Discovery Early Career Researcher Award - Grant ID: DE150100581
Funder
Australian Research Council
Funding Amount
$360,000.00
Summary
Resolving the role of aquatic systems in processing terrestrial carbon. The aquatic and terrestrial carbon cycles are intrinsically linked with changes in terrestrial carbon dynamics altering the aquatic carbon cycle. However, the main methodology employed to assess land-atmosphere carbon dioxide fluxes fails to account for carbon losses through subsurface lateral exports of carbon via groundwater. This project aims to resolve the importance and drivers of this pathway, along with the ultimate f ....Resolving the role of aquatic systems in processing terrestrial carbon. The aquatic and terrestrial carbon cycles are intrinsically linked with changes in terrestrial carbon dynamics altering the aquatic carbon cycle. However, the main methodology employed to assess land-atmosphere carbon dioxide fluxes fails to account for carbon losses through subsurface lateral exports of carbon via groundwater. This project aims to resolve the importance and drivers of this pathway, along with the ultimate fate of the carbon once it reaches the aquatic environment. This project aims to contribute to closing a significant gap in our understanding of terrestrial-aquatic carbon cycling and will quantify a potentially important yet poorly understood component of regional and global carbon budgets.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180100535
Funder
Australian Research Council
Funding Amount
$392,650.00
Summary
Is groundwater the missing nutrient source to the Great Barrier Reef? This project aims to reveal whether groundwater is a major missing source of nutrients to the Great Barrier Reef. Billions of dollars have been spent on improving water quality in the reef environment, yet nutrient budgets and the sources of pollution remain poorly quantified. This project expects to use cutting-edge technology and modelling to quantify the legacy of past land use practices on groundwater reef-nutrient dynamic ....Is groundwater the missing nutrient source to the Great Barrier Reef? This project aims to reveal whether groundwater is a major missing source of nutrients to the Great Barrier Reef. Billions of dollars have been spent on improving water quality in the reef environment, yet nutrient budgets and the sources of pollution remain poorly quantified. This project expects to use cutting-edge technology and modelling to quantify the legacy of past land use practices on groundwater reef-nutrient dynamics. The expected outcomes of this study will provide both land and marine managers with crucial insight into how to allocate resources to best manage water quality to meet desired environmental outcomes.Read moreRead less
Genomics and evolution of symbiont transmission in coral reefs. This project aims to understand more deeply the symbiosis between coral and the alga Symbiodinium that underpins the primary productivity, biodiversity and economic impacts of Australia's iconic Great Barrier Reef. Reef-building corals are sustained by symbiosis between the coral and the alga Symbiodinium, and breakdown of symbiosis under environmental stress leads to coral bleaching and death. This project aims to understand how ge ....Genomics and evolution of symbiont transmission in coral reefs. This project aims to understand more deeply the symbiosis between coral and the alga Symbiodinium that underpins the primary productivity, biodiversity and economic impacts of Australia's iconic Great Barrier Reef. Reef-building corals are sustained by symbiosis between the coral and the alga Symbiodinium, and breakdown of symbiosis under environmental stress leads to coral bleaching and death. This project aims to understand how genomes of differently acquired Symbiodinium have evolved to support symbiosis with corals, through sequencing of algal genomes of Symbiodinium. This knowledge will improve the precision in predicting change to inform decision-making strategies in the conservation and restoration of coral reefs.Read moreRead less
Symbiodinium: the evolutionary transition to coral reef symbiont. Coral reefs are sustained by symbiosis between the coral host and dinoflagellates of genus Symbiodinium. Breakdown of this symbiosis under environmental stress results in coral bleaching and eventual death. This project aims to understand how dinoflagellate genomes have evolved to support a symbiotic lifestyle. The project aims to sequence genomes of Symbiodinium from reef corals and other hosts, and two free-living relatives. Thi ....Symbiodinium: the evolutionary transition to coral reef symbiont. Coral reefs are sustained by symbiosis between the coral host and dinoflagellates of genus Symbiodinium. Breakdown of this symbiosis under environmental stress results in coral bleaching and eventual death. This project aims to understand how dinoflagellate genomes have evolved to support a symbiotic lifestyle. The project aims to sequence genomes of Symbiodinium from reef corals and other hosts, and two free-living relatives. This should enable the identification of genes that have been gained or lost, or are under adaptive selection. This genome-scale perspective on the molecular systems implicated in the evolution of this symbiotic lifestyle has potential to inform strategies for preserving Australia's Great Barrier Reef in the face of climate variations.Read moreRead less
Ecological valuation tools to protect seagrass during coastal development. Ecological valuation tools to protect seagrass during coastal development. Focussing on differences between shallow and deep seagrasses in the Great Barrier Reef, this project aims to develop a spatial valuation tool so resource managers and policy makers can minimise the effect of port development on seagrass ecosystems. Seagrasses provide ecosystem services (fisheries, nutrient cycling, primary productivity) worth trill ....Ecological valuation tools to protect seagrass during coastal development. Ecological valuation tools to protect seagrass during coastal development. Focussing on differences between shallow and deep seagrasses in the Great Barrier Reef, this project aims to develop a spatial valuation tool so resource managers and policy makers can minimise the effect of port development on seagrass ecosystems. Seagrasses provide ecosystem services (fisheries, nutrient cycling, primary productivity) worth trillions of dollars, but coastal development threatens this capacity. Resource managers lack accurate information about their potential effect and mitigation measures. Anticipated outcomes are protection of key marine environment and World Heritage Assets, and benefits to Australia’s economy through maintenance of ecosystem services and reduced risk associated with development.Read moreRead less
Beyond burial: redefining the blue carbon paradigm. This project aims to constrain the magnitude and drivers of alkalinity and greenhouse gas fluxes in mangroves. Mangroves cover less than 0.03 per cent of the Earth’s surface yet account for approximately 14 per cent of oceanic carbon burial. Mangroves also export alkalinity to the coastal ocean, and act as sources of methane and nitrous oxide. The effect of these fluxes on climate may exceed carbon burial by several-fold, but are unaccounted fo ....Beyond burial: redefining the blue carbon paradigm. This project aims to constrain the magnitude and drivers of alkalinity and greenhouse gas fluxes in mangroves. Mangroves cover less than 0.03 per cent of the Earth’s surface yet account for approximately 14 per cent of oceanic carbon burial. Mangroves also export alkalinity to the coastal ocean, and act as sources of methane and nitrous oxide. The effect of these fluxes on climate may exceed carbon burial by several-fold, but are unaccounted for in blue carbon budgets. This project will couple high-resolution radionuclide geochronology of soil carbon cycling with autonomous measurements of aquatic exports and greenhouse gas fluxes. This study will provide the detailed data required to refine the blue carbon paradigm.Read moreRead less
Ocean acidification and marine fish: an evolutionary perspective. The overarching aim of this project is to advance knowledge on the long-term impacts of ocean acidification on marine fish and fisheries. An interrelated set of projects will be developed that tests the capacity of marine fish to adapt to projected future rises in ocean carbon dioxide and will investigate the effects of ocean acidification on apex predators and key fisheries species. The research will address critical knowledge ga ....Ocean acidification and marine fish: an evolutionary perspective. The overarching aim of this project is to advance knowledge on the long-term impacts of ocean acidification on marine fish and fisheries. An interrelated set of projects will be developed that tests the capacity of marine fish to adapt to projected future rises in ocean carbon dioxide and will investigate the effects of ocean acidification on apex predators and key fisheries species. The research will address critical knowledge gaps in ocean acidification research and provide advice about the impacts of ocean acidification on marine biodiversity and fisheries productivity on time scales relevant to strategic management and policy decision-making in Australia and internationally.Read moreRead less
Phenotypic and adaptive responses to environmental change. This project aims to investigate how environmental change will effect coral reef fish by assessing adaptive responses in a model species. This project expects to generate new knowledge on the interplay between adaption and plasticity both within and across generations using novel experimental designs. Expected outcomes include improved models of fish acclimation and adaptation to environmental change and an enhanced evidence base to info ....Phenotypic and adaptive responses to environmental change. This project aims to investigate how environmental change will effect coral reef fish by assessing adaptive responses in a model species. This project expects to generate new knowledge on the interplay between adaption and plasticity both within and across generations using novel experimental designs. Expected outcomes include improved models of fish acclimation and adaptation to environmental change and an enhanced evidence base to inform the management of cumulative impacts. This will provide significant benefits to Australian and international communities that rely on fish for nutrition, economic and/or social value.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100007
Funder
Australian Research Council
Funding Amount
$330,000.00
Summary
An integrated facility for the advanced characterisation of environmental particles. An integrated facility for the advanced characterisation of environmental particles: This project will result in development of a state-of-the-art facility for comprehensive determination of particle size, concentration and surface properties for a wide range of environmentally occurring particles, in rapid succession. Combining several novel and advanced instruments into an integrated facility will permit in si ....An integrated facility for the advanced characterisation of environmental particles. An integrated facility for the advanced characterisation of environmental particles: This project will result in development of a state-of-the-art facility for comprehensive determination of particle size, concentration and surface properties for a wide range of environmentally occurring particles, in rapid succession. Combining several novel and advanced instruments into an integrated facility will permit in situ and kinetic experiments that are currently unable to be easily undertaken anywhere in Australia. This will enable major progress for internationally significant research activities in areas including sediment geochemistry, contaminant mobility, and biogeochemistry. The project will thus help to address several pressing global environmental issues while adding substantial new capabilities for Australian research.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE140101733
Funder
Australian Research Council
Funding Amount
$395,220.00
Summary
The mangrove carbon pump: Resolving the contribution of underground respiration to mangrove greenhouse gas and carbon budgets. Mangroves are considered an important global carbon sink. However, there is an imbalance of about 50 per cent in mangrove carbon budgets. This project will resolve whether advective pore water exchange and associated underground respiration represents the missing component of mangrove carbon and greenhouse gas budgets. This innovative project will examine the previously ....The mangrove carbon pump: Resolving the contribution of underground respiration to mangrove greenhouse gas and carbon budgets. Mangroves are considered an important global carbon sink. However, there is an imbalance of about 50 per cent in mangrove carbon budgets. This project will resolve whether advective pore water exchange and associated underground respiration represents the missing component of mangrove carbon and greenhouse gas budgets. This innovative project will examine the previously overlooked concept that crab burrow flushing is a major driver of biogeochemical reactions in mangroves. It will use a combination of new experimental and modelling approaches and will contribute to closing a significant gap in our understanding of the coastal carbon cycle.Read moreRead less