Fish ear stones for monitoring changes in environmental conditions. The ear-stones (=otoliths) of territorial reef fish could provide environmental records over a great latitudinal range. Important environmental variation includes upwelling, riverine input, the southern oscillation and climate change. Laser mass-spectrometry will be used to resolve spatial and temporal variation in environmental conditions experienced in tropical and temperate waters over periods of up to 50 years. Experiments ....Fish ear stones for monitoring changes in environmental conditions. The ear-stones (=otoliths) of territorial reef fish could provide environmental records over a great latitudinal range. Important environmental variation includes upwelling, riverine input, the southern oscillation and climate change. Laser mass-spectrometry will be used to resolve spatial and temporal variation in environmental conditions experienced in tropical and temperate waters over periods of up to 50 years. Experiments will be done to determine the duration of events (ie changes in water chemistry) that are reliably recorded. Environmental variation is known to influence fish populations, including commercial species, but data on frequency and spatial extent of these impacts are few.Read moreRead less
ARC Australia-New Zealand Research Network for Vegetation Function. Plant species vary widely in quantitative functional traits, and in their relations to climate, soils and geography. Global generalizations are emerging. Vegetation Function network will reach from plant function into genomics and crop breeding, into palaeoecology and vegetation history, into landscape management for carbon, water and salinity outcomes, into forecasting future ecosystems under global change, and into phylogeny, ....ARC Australia-New Zealand Research Network for Vegetation Function. Plant species vary widely in quantitative functional traits, and in their relations to climate, soils and geography. Global generalizations are emerging. Vegetation Function network will reach from plant function into genomics and crop breeding, into palaeoecology and vegetation history, into landscape management for carbon, water and salinity outcomes, into forecasting future ecosystems under global change, and into phylogeny, ecoinformatics and evolutionary theory. Across this span, working groups will target nine identified opportunities for breakthrough research. Each research target needs input from two or more disciplines. Together, the nine targets link across disciplines, as a network that spans from genomic to planetary scales.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989608
Funder
Australian Research Council
Funding Amount
$190,000.00
Summary
The Heron Island Climate Change Observatory: An In-Situ Ocean Acidification and Carbonate Chemistry Monitoring Platform. Climate change and ocean acidification are widely recognized as key threats to Australia's natural ecosystems, yet we are currently ill-equipped to respond due to poor knowledge of the scale/nature of the impacts. The Heron Island Climate Change Observatory will establish key infrastructure that will rapidly improve our understanding of the impacts of ocean acidification whic ....The Heron Island Climate Change Observatory: An In-Situ Ocean Acidification and Carbonate Chemistry Monitoring Platform. Climate change and ocean acidification are widely recognized as key threats to Australia's natural ecosystems, yet we are currently ill-equipped to respond due to poor knowledge of the scale/nature of the impacts. The Heron Island Climate Change Observatory will establish key infrastructure that will rapidly improve our understanding of the impacts of ocean acidification which is important to local communities and the nation given that coral reefs support over $6 billion in revenue (and employ 60,000 people) each year. This critically important information is essential to the management and protection of Australia's coral reefs, including the Great Barrier Reef.
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The impact of ocean acidification on the fertilization, larval development and recruitment of key Australian marine organisms. This work will define the potential vulnerability for Australian marine ecosystems that arises from the rapid acidification of Australia's coastal environments by rising atmospheric carbon dioxide. Our preliminary data suggest that the early life history stages of a wide range of marine species are very sensitive to the impact of ocean acidification. At present, almost ....The impact of ocean acidification on the fertilization, larval development and recruitment of key Australian marine organisms. This work will define the potential vulnerability for Australian marine ecosystems that arises from the rapid acidification of Australia's coastal environments by rising atmospheric carbon dioxide. Our preliminary data suggest that the early life history stages of a wide range of marine species are very sensitive to the impact of ocean acidification. At present, almost nothing is known about the impacts and implications of these changes. Without this knowledge, however, we are in a poor position as a nation to respond and adapt to these changes. We plan to explore this vulnerability for Australian marine organisms and develop a detailed understanding of its implications for Australia's marine ecosystems and associated industries. Read moreRead less
The role of algal endosymbionts in acclimation and adaptation of reef corals to climate change. Understanding the potential of symbiotic zooxanthellae to enhance the thermal tolerance of reef corals addresses our first national Research Priority Goal aimed at the sustainable use of Australia's biodiversity. Given current trends in global warming, such knowledge is critical to underpinning the long-term management of the Great Barrier Reef, which has significant political and socio-economic impor ....The role of algal endosymbionts in acclimation and adaptation of reef corals to climate change. Understanding the potential of symbiotic zooxanthellae to enhance the thermal tolerance of reef corals addresses our first national Research Priority Goal aimed at the sustainable use of Australia's biodiversity. Given current trends in global warming, such knowledge is critical to underpinning the long-term management of the Great Barrier Reef, which has significant political and socio-economic importance on local, state, national and global scales for services ranging from fisheries to ecotourism. Understanding the potential for corals to form associations with different genetic types of zooxanthellae will significantly advance current knowledge of the likelihood that animals can adapt to climate change.Read moreRead less
Development of a theoretical framework for predicting responses of coral reef ecosystems to nutrient enrichment and herbivory. Australia relies greatly upon its rich natural environmental resources for goods and services and for economic growth (tourism, fisheries, and recreational industries). Our work on the Great Barrier Reef will provide a fresh perspective on the influence of nutrient pollution on corals and seaweeds. We will use new models to understand the sensitivity of reef organisms t ....Development of a theoretical framework for predicting responses of coral reef ecosystems to nutrient enrichment and herbivory. Australia relies greatly upon its rich natural environmental resources for goods and services and for economic growth (tourism, fisheries, and recreational industries). Our work on the Great Barrier Reef will provide a fresh perspective on the influence of nutrient pollution on corals and seaweeds. We will use new models to understand the sensitivity of reef organisms to nutrient enrichment. Our results will substantially enhance our ability to manage coral reef resources with climate change and increasing nutrient influx from urban or agricultural activities, underpinning a key National Research Priority. Read moreRead less
Horizontal ecological networks for understanding biodiversity maintenance. The project aims to develop new ecological theory on local diversity maintenance based on an innovative interaction network model, tested on Western Australian wildflower communities. It is novel in its focus on the complexity of species interactions and their importance to diversity maintenance in nature. This project aims to explore links between plant interaction networks and coexistence theory to provide theoretical e ....Horizontal ecological networks for understanding biodiversity maintenance. The project aims to develop new ecological theory on local diversity maintenance based on an innovative interaction network model, tested on Western Australian wildflower communities. It is novel in its focus on the complexity of species interactions and their importance to diversity maintenance in nature. This project aims to explore links between plant interaction networks and coexistence theory to provide theoretical expectations for how changes to the environment are expected to alter natural plant communities. It aims to fill theory-gap about mechanisms of multi-species coexistence, advance community ecology, and provide the theoretical foundations necessary for translating ecological theory to restoration and conservation in practice.Read moreRead less
Testing the adaptive capacity of reef corals to rising sea surface temperatures. Australia's reefs are highly profitable resources. Tourism on the Great Barrier Reef contributes over $6 billion annually to the nation's economy and employs over 65,000 people. This proposal will produce world class research to quantify the extent to which corals can respond to climate change; a question central to managing these important resources. The research will also consolidate Australia's position as the le ....Testing the adaptive capacity of reef corals to rising sea surface temperatures. Australia's reefs are highly profitable resources. Tourism on the Great Barrier Reef contributes over $6 billion annually to the nation's economy and employs over 65,000 people. This proposal will produce world class research to quantify the extent to which corals can respond to climate change; a question central to managing these important resources. The research will also consolidate Australia's position as the leading nation in coral reef studies. Priority Goals addressed include Responding to Climate Change and Sustainable use of Australia Biodiversity.Read moreRead less
Testing the importance of large-scale climate factors to plant community assembly following land-use change. This project will examine the native plant species and functional diversity of Australia's rain forest communities to create a predictive framework of how plant communities recover following deforestation. Such a framework is key to focusing conservation efforts in degraded and multi-use landscapes.
A mechanistic understanding of coral reef recovery. This project will provide the scientific basis to inform management policies to promote and maintain healthy coral reefs, both in Australia and overseas, which are suffering through climate change impacts. This work, which contributes directly to National Research Priority An Environmentally Sustainable Australia, will provide environmental benefits through understanding how degraded reefs can recover. The Great Barrier Reef alone is worth more ....A mechanistic understanding of coral reef recovery. This project will provide the scientific basis to inform management policies to promote and maintain healthy coral reefs, both in Australia and overseas, which are suffering through climate change impacts. This work, which contributes directly to National Research Priority An Environmentally Sustainable Australia, will provide environmental benefits through understanding how degraded reefs can recover. The Great Barrier Reef alone is worth more than $6 billion in tourism and fisheries revenue, and understanding how to maintain healthy coral reefs will contribute to the long-term sustainable growth of these industries. It will also help ensure continued use and provision of reef goods and services to coastal communities in tropical Australia.Read moreRead less