25th Conference on Hurricanes and Tropical Meteorology

13D.4

Extratropical Transition of Western North Pacific Tropical Cyclones: Midlatitude and Tropical Cyclone Contributions to Re-intensification

Peter M. Klein, NPS, Monterey, CA; and P. A. Harr and R. L. Elsberry

This study of extratropical transition of western North Pacific tropical cyclones (TCs) addresses the re-intensification stage during which the TC remnants develop as an extratropical cyclone. The hypothesis examined here is that re-intensification depends on the interaction between the midlatitude circulation contributions from mid-and upper-level dynamic processes, low-level thermal processes from the decaying TC, and upper-level outflow characteristics from the decaying TC. Re-intensification occurs when the combination of the dynamic and thermodynamic processes define a region that is favorable for extratropical cyclone development.

The midlatitude circulation contribution to re-intensification is characterized by comparing a Coupled Ocean Atmosphere Mesoscale Prediction System control forecast with a simulation in which the TC has been removed (NOTC). The midlatitude contribution is favorable if a significant extratropical cyclone forms in the NOTC simulation. A neutral midlatitude contribution is defined to occur when weak or no extratropical cyclogenesis occurs in the NOTC simulation. Finally, an unfavorable midlatitude contribution occurs when anticyclogenesis is predicted in the NOTC simulation. The TC contribution to the re-intensification is characterized in a similar manner by assessing the different re-intensification characteristics between a control simulation and the NOTC simulation.

Within favorable, neutral, and unfavorable midlatitude categories, the initial vortex is displaced to achieve increased (decreased) interactions between the TC remnants and midlatitude development region, and thus more (less) re-intensification. The displaced-vortex simulations indicate an interaction between the TC and the midlatitude circulation may shift the location of the development region and vary the relative contributions from various physical processes to the development. Re-intensification is favored when the upper-level TC outflow enhances the equatorward entrance region of a downstream jet streak, and when the TC remnant circulation interacts with the lower-tropospheric baroclinic zone. Thus the interaction is not a static process, but a dynamic process in which both the TC and midlatitude circulation have a contribution.

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Session 13D, Tropical Cyclone Extratropical Transition II (Parallel with Sessions 13A, 13B, and 13C)
Thursday, 2 May 2002, 11:00 AM-12:15 PM

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