Benthic Processes and Oceanic Internal Waves. Direct observations will be made of the turbulent motion and sediment re-suspension near the sea bed of the ocean in regions strongly influenced by tides and internal waves. Combined with numerical models, the study will provide new insights into processes that are of fundamental importance to understanding the global dissipation of tidal energy and the role of internal waves in these processes. With observations from the continental slope region of ....Benthic Processes and Oceanic Internal Waves. Direct observations will be made of the turbulent motion and sediment re-suspension near the sea bed of the ocean in regions strongly influenced by tides and internal waves. Combined with numerical models, the study will provide new insights into processes that are of fundamental importance to understanding the global dissipation of tidal energy and the role of internal waves in these processes. With observations from the continental slope region of the Australian North West Shelf, results will also benefit the offshore engineering industry through knowledge of sediment scour and loadings on offshore structures.Read moreRead less
Forecasting wave breaking in directional seas. Wave breaking in Australia's coastal and open ocean regions has significant consequences for weather forecasting, marine safety, defence and renewable energy, yet no conceptual or computing framework exists for this fundamental process. This innovative project extends our recent advances in predicting wave breaking onset and strength of unidirectional wave groups to forecast breaking in realistic directional wind seas. The results of this project wi ....Forecasting wave breaking in directional seas. Wave breaking in Australia's coastal and open ocean regions has significant consequences for weather forecasting, marine safety, defence and renewable energy, yet no conceptual or computing framework exists for this fundamental process. This innovative project extends our recent advances in predicting wave breaking onset and strength of unidirectional wave groups to forecast breaking in realistic directional wind seas. The results of this project will provide the scientific basis needed to include reliable breaking wave information in forecast models, and will improve their accuracy. It will also increase the international competitiveness of Australian commerce reliant on accurate marine environmental forecasts.
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Coastal cold core eddies of the East Australian Current and their fisheries potential. Offshore eddies shed by the East Australian Current can draw in coastal water from the Stockton Bight on the NSW central coast. This area is anecdotally recognized as a fisheries nursery area. It is often enriched by upwelling of cold, nutrient-rich waters which can seed these eddies with larval fish and their food. We will test if such eddies nurture plankton communities and then transport them back to the co ....Coastal cold core eddies of the East Australian Current and their fisheries potential. Offshore eddies shed by the East Australian Current can draw in coastal water from the Stockton Bight on the NSW central coast. This area is anecdotally recognized as a fisheries nursery area. It is often enriched by upwelling of cold, nutrient-rich waters which can seed these eddies with larval fish and their food. We will test if such eddies nurture plankton communities and then transport them back to the coast, giving rise to a useful index for predicting future fisheries, as well as explaining biodiversity changes to marine park planners. We will provide a census of these eddies during El Nino-Southern Oscillation events and climate change of the past 15 years in unprecedented detail.Read moreRead less
Eddy mixing and water mass formation in the Southern Ocean in a global 1/4 degree model. The next generation of ocean climate models will rely on linkages between experts in large-scale oceanography, mesoscale ocean physics and computational techniques. This project brings together such expertise. It will result in the development of better ocean models for use in climate prediction by improving the representation of eddy contributions to air/sea interactions. Australia's climate is extreme, wi ....Eddy mixing and water mass formation in the Southern Ocean in a global 1/4 degree model. The next generation of ocean climate models will rely on linkages between experts in large-scale oceanography, mesoscale ocean physics and computational techniques. This project brings together such expertise. It will result in the development of better ocean models for use in climate prediction by improving the representation of eddy contributions to air/sea interactions. Australia's climate is extreme, with harsh droughts, severe bushfire seasons, soil loss, and salinity all posing potentially enormous socio-economic challenges over the next fifty years. Improving climate models is thus highly significant for Australia, as mitigating the effects of climate change depend on reliable climate prediction systems.Read moreRead less
Advancing dynamical understanding in the East Australian Current: Optimising the ocean observation and prediction effort. The East Australian Current is a highly dynamic system, thus is very difficult to observe, measure and predict. Our aim is to advance the dynamical understanding of this complex system and to quantify the value of specific observations in improving ocean state-estimates. State-estimates are critical for robust ocean predictions in a region that is warming faster than anywhere ....Advancing dynamical understanding in the East Australian Current: Optimising the ocean observation and prediction effort. The East Australian Current is a highly dynamic system, thus is very difficult to observe, measure and predict. Our aim is to advance the dynamical understanding of this complex system and to quantify the value of specific observations in improving ocean state-estimates. State-estimates are critical for robust ocean predictions in a region that is warming faster than anywhere else on the planet. This project will integrate innovative numerical modeling techniques with a state-of-the-art ocean observing system. The expected outcomes will guide future ocean observing efforts; maximising impact while reducing cost. The results will be readily applicable to analogous systems around the world and our team is well placed to implement them internationally.Read moreRead less
Quantifying the role of salps in marine food webs and organic carbon export. Australia has recently committed significant resources to the observation and forecasting of ocean temperature and circulation that will vastly improve the understanding of environmental forcing of regional scale biological processes. This project will use ocean circulation hindcasts, ship-board measurements and laboratory studies to capture the dynamics of the zooplankton community, and in particular a fast-growing cla ....Quantifying the role of salps in marine food webs and organic carbon export. Australia has recently committed significant resources to the observation and forecasting of ocean temperature and circulation that will vastly improve the understanding of environmental forcing of regional scale biological processes. This project will use ocean circulation hindcasts, ship-board measurements and laboratory studies to capture the dynamics of the zooplankton community, and in particular a fast-growing class of gelatinous zooplankton, the salps, in the waters off southeast Australia. During bloom events, salps can alter the functioning of marine ecosystems. This project will quantify the impact of salp blooms on fish resources and ocean uptake of carbon in southeast Australian waters.Read moreRead less
Development of a coupled physical-biological model of size-structured biota in marine waters. The marine environment contains highly valued economic, social and environmental resources. Natural resource management in Australia is shifting from considering the value of a single resource, such as the South Eastern Trawl Fishery, to considering complete ecosystems with their multiple uses, such as the South East Australian coastal and shelf waters. With such a shift in perspective, Australia is a w ....Development of a coupled physical-biological model of size-structured biota in marine waters. The marine environment contains highly valued economic, social and environmental resources. Natural resource management in Australia is shifting from considering the value of a single resource, such as the South Eastern Trawl Fishery, to considering complete ecosystems with their multiple uses, such as the South East Australian coastal and shelf waters. With such a shift in perspective, Australia is a world leader. A new suite of tools is required to understand ecosystem dynamics and to formulate management strategies. By providing well-defined manageable outputs from a complex natural system the coupled physical-biological model to be developed will provide such a tool.Read moreRead less
What controls the shift from a hot house climate to a cold house climate: the Eocene/ Oligocene climate transition and greenhouse warming. This study contributes to putting Australia on the map as a centre of excellence in the study of past climates as well as in global warming research. It aims at a greater understanding of the dynamics of past warm climate states. This could ultimately lead to a better knowledge of the formation of the ancient deposits that we mine in Australia today. Furtherm ....What controls the shift from a hot house climate to a cold house climate: the Eocene/ Oligocene climate transition and greenhouse warming. This study contributes to putting Australia on the map as a centre of excellence in the study of past climates as well as in global warming research. It aims at a greater understanding of the dynamics of past warm climate states. This could ultimately lead to a better knowledge of the formation of the ancient deposits that we mine in Australia today. Furthermore, the study of these past warm climates tells us something about current global warming as both involve increased levels of carbon in the atmosphere. The impact of climate change on Australia is likely to be large. Our study of past warm climates helps to gain an understanding of the mechanisms behind climate change and help quantify the risks of climate change posed to Australia.Read moreRead less
Coastal Processes Driven by the East Australia Current. Coastal waters of Northern NSW are dominated by the East Australia Current (EAC). Through its strength, variability in space and time, and its proximity to the coast, the EAC directly controls not only the longshore currents, but also the cross-shelf transport of nutrients, plankton and other biota. A knowledge of EAC dynamics and ocean productivity will be achieved in this project by comparison of results from high resolution ocean models ....Coastal Processes Driven by the East Australia Current. Coastal waters of Northern NSW are dominated by the East Australia Current (EAC). Through its strength, variability in space and time, and its proximity to the coast, the EAC directly controls not only the longshore currents, but also the cross-shelf transport of nutrients, plankton and other biota. A knowledge of EAC dynamics and ocean productivity will be achieved in this project by comparison of results from high resolution ocean models (having additional biological modules) with data from Research Vessel Franklin cruises in 1998 and 1999.Read moreRead less
The equable climate conundrum: the role of the global ocean in multiple climate regimes. This study will enhance Australia's global engagement in the research of past climates and global warming, and lead to a better understanding of the dynamics and modelling of warm climate states. This will contribute significantly to climate research in Australia and could lead to a better knowledge of the formation of the ancient deposits that we mine today. Furthermore, the study of past warm climates tel ....The equable climate conundrum: the role of the global ocean in multiple climate regimes. This study will enhance Australia's global engagement in the research of past climates and global warming, and lead to a better understanding of the dynamics and modelling of warm climate states. This will contribute significantly to climate research in Australia and could lead to a better knowledge of the formation of the ancient deposits that we mine today. Furthermore, the study of past warm climates tells us something about current global warming, as both involve increased levels of carbon in the atmosphere. The impact of climate change on Australia is likely to be large. This study of past warm climates will improve our understanding of climate change physics and help quantify the risks of climate change posed to Australia.Read moreRead less