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
Evaluating the weather in climate models - the relationship of dynamics and rainfall over Australia in current and future climates. Climate change will be experienced by society as a change in the day-to-day weather. This project will investigate the capabilities of modern climate models in simulating the weather with a particular focus on rainfall, and will provide guidance to the use of these models in projections of the future of Australia's climate.
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
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
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
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
Narrowing the scatter and assessing the uncertainty of climate change projections of Australian river flows. Recent prolonged dry conditions in south-eastern Australia have triggered water restrictions in major cities, zero irrigation allocations in the Murray-Darling region and highlighted the importance of water to this country. This project represents an integrated package of research that will enhance our understanding of the uncertainty of future annual river flows, leading to more informed ....Narrowing the scatter and assessing the uncertainty of climate change projections of Australian river flows. Recent prolonged dry conditions in south-eastern Australia have triggered water restrictions in major cities, zero irrigation allocations in the Murray-Darling region and highlighted the importance of water to this country. This project represents an integrated package of research that will enhance our understanding of the uncertainty of future annual river flows, leading to more informed decision making for the sustainable management of Australia’s increasingly scarce water resources. The outcomes from this project are highly relevant to the national research priority “An Environmentally Sustainable Australia”, particularly priority goals “Water - a critical resource” and “Responding to climate change and variability”.Read moreRead less
Tropical and mid- and high latitude cyclones in a time of climate change: New insights and integration. Significant national and community benefits will be derived. Australian weather and climate variability, particularly with respect to rainfall, is influenced dramatically by meteorological features in the tropics and the extratropics. Enhanced understanding of these and their interactions will lead to increased comprehension of the causes of Australian rainfall variability and trends. There ar ....Tropical and mid- and high latitude cyclones in a time of climate change: New insights and integration. Significant national and community benefits will be derived. Australian weather and climate variability, particularly with respect to rainfall, is influenced dramatically by meteorological features in the tropics and the extratropics. Enhanced understanding of these and their interactions will lead to increased comprehension of the causes of Australian rainfall variability and trends. There are also benefits in that the project's timing is very opportune and will be able to derive benefit for Australia by participation in a number of large international programs. The personnel and students will derive considerable profit from expose to these.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130100663
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Understanding the termination of El Nino-Southern Oscillation events. Australia's climate is extreme, with significant drought and flooding events driven by cycles of the El Nino-Southern Oscillation (ENSO). This study will improve our understanding of the termination of ENSO events and lead to better inter-seasonal climate forecasting, aiding the sectors reliant on accurate climate prediction.
Discovery Early Career Researcher Award - Grant ID: DE130100668
Funder
Australian Research Council
Funding Amount
$351,805.00
Summary
The further back we look, the further forward we can see: 1,000 years of past climate to help predict future climate change in Australia. Reconstructing 1,000 years of Australia's past climate will greatly extend our understanding of natural climate variability currently estimated from weather observations. For the first time, Australian climate variations over the last millennium will be used to assess the accuracy of climate model simulations for our region.