Atmospheric dynamics is all about understanding the physical processes which bring us our daily weather and determine the global structure of the atmosphere. Possibly more than any other field in climate science, atmospheric dynamics has the power to explain the evolution of weather and climate extremes across a range of scales, as it is the dynamics that determine when, where and why an event becomes extreme.
Despite climate change being one of the major challenges over the 21st century, atmospheric dynamics is still one of the most important sources of uncertainty in predicting future climate variability and risks associated with extreme weather events, according to the latest International Panel on Climate Change (IPCC) Assessment Report.
This workshop aims to bring together a community of experts in atmospheric dynamics with the ultimate goal of increasing our confidence in forecasts and future projections. It will assess current knowledge and identify important knowledge gaps, to guide and support research in atmospheric dynamics.
More information is available on the event webpage.
Date: Tuesday 20 – Thursday 22 August 2024
Deadline: Register your interest by 30 April 2024
Cost: Free
Venue: Monash Conference Centre, Melbourne
Program: TBA
Contact: Dr Martin Jucker, Climate Change Research Centre, UNSW – martin.jucker@unsw.edu.au
This event is partially funded by Elizabeth and Frederick White research conferences.
With the generous support of the late Lady Elizabeth White MBBS and the late Sir Frederick White FAA FRS, the Australian Academy of Science established support for research conferences in the physical and mathematical sciences related to the solid Earth, the terrestrial oceans, Earth's atmosphere, solar-terrestrial science, space sciences and astronomy.
The purpose of the conferences is to advance at the most fundamental level of the understanding of the subject, to introduce to Australian research new aspects or directions, and to encourage participation of overseas scientists.
More information on Elizabeth and Frederick White research conferences
martin.jucker@unsw.edu.au
Atmospheric dynamics is all about understanding the physical processes which bring us our daily weather and determine the global structure of the atmosphere. Possibly more than any other field in climate science, atmospheric dynamics has the power to explain the evolution of weather and climate extremes across a range of scales, as it is the dynamics that determine when, where and why an event becomes extreme.
Despite climate change being one of the major challenges over the 21st century, atmospheric dynamics is still one of the most important sources of uncertainty in predicting future climate variability and risks associated with extreme weather events, according to the latest International Panel on Climate Change (IPCC) Assessment Report.
This workshop aims to bring together a community of experts in atmospheric dynamics with the ultimate goal of increasing our confidence in forecasts and future projections. It will assess current knowledge and identify important knowledge gaps, to guide and support research in atmospheric dynamics.
More information is available on .
Date: Tuesday 20 – Thursday 22 August 2024
Deadline: by 30 April 2024
Cost: Free
Venue: Monash Conference Centre, Melbourne
Program: TBA
Contact: Dr Martin Jucker, Climate Change Research Centre, UNSW –
This event is partially funded by Elizabeth and Frederick White research conferences.
With the generous support of the late Lady Elizabeth White MBBS and the late Sir Frederick White FAA FRS, the Australian Academy of Science established support for research conferences in the physical and mathematical sciences related to the solid Earth, the terrestrial oceans, Earth's atmosphere, solar-terrestrial science, space sciences and astronomy.
The purpose of the conferences is to advance at the most fundamental level of the understanding of the subject, to introduce to Australian research new aspects or directions, and to encourage participation of overseas scientists.
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martin.jucker@unsw.edu.au
© 2024 Australian Academy of Science
