An evaluation of thermodynamic estimates of climatological maximum potential tropical cyclone intensity
This paper investigates the performance of two recently developed thermodynamic models of maximum tropical cyclone intensity (K. A. Emanuel's referred to here as El and G. J. Holland's referred to here as H1), which are designed to estimate the most intense storm possible given the ambient...
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ftmacquarieunicr:oai:https://researchers.mq.edu.au:publications/08e59b6c-8250-4bdc-a486-262e839c5c04 2024-10-13T14:09:19+00:00 An evaluation of thermodynamic estimates of climatological maximum potential tropical cyclone intensity Tonkin, Heather Holland, Greg J. Holbrook, Neil Henderson-Sellers, Ann 2000-03 https://researchers.mq.edu.au/en/publications/08e59b6c-8250-4bdc-a486-262e839c5c04 http://www.scopus.com/inward/record.url?scp=0034096084&partnerID=8YFLogxK eng eng info:eu-repo/semantics/restrictedAccess Tonkin , H , Holland , G J , Holbrook , N & Henderson-Sellers , A 2000 , ' An evaluation of thermodynamic estimates of climatological maximum potential tropical cyclone intensity ' , Monthly Weather Review , vol. 128 , no. 3 , pp. 746-762 . article 2000 ftmacquarieunicr 2024-09-18T23:49:09Z This paper investigates the performance of two recently developed thermodynamic models of maximum tropical cyclone intensity (K. A. Emanuel's referred to here as El and G. J. Holland's referred to here as H1), which are designed to estimate the most intense storm possible given the ambient environmental conditions. The study involves estimating the maximum potential tropical cyclone intensity (MPI) from climatological information in three ocean regions, where relatively reliable atmospheric soundings and tropical cyclone intensity data exist. The monthly MPI was estimated for 28 locations across the northwest Pacific, southwest Pacific, and North Atlantic Ocean regions. Empirically derived relationships between observed maximum storm intensity and sea surface temperature were also utilized in the examination of regional MPI model performance. Derived MPIs generally agreed well with observed maximum intensities during the tropical cyclone season. The H1 model tended to underestimate the maximum intensity of storms early and late in the tropical cyclone season and at stations between 10° and 20° N in the northwest Pacific, where the effect of continental air led to weak model estimates for the given surface energy conditions. Additionally, extremely intense H1 estimates were predicted at some stations in the Australian/southwest Pacific region where particularly unstable atmospheric conditions and low ambient surface pressure values are observed. These features of model performance are largely due to the sensitivity of H1 to warm environmental upper-level temperatures. The E1 model displayed a poor seasonality, frequently predicting the occurrence of storms during winter months. Emanuel MPI estimates were at times underestimated for stations in the North Atlantic and northwest Pacific. The E1 model estimates in the northwest Pacific were affected by particularly warm upper-level conditions, while relatively high ambient surface pressures in the North Atlantic at 25° N lead to MPI estimates, which are weaker than ... Article in Journal/Newspaper North Atlantic Macquarie University Research Portal Pacific |
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English |
description |
This paper investigates the performance of two recently developed thermodynamic models of maximum tropical cyclone intensity (K. A. Emanuel's referred to here as El and G. J. Holland's referred to here as H1), which are designed to estimate the most intense storm possible given the ambient environmental conditions. The study involves estimating the maximum potential tropical cyclone intensity (MPI) from climatological information in three ocean regions, where relatively reliable atmospheric soundings and tropical cyclone intensity data exist. The monthly MPI was estimated for 28 locations across the northwest Pacific, southwest Pacific, and North Atlantic Ocean regions. Empirically derived relationships between observed maximum storm intensity and sea surface temperature were also utilized in the examination of regional MPI model performance. Derived MPIs generally agreed well with observed maximum intensities during the tropical cyclone season. The H1 model tended to underestimate the maximum intensity of storms early and late in the tropical cyclone season and at stations between 10° and 20° N in the northwest Pacific, where the effect of continental air led to weak model estimates for the given surface energy conditions. Additionally, extremely intense H1 estimates were predicted at some stations in the Australian/southwest Pacific region where particularly unstable atmospheric conditions and low ambient surface pressure values are observed. These features of model performance are largely due to the sensitivity of H1 to warm environmental upper-level temperatures. The E1 model displayed a poor seasonality, frequently predicting the occurrence of storms during winter months. Emanuel MPI estimates were at times underestimated for stations in the North Atlantic and northwest Pacific. The E1 model estimates in the northwest Pacific were affected by particularly warm upper-level conditions, while relatively high ambient surface pressures in the North Atlantic at 25° N lead to MPI estimates, which are weaker than ... |
format |
Article in Journal/Newspaper |
author |
Tonkin, Heather Holland, Greg J. Holbrook, Neil Henderson-Sellers, Ann |
spellingShingle |
Tonkin, Heather Holland, Greg J. Holbrook, Neil Henderson-Sellers, Ann An evaluation of thermodynamic estimates of climatological maximum potential tropical cyclone intensity |
author_facet |
Tonkin, Heather Holland, Greg J. Holbrook, Neil Henderson-Sellers, Ann |
author_sort |
Tonkin, Heather |
title |
An evaluation of thermodynamic estimates of climatological maximum potential tropical cyclone intensity |
title_short |
An evaluation of thermodynamic estimates of climatological maximum potential tropical cyclone intensity |
title_full |
An evaluation of thermodynamic estimates of climatological maximum potential tropical cyclone intensity |
title_fullStr |
An evaluation of thermodynamic estimates of climatological maximum potential tropical cyclone intensity |
title_full_unstemmed |
An evaluation of thermodynamic estimates of climatological maximum potential tropical cyclone intensity |
title_sort |
evaluation of thermodynamic estimates of climatological maximum potential tropical cyclone intensity |
publishDate |
2000 |
url |
https://researchers.mq.edu.au/en/publications/08e59b6c-8250-4bdc-a486-262e839c5c04 http://www.scopus.com/inward/record.url?scp=0034096084&partnerID=8YFLogxK |
geographic |
Pacific |
geographic_facet |
Pacific |
genre |
North Atlantic |
genre_facet |
North Atlantic |
op_source |
Tonkin , H , Holland , G J , Holbrook , N & Henderson-Sellers , A 2000 , ' An evaluation of thermodynamic estimates of climatological maximum potential tropical cyclone intensity ' , Monthly Weather Review , vol. 128 , no. 3 , pp. 746-762 . |
op_rights |
info:eu-repo/semantics/restrictedAccess |
_version_ |
1812816217518374912 |