Article Type:
Research Article

A Numerical Exploration of the Sensitivity of Tropical Cyclone Rainfall Intensity to Sea Surf@ace Temperature

Jenni L. Evans Water and Climate Program, CSIRO Division of atmospheric Research, Mordialloc, Victoria

Search for other papers by Jenni L. Evans in
Current site
Google Scholar
PubMed Close
,
Brian F. Ryan Water and Climate Program, CSIRO Division of atmospheric Research, Mordialloc, Victoria

Search for other papers by Brian F. Ryan in
Current site
Google Scholar
PubMed Close
, and
John L. McGregor Water and Climate Program, CSIRO Division of atmospheric Research, Mordialloc, Victoria

Search for other papers by John L. McGregor in
Current site
Google Scholar
PubMed Close
Print Publication:
01 Apr 1994
DOI:
https://doi.org/10.1175/1520-0442(1994)007<0616:ANEOTS>2.0.CO;2
Page(s):
616–623
Full access

Abstract

It is commonly accepted that there is a monotonically increasing relationship between sea surface temperature (SST) and tropical cyclone intensity (as measured by maximum near-surface winds or minimum central pressure). This perceived relationship has been used to extrapolate the effects of climatologically warmer SSTs on tropical cyclones These warmer SSTs are one of the consequences of doubled C02 predicted by climate general circulation models (GCMs). Very few investigations have actually critically addressed this SST-storm intensity relationship, however. In this paper, a limited area modeling study is used to explore the potential links between SST and tropical cyclone intensity. Previous work, including some observational data, is reviewed and its implications for the interpretation of the results given here is presented. Finally, the implications of the changes in SST on the thermodynamic structure of the atmosphere-in particular, the destabilization of the boundary layer-are identified as another possible mechanism of intensification for these modeled storms.

Abstract

It is commonly accepted that there is a monotonically increasing relationship between sea surface temperature (SST) and tropical cyclone intensity (as measured by maximum near-surface winds or minimum central pressure). This perceived relationship has been used to extrapolate the effects of climatologically warmer SSTs on tropical cyclones These warmer SSTs are one of the consequences of doubled C02 predicted by climate general circulation models (GCMs). Very few investigations have actually critically addressed this SST-storm intensity relationship, however. In this paper, a limited area modeling study is used to explore the potential links between SST and tropical cyclone intensity. Previous work, including some observational data, is reviewed and its implications for the interpretation of the results given here is presented. Finally, the implications of the changes in SST on the thermodynamic structure of the atmosphere-in particular, the destabilization of the boundary layer-are identified as another possible mechanism of intensification for these modeled storms.

Save
Cover Journal of Climate
Journal of Climate
All Time Past Year Past 30 Days
Abstract Views 0 0 0
Full Text Views 227 78 3
PDF Downloads 51 18 1