Ecological consequences of global warming: predicting effects on biodiversity on intertidal assemblages on the east coast of Australia. Understanding what conserves biodiversity is a crucial challenge for Australian science. This research will provide critical information on the consequences of global climatic change: southerly shifts in distributions of animals due to rising temperatures; vertical shifts due to rising sea level and changes in amounts of food for grazing species. This informatio ....Ecological consequences of global warming: predicting effects on biodiversity on intertidal assemblages on the east coast of Australia. Understanding what conserves biodiversity is a crucial challenge for Australian science. This research will provide critical information on the consequences of global climatic change: southerly shifts in distributions of animals due to rising temperatures; vertical shifts due to rising sea level and changes in amounts of food for grazing species. This information will underpin the future management of conservation and will improve understanding on issues such as how and why species are able to invade new areas, the effects on the resident species and how species change distribution in relation to the availability of specific needs for habitat.Read moreRead less
Special Research Initiatives - Grant ID: SR0354638
Funder
Australian Research Council
Funding Amount
$20,000.00
Summary
Innovative science for sustainable use of marine biodiversity goods and services. Development of new scientific tools and technologies provide expanded opportunities for marine biological research in Australia. An urgent need is to coordinate research scientists and institutions to ensure maximum benefits and to meet Australia's obligations under UNCLOS. The primary goal of this proposed Network is to develop research programs of international significance, through the establishment of new teams ....Innovative science for sustainable use of marine biodiversity goods and services. Development of new scientific tools and technologies provide expanded opportunities for marine biological research in Australia. An urgent need is to coordinate research scientists and institutions to ensure maximum benefits and to meet Australia's obligations under UNCLOS. The primary goal of this proposed Network is to develop research programs of international significance, through the establishment of new teams of Australia's leading marine scientists, mathematical modelers and economists that transcend traditional disciplinary, institutional and geographic boundaries. Our goal is to add focus, scale and scope to an enduring program of innovative research development, leading to world leadership in marine resource management.Read moreRead less
Solar radiation, coral bleaching and climate change. Corals reefs like the Great Barrier Reef (GBR) underpin approximately $2 billion annually in sustainable tourism and fisheries. Warming of Australia's tropical seas, however, has increased mass coral bleaching/mortality and is placing reefs like the GBR at increasing risk. Solar radiation (PAR, UVR) plays an important influence on the biological outcome of thermal stress. Understanding the role of solar radiation is critical if we are to unde ....Solar radiation, coral bleaching and climate change. Corals reefs like the Great Barrier Reef (GBR) underpin approximately $2 billion annually in sustainable tourism and fisheries. Warming of Australia's tropical seas, however, has increased mass coral bleaching/mortality and is placing reefs like the GBR at increasing risk. Solar radiation (PAR, UVR) plays an important influence on the biological outcome of thermal stress. Understanding the role of solar radiation is critical if we are to understand the changes that will occur on coral reefs as temperatures increase. This multidisciplinary international team will define and model the role of solar radiation on thermal stress at local, regional and global scales. Read moreRead less
MICROENDOLITHS, CORAL BLEACHING AND ENVIRONMENTAL CHANGE. Planning for sustainable use of ecosystems like the Great Barrier Reef (GBR) can only be done with an accurate understanding of how ecosystems are likely to change, and at what rate, under persistent climate change. This project, aligned with National Research Priority 'An Environmentally Sustainable Australia', will be performed over 3 oceans and focusing on the GBR, will contribute to the national benefit by rapidly improving our unders ....MICROENDOLITHS, CORAL BLEACHING AND ENVIRONMENTAL CHANGE. Planning for sustainable use of ecosystems like the Great Barrier Reef (GBR) can only be done with an accurate understanding of how ecosystems are likely to change, and at what rate, under persistent climate change. This project, aligned with National Research Priority 'An Environmentally Sustainable Australia', will be performed over 3 oceans and focusing on the GBR, will contribute to the national benefit by rapidly improving our understanding on one such major factor-the endolithic community in coral skeletons. It will allow better predictions of short and long-term consequences to reefs, and will also continue to show Australia's leadership in understanding the rate and direction of changes within coral reef ecosystems.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
The quality of seagrass as a dugong food resource: the importance of the effects of season and water depth. Australia has international obligations to conserve dugongs (sea cows). Dugongs rely on seagrasses for food. Knowledge of the abundance and quality of seagrasses, and how these change in response to the environment, is vital if dugong conservation is to have the necessary scientific basis. Research has focussed on intertidal seagrass as food for dugongs. However, deepwater seagrasses ....The quality of seagrass as a dugong food resource: the importance of the effects of season and water depth. Australia has international obligations to conserve dugongs (sea cows). Dugongs rely on seagrasses for food. Knowledge of the abundance and quality of seagrasses, and how these change in response to the environment, is vital if dugong conservation is to have the necessary scientific basis. Research has focussed on intertidal seagrass as food for dugongs. However, deepwater seagrasses are a mainstay of most significant dugong populations, such as the population in Hervey Bay, Queensland. This research will provide information on the effect of season and water depth on the quality of seagrasses as dugong food.Read moreRead less
Spatial ecology of inshore predators in tropical marine systems and implications of marine protection zones. Coastal development and threats of global climate change mean that coastal ecosystems are under increasing pressure. Developing an understanding of how coastal habitats are used by native fauna and how effective protected areas are in the preservation of these species is critical for future management and sustainable use of resources. This research will provide data for resource and fis ....Spatial ecology of inshore predators in tropical marine systems and implications of marine protection zones. Coastal development and threats of global climate change mean that coastal ecosystems are under increasing pressure. Developing an understanding of how coastal habitats are used by native fauna and how effective protected areas are in the preservation of these species is critical for future management and sustainable use of resources. This research will provide data for resource and fisheries managers that are valuable for maintenance of several sectors of the economy including tourism and commercial fishing (inshore fishing worth $23 m a year). The project is linked to a national telemetry network thus providing opportunity for national and international collaboration benefiting scientific, management and coastal communities.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
LARVAL RETENTION AND CONNECTIVITY IN CORAL REEF FISH POPULATIONS: A MULTI-TECHNIQUE APPROACH. A key unanswered question in marine ecology and fisheries management is - are planktonic juveniles retained within or transported among populations? The only three techniques that can potentially quantify larval dispersal distances are genetic markers, natural chemical signatures and applied chemical marks. This project combines, for the first time, all three techniques to measure the scale of disper ....LARVAL RETENTION AND CONNECTIVITY IN CORAL REEF FISH POPULATIONS: A MULTI-TECHNIQUE APPROACH. A key unanswered question in marine ecology and fisheries management is - are planktonic juveniles retained within or transported among populations? The only three techniques that can potentially quantify larval dispersal distances are genetic markers, natural chemical signatures and applied chemical marks. This project combines, for the first time, all three techniques to measure the scale of dispersal in two coral reef fish species. The relative importance of retention and connectivity will be measured, from a large scale encompassing different regions (Great Barrier Reef and Papua New Guinea) to a small scale focussing on individual reefs.Read moreRead less
Enhancing coral reef resilience to climate change. Coral reefs provide enormous economic, cultural and environmental benefits to Australia and its near neighbours. For reefs to remain healthy in the face of climate change and other stresses, they must be managed using best practices. Measuring how reef populations are connected and developing new tools to translate this knowledge into improved management can enhance fisheries, ensure reef health, and protect the livelihoods that reefs sustain. T ....Enhancing coral reef resilience to climate change. Coral reefs provide enormous economic, cultural and environmental benefits to Australia and its near neighbours. For reefs to remain healthy in the face of climate change and other stresses, they must be managed using best practices. Measuring how reef populations are connected and developing new tools to translate this knowledge into improved management can enhance fisheries, ensure reef health, and protect the livelihoods that reefs sustain. This research with partners from Europe, the United States of America, Papua New Guinea and Indonesia places Australia at the forefront of addressing the impacts of climate change and enhances its international reputation as the world leader in coral reef science and management.Read moreRead less