Simulated Changes in Tropical Cyclone Size, Accumulated Cyclone Energy and Power Dissipation Index in a Warmer Climate

Simulated Changes in Tropical Cyclone Size, Accumulated Cyclone Energy and Power Dissipation Index in a Warmer Climate

Detection, attribution and projection of changes in tropical cyclone intensity statistics are made difficult from the potentially decreasing overall storm frequency combined with increases in the peak winds of the most intense storms as the climate warms. Multi-decadal simulations of stabilized clim...

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Veröffentlicht in:Oceans (Basel, Switzerland) Switzerland), 2021-12, Vol.2 (4), p.688-699
1. Verfasser: Wehner, Michael
Format: Artikel
Sprache:eng
Schlagworte:
accumulated cyclone energy index
Atmospheric circulation
Boundary conditions
Climate change
Cyclones
Environmental impact
General circulation models
Global warming
Human influences
Hurricanes
Influence
power dissipation index
Precipitation
Simulation
Standard deviation
Statistical methods
Statistics
Storms
Temperature
Tropical climate
Tropical cyclones
Winds
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Beschreibung
Zusammenfassung:Detection, attribution and projection of changes in tropical cyclone intensity statistics are made difficult from the potentially decreasing overall storm frequency combined with increases in the peak winds of the most intense storms as the climate warms. Multi-decadal simulations of stabilized climate scenarios from a high-resolution tropical cyclone permitting atmospheric general circulation model are used to examine simulated global changes from warmer temperatures, if any, in estimates of tropical cyclone size, accumulated cyclonic energy and power dissipation index. Changes in these metrics are found to be complicated functions of storm categorization and global averages of them are unlikely to easily reveal the impact of climate change on future tropical cyclone intensity statistics.
ISSN:2673-1924
2673-1924
DOI:10.3390/oceans2040039