Tropical convection and its contribution to climate variability. This research will provide the necessary data to test and improve the representation of tropical convective clouds in weather forecast and climate simulation models. This will lead to more robust estimates of future climate change, and improved prediction of precipitation in the Australian tropics. This project will also provide training to undergraduate and postgraduate students in using modern computer models; such models will be ....Tropical convection and its contribution to climate variability. This research will provide the necessary data to test and improve the representation of tropical convective clouds in weather forecast and climate simulation models. This will lead to more robust estimates of future climate change, and improved prediction of precipitation in the Australian tropics. This project will also provide training to undergraduate and postgraduate students in using modern computer models; such models will be a key component of weather forecasting in the future.Read moreRead less
Special Research Initiatives - Grant ID: SR0566976
Funder
Australian Research Council
Funding Amount
$50,000.00
Summary
eScience and Climate: Using Grid technology to build capacity in studies of Australian climate variability. Australia possesses capability in the area of palaeoclimate modelling, but efforts to understand our past natural climate variations are hampered by the computational profligacy of such models. Further, Australia does not possess a capability in intermediate complexity models which would allow experiments that take account of tectonic time scales. This initiative aims to develop a framewor ....eScience and Climate: Using Grid technology to build capacity in studies of Australian climate variability. Australia possesses capability in the area of palaeoclimate modelling, but efforts to understand our past natural climate variations are hampered by the computational profligacy of such models. Further, Australia does not possess a capability in intermediate complexity models which would allow experiments that take account of tectonic time scales. This initiative aims to develop a framework to allow the integration of climate system models with grid computing approaches (such as Nimrod/G) and test this framework on a pilot study of the Australian palaeomonsoon system. In addition, we will use this initiative to develop international linkages to enhance our ability to address problems of importance to Australian natural climate variability.Read moreRead less
Storm activity in the Arctic and implications for rapid climate change in polar regions. Australia's weather and climate is influenced in a myriad of ways by Antarctica and its environs. The complex manners in which weather systems interact with polar processes are fundamental in understanding these links. The dramatic changes which the Arctic has undergone in recent years present a very valuable environmental framework for understanding how the complex polar weather - climate connections change ....Storm activity in the Arctic and implications for rapid climate change in polar regions. Australia's weather and climate is influenced in a myriad of ways by Antarctica and its environs. The complex manners in which weather systems interact with polar processes are fundamental in understanding these links. The dramatic changes which the Arctic has undergone in recent years present a very valuable environmental framework for understanding how the complex polar weather - climate connections change during a period of rapid change. This is of great national and community benefit in that it will lead to a fuller understanding of the polar regions, and present a broader context in which precipitation and other changes over southern Australia can be understood.Read moreRead less
Rainfall over the Maritime Continent and Northern Australia. Australia's proximity to the tropics results in major influences, both direct and indirect, of tropical weather and climate on society as a whole. Tropical convection is key to all those influences. The prediction of the many natural hazards related to convection as well as a projection of the influence and strength of these hazards under climate change is a matter of high national priority. Through an improved understanding of convect ....Rainfall over the Maritime Continent and Northern Australia. Australia's proximity to the tropics results in major influences, both direct and indirect, of tropical weather and climate on society as a whole. Tropical convection is key to all those influences. The prediction of the many natural hazards related to convection as well as a projection of the influence and strength of these hazards under climate change is a matter of high national priority. Through an improved understanding of convection over tropical Australia and in its vicinity, the proposed research will improve our predictive tools and capabilities, thereby making a major contribution to decision-making in an environmentally sustainable Australia.Read moreRead less
Extratropical cyclone trends in current and future climate and associations with southern Australia rainfall. A sophisticated cyclone locating and tracking scheme will be applied to the NCEP-2 global atmospheric reanalysis (1979-2003) to derive new and comprehensive compilations of Southern Hemisphere synoptic activity at all tropospheric levels up to 300 hPa. Trends in cyclone behaviour will be identified and related to changes in precipitation over southern Australia. The approach will be exte ....Extratropical cyclone trends in current and future climate and associations with southern Australia rainfall. A sophisticated cyclone locating and tracking scheme will be applied to the NCEP-2 global atmospheric reanalysis (1979-2003) to derive new and comprehensive compilations of Southern Hemisphere synoptic activity at all tropospheric levels up to 300 hPa. Trends in cyclone behaviour will be identified and related to changes in precipitation over southern Australia. The approach will be extended to results from a simulation of future climate under enhanced greenhouse conditions. The extent to which extreme cyclone and precipitation events become more numerous in a warmer world will be determined and the links between them established.Read moreRead less
Precise constraints on the timing and nature of late Quaternary glacial-interglacial climatic transitions in the Southwest Pacific region. An accurate understanding of major climatic transitions during the recent geological past is critical to efforts to understand global climate. This project seeks to investigate precisely when the most recent ice ages began and ended in the Southwest Pacific region relative to other regions of the world, by examining chemical and isotopic records contained in ....Precise constraints on the timing and nature of late Quaternary glacial-interglacial climatic transitions in the Southwest Pacific region. An accurate understanding of major climatic transitions during the recent geological past is critical to efforts to understand global climate. This project seeks to investigate precisely when the most recent ice ages began and ended in the Southwest Pacific region relative to other regions of the world, by examining chemical and isotopic records contained in New Zealand cave deposits. Using state-of-the-art analytical technology, precisely dated records of glacier activity and environmental change will be produced.Read moreRead less
Reengineering a dynamic vegetation model to explore the stability of Australian terrestrial carbon. Overseas models do not represent Australian biophysical processes well: our flora and fauna are unique and our soils are old and nutrient poor. In contrast, the National Carbon Accounting System (NCAS) is a world-class framework for estimating current carbon processes. By building NCAS expertise into an overseas model of soil and vegetation processes we can develop the capacity to increase our con ....Reengineering a dynamic vegetation model to explore the stability of Australian terrestrial carbon. Overseas models do not represent Australian biophysical processes well: our flora and fauna are unique and our soils are old and nutrient poor. In contrast, the National Carbon Accounting System (NCAS) is a world-class framework for estimating current carbon processes. By building NCAS expertise into an overseas model of soil and vegetation processes we can develop the capacity to increase our confidence in future projections of carbon and vegetation change. Our proposal, linking Universities, CSIRO and the Australian Greenhouse Office establishes a team that is internationally competitive. It will enhance local expertise and local model development to ensure national policy development is underpinned by world-class science.Read moreRead less
Global objective identification and tracking of atmospheric fronts and the role of fronts in climate change. Fronts, particularly those in the Indian and Southern Oceans, have a very strong impact on day-to-day weather over a vast proportion of Australia. Frontal systems are associated with a broad range of weather and climate parameters which affect people directly. These include precipitation, temperature, wind and a variety of extremes. The quality global climatology of fronts to be compiled ....Global objective identification and tracking of atmospheric fronts and the role of fronts in climate change. Fronts, particularly those in the Indian and Southern Oceans, have a very strong impact on day-to-day weather over a vast proportion of Australia. Frontal systems are associated with a broad range of weather and climate parameters which affect people directly. These include precipitation, temperature, wind and a variety of extremes. The quality global climatology of fronts to be compiled in this project will allow reliable assessments of how frontal systems have changed, and may be expected to change in the next century. Great community benefit will derive from understanding how these are linked with changes in Australian weather and climate extremes, and to decreases in rainfall over southern Australia in recent decades.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989067
Funder
Australian Research Council
Funding Amount
$950,000.00
Summary
The future of palaeoclimate and archaeological research in Australia: next generation instrumentation for chronology and environmental reconstruction. The outcomes of this project will promote a better understanding of Australia's arid continent and its surrounding marine environment, contribute to studies of global climate change, and provide new insights into the response of fragile ecosystems to such events and processes. The project addresses directly the National Research Priority 'Water - ....The future of palaeoclimate and archaeological research in Australia: next generation instrumentation for chronology and environmental reconstruction. The outcomes of this project will promote a better understanding of Australia's arid continent and its surrounding marine environment, contribute to studies of global climate change, and provide new insights into the response of fragile ecosystems to such events and processes. The project addresses directly the National Research Priority 'Water - a critical resource', 'Responding to climate change and variability', 'Overcoming soil loss, salinity and acidity', 'Sustainable use of Australia's biodiversity' and 'Understanding our region and the world'. It provides a consortium-type platform for highly productive collaborative research and training across eight universities and one research organisation in Australia.Read moreRead less
Reconstructing pre-20th century rainfall, temperature and pressure for south-eastern Australia using palaeoclimate, documentary and early weather station data. South-eastern Australia is in the grip of a severe water crisis due to the worst drought in recorded history and increasing temperatures. This landmark project brings together a team of Australia's leading climate scientists, water managers and historians with the common goal of reconstructing south-eastern Australia's climate history. Th ....Reconstructing pre-20th century rainfall, temperature and pressure for south-eastern Australia using palaeoclimate, documentary and early weather station data. South-eastern Australia is in the grip of a severe water crisis due to the worst drought in recorded history and increasing temperatures. This landmark project brings together a team of Australia's leading climate scientists, water managers and historians with the common goal of reconstructing south-eastern Australia's climate history. The greatly extended record of annual rainfall and temperature variability will allow better planning for water storage and use, and improved testing of climate model simulations. Improving our understanding of the historical impacts of climate extremes on society will assist with planning for life in a hotter and drier future.Read moreRead less