integrating multiple conservation values for protection and restoration of native vegetation. The project will underpin Australia's ability to enhance its competitive advantages in an environmentally sustainable fashion. We will develop better methods for integrating conservation goals related to biodiversity, soil conservation, water quality, salinity mitigation and carbon sequestration to identify areas where multiple benefits can be obtained and funding can be spent more effectively. Our resu ....Integrating multiple conservation values for protection and restoration of native vegetation. The project will underpin Australia's ability to enhance its competitive advantages in an environmentally sustainable fashion. We will develop better methods for integrating conservation goals related to biodiversity, soil conservation, water quality, salinity mitigation and carbon sequestration to identify areas where multiple benefits can be obtained and funding can be spent more effectively. Our results and techniques will be of immediate use to national, state and local governments, catchment authorities, and community groups. The project will maintain Australian scientists at the international forefront of environmental management and provide high-quality training for young scientists.Read moreRead less