Editorial Type:
Article
Article Type:
Research Article

Tropical Cyclone Formation

Michael T. Montgomery Department of Earth and Planetary Sciences, Harvard University, Cambridge, Massachusetts

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Brian F. Farrell Department of Earth and Planetary Sciences, Harvard University, Cambridge, Massachusetts

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Print Publication:
15 Jan 1993
DOI:
https://doi.org/10.1175/1520-0469(1993)050<0285:TCF>2.0.CO;2
Page(s):
285–310
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Abstract

The physics of tropical cyclone formation is not well understood, and more is known about the mature hurricane than the formative mechanisms that produce it. It is believed part of the reason for this can be traced to insufficient upper-level atmospheric data. Recent observations suggest that tropical cyclones are initiated by asymmetric interactions associated with migratory upper-level potential vorticity disturbances and low-level disturbances. Favored theories of cyclone formation, however, focus on internal processes associated with cumulus convection and/or air-sea interaction. This work focuses on external mechanisms of cyclone formation and, using both a two- and three-dimensional moist geostrophic momentum model, investigates the role of upper level potential vorticity disturbances on the formation process.

A conceptual model of tropical cyclone formation is proposed, and implications of the theory are discussed.

Abstract

The physics of tropical cyclone formation is not well understood, and more is known about the mature hurricane than the formative mechanisms that produce it. It is believed part of the reason for this can be traced to insufficient upper-level atmospheric data. Recent observations suggest that tropical cyclones are initiated by asymmetric interactions associated with migratory upper-level potential vorticity disturbances and low-level disturbances. Favored theories of cyclone formation, however, focus on internal processes associated with cumulus convection and/or air-sea interaction. This work focuses on external mechanisms of cyclone formation and, using both a two- and three-dimensional moist geostrophic momentum model, investigates the role of upper level potential vorticity disturbances on the formation process.

A conceptual model of tropical cyclone formation is proposed, and implications of the theory are discussed.

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