Constructing a temporally-constrained palaeoecological model of Quaternary faunal evolution and extinction in eastern Australia. Increased climatic variability and human-induced environmental degradation have had severe impacts on biodiversity, socio-economic sustainability and possibly our own future survival, thus attracting global attention. This study will help unravel the causes of the extinctions of Australia's large-size animals (megafauna) during the periods of last glaciation and earlie ....Constructing a temporally-constrained palaeoecological model of Quaternary faunal evolution and extinction in eastern Australia. Increased climatic variability and human-induced environmental degradation have had severe impacts on biodiversity, socio-economic sustainability and possibly our own future survival, thus attracting global attention. This study will help unravel the causes of the extinctions of Australia's large-size animals (megafauna) during the periods of last glaciation and earliest human colonisation of Australia. Investigating the causes of megafauna extinction is essential for an understanding of how those prehistoric events shaped the modern biota, and for the development of conservation strategies for our endemic faunas in an era of increased climatic and environmental variability and vulnerability.Read moreRead less
Multi-Scale Analysis of the Vulnerability of Coral Reefs to Ocean Acidification. The Great Barrier Reef (GBR) is one of Australia's biggest icons, and represents more than 10% of the world's coral reefs. It is a World Heritage Area and is home to more than 1 million species. The GBR provides Australia with more than $6 billion in annual national revenue. To help manage for sustained resilience of the GBR in an era of climate change, Australia needs to understand the major threats, in particular ....Multi-Scale Analysis of the Vulnerability of Coral Reefs to Ocean Acidification. The Great Barrier Reef (GBR) is one of Australia's biggest icons, and represents more than 10% of the world's coral reefs. It is a World Heritage Area and is home to more than 1 million species. The GBR provides Australia with more than $6 billion in annual national revenue. To help manage for sustained resilience of the GBR in an era of climate change, Australia needs to understand the major threats, in particular ocean acidification. By producing an innovative framework for assessing acidification risks, the project will help Australia demonstrate continued stewardship of one of the world's richest and most sensitive ecosystems.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989642
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
Environmentally Controlled Infrastructure to Investigate the Effects of Climate Change on the Great Barrier Reef. 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. Climate change has the potential to impact the biodiversity of these reefs and their sustainable management. Temperature, CO2, pH and light can affect coral and fish re ....Environmentally Controlled Infrastructure to Investigate the Effects of Climate Change on the Great Barrier Reef. 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. Climate change has the potential to impact the biodiversity of these reefs and their sustainable management. Temperature, CO2, pH and light can affect coral and fish reproduction, coral bleaching and the response to other anthropogenic intrusions. This facility will provide essential infrastructure for conducting fundamental research on these issues and will directly interface with management agencies to assist with the sustainable management of Australian reefs.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
Global climate change and the future for coral reef fishes. Australia's coral reefs are icons of immense biological, economic and cultural importance. They are also threatened by climate change. This research will address the serious lack of knowledge about the impact of climate change on coral reef fishes and integrate with other research at the ARC Centre of Excellence for Coral Reef Studies to help find innovative solutions to the problem of climate change and promote the sustainable manageme ....Global climate change and the future for coral reef fishes. Australia's coral reefs are icons of immense biological, economic and cultural importance. They are also threatened by climate change. This research will address the serious lack of knowledge about the impact of climate change on coral reef fishes and integrate with other research at the ARC Centre of Excellence for Coral Reef Studies to help find innovative solutions to the problem of climate change and promote the sustainable management of Australia's extensive coral reef ecosystems.Read moreRead less
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
Environmental change in northern Cenozoic Australia: a multidisciplinary approach. The Intergovernmental Panel on Climate Change (IPCC) warned that by 2020 to 2050, Australia will suffer significant biodiversity loss and water shortages. Our research will document and date the evolution of Australia's biota through three cycles of climate change over the last 25 million years to quantify and thereby better anticipate the nature and dimension of threats facing our natural and cultural communities ....Environmental change in northern Cenozoic Australia: a multidisciplinary approach. The Intergovernmental Panel on Climate Change (IPCC) warned that by 2020 to 2050, Australia will suffer significant biodiversity loss and water shortages. Our research will document and date the evolution of Australia's biota through three cycles of climate change over the last 25 million years to quantify and thereby better anticipate the nature and dimension of threats facing our natural and cultural communities. We will develop innovative techniques to date prehistoric biotic and climatic events and, using a range of tracers, characterize ancient environments and groundwater. This project will assist rural and regional Australia through education and job creation in geotourism and natural resource interpretation and provide a mechanism to combat generational skill shortage.Read moreRead less
The evolution of Australian rainforest faunas and the implications of continuing climate change. Australia's rainforest animals and ecosystems have been evolving for millions of years yet we routinely use only the last 200 years to assess changes that will affect their future - far too short a time interval to distinguish short-term perturbations from long-term trends in lineage health or community response. Our multidisciplinary team proposes to learn from 55 million years of response to rainfa ....The evolution of Australian rainforest faunas and the implications of continuing climate change. Australia's rainforest animals and ecosystems have been evolving for millions of years yet we routinely use only the last 200 years to assess changes that will affect their future - far too short a time interval to distinguish short-term perturbations from long-term trends in lineage health or community response. Our multidisciplinary team proposes to learn from 55 million years of response to rainfall and other climate change documented by the spectacular national, natural treasures in the fossil deposits of Tingamarra, Riversleigh and Rockhampton, to assess probable impacts of future environmental change and inform development of effective, long-term conservation strategies for rainforest communities. 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
Coral Reef Fishes And The Global Decline In Reef Health: Is Biodiversity At Risk Or Resilient? Successful management and protection of marine species depends on understanding the processes that control the biodiversity of marine communities at both local and regional scales. This study will develop a general model to predict the response of reef fish communities to declining habitat structure and diversity across the tropical Pacific Ocean. Using expertise and ecological tools developed in Austr ....Coral Reef Fishes And The Global Decline In Reef Health: Is Biodiversity At Risk Or Resilient? Successful management and protection of marine species depends on understanding the processes that control the biodiversity of marine communities at both local and regional scales. This study will develop a general model to predict the response of reef fish communities to declining habitat structure and diversity across the tropical Pacific Ocean. Using expertise and ecological tools developed in Australia, and in collaboration with scientists working on the other side of the Pacific, this project will develop a broad-scale understanding of the threats to coral reefs and play a leading role in the development of marine-biodiversity management plans for Australia and neighbouring regions.Read moreRead less