Cover Monthly Weather Review
Monthly Weather Review
All Time Past Year Past 30 Days
Abstract Views 0 0 0
Full Text Views 52 22 5
PDF Downloads 26 18 5
Editorial Type:
Article
Article Type:
Research Article

The Response of an Axisymmetric Model Tropical Cyclone to Local Variations of Sea Surface Temperature

Simon W-J. ChangJaycor, Alexandira, VA 22304

Search for other papers by Simon W-J. Chang in
Current site
Google Scholar
PubMedClose
Print Publication:
01 Jun 1979
DOI:
https://doi.org/10.1175/1520-0493(1979)107<0662:TROAAM>2.0.CO;2
Page(s):
662–666
Full access

Abstract

An axisymmetric, multilayer, numerical tropical cyclone model with a well-resolved planetary boundary layer is used to test the response of local, instantaneous changes of sea surface temperature (SST). One experiment shows that the storm's intensity is steadily decreased as the SST in the inner 300 km is instantaneously cooled by 2°C. However, in the second experiment, in which the SST is cooled by 2°C outside the radius of 300 km, the storm shows no immediate and appreciable weakening. The intensity of the tropical cyclone in this case is maintained by enhanced evaporation in the inner 300 km and increased baroclinicity.

Abstract

An axisymmetric, multilayer, numerical tropical cyclone model with a well-resolved planetary boundary layer is used to test the response of local, instantaneous changes of sea surface temperature (SST). One experiment shows that the storm's intensity is steadily decreased as the SST in the inner 300 km is instantaneously cooled by 2°C. However, in the second experiment, in which the SST is cooled by 2°C outside the radius of 300 km, the storm shows no immediate and appreciable weakening. The intensity of the tropical cyclone in this case is maintained by enhanced evaporation in the inner 300 km and increased baroclinicity.

Save