Review of Australian east coast low pressure systems and associated extremes

Intense cyclones often result in severe impacts on mid-latitude coastal regions of southeastern Australia, including those due to associated natural hazards such as extreme winds, ocean waves, storm surges, precipitation, flooding, erosion, lightning and tornadoes in some cases. These low-pressure s...

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Bibliographic Details
Published in:Climate dynamics 2019-10, Vol.53 (7-8), p.4887-4910
Main Authors: Dowdy, Andrew J., Pepler, Acacia, Di Luca, Alejandro, Cavicchia, Leone, Mills, Graham, Evans, Jason P., Louis, Simon, McInnes, Kathleen L., Walsh, Kevin
Format: Article
Language:English
Subjects:
Climate trends
Climatology
Coastal zone
Cyclones
Earth and Environmental Science
Earth Sciences
Erosion
Extreme weather
Flooding
Floods
Geophysics/Geodesy
Hazards
Latitude
Lightning
Low pressure
Low pressure systems
Meteorology
Ocean waves
Oceanography
Oceans
Precipitation
Pressure
Regions
Storm surges
Storms
Surface water waves
Synthesis
Tornadoes
Tropical climate
Weather
Winds
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Summary:Intense cyclones often result in severe impacts on mid-latitude coastal regions of southeastern Australia, including those due to associated natural hazards such as extreme winds, ocean waves, storm surges, precipitation, flooding, erosion, lightning and tornadoes in some cases. These low-pressure systems, known as east coast lows (ECLs), have been examined in a wide range of different studies, with considerable variations between such studies in what they consider to be an ECL, and their findings on the characteristics of these storm systems. Here we present reviews of literature and other information such as operational forecasting approaches, which are then used to produce a comprehensive synthesis of knowledge on ECLs and associated weather and ocean extremes. This includes aspects such as their definition, formation, meteorology, climatology and drivers of variability from short-term weather time scales up to long-term historical climate trends and future projections. Australian ECLs are also considered here in relation to similar phenomena from other regions of the world. A definition based on this synthesis of knowledge is as follows: ECLs are cyclones near southeastern Australia that can be caused by both mid-latitude and tropical influences over a range of levels in the atmosphere; Intense ECLs have at least one major hazard associated with their occurrence, including extreme winds, waves, rain or flooding. Knowledge gaps are examined and used to provide recommendations for future research priorities. This study is intended to lead to improved guidance and preparedness in relation to the impacts of these storms.
ISSN:0930-7575
1432-0894
DOI:10.1007/s00382-019-04836-8