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The use of a vortex insertion technique to simulate the extratropical transition of Hurricane Michael (2000).
Fogarty, C., Greatbatch, Richard John and Ritchie, H. (2007) The use of a vortex insertion technique to simulate the extratropical transition of Hurricane Michael (2000). Weather and Forecasting, 22 (3). pp. 480-500. DOI 10.1175/WAF1014.1.
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Abstract
On 19 October 2000, Hurricane Michael merged with an approaching baroclinic trough over the western North Atlantic Ocean south of Nova Scotia. As the hurricane moved over cooler sea surface temperatures (SSTs; less than 25°C), it intensified to category-2 intensity on the Saffir–Simpson hurricane scale [maximum sustained wind speeds of 44 m s−1 (85 kt)] while tapping energy from the baroclinic environment. The large “hybrid” storm made landfall on the south coast of Newfoundland with maximum sustained winds of 39 m s−1 (75 kt) causing moderate damage to coastal communities east of landfall. Hurricane Michael presented significant challenges to weather forecasters. The fundamental issue was determining which of two cyclones (a newly formed baroclinic low south of Nova Scotia or the hurricane) would become the dominant circulation center during the early stages of the extratropical transition (ET) process. Second, it was difficult to predict the intensity of the storm at landfall owing to competing factors: 1) decreasing SSTs conducive to weakening and 2) the approaching negatively tilted upper-level trough, favoring intensification. Numerical hindcast simulations using the limited-area Mesoscale Compressible Community model with synthetic vortex insertion (cyclone bogus) prior to the ET of Hurricane Michael led to a more realistic evolution of wind and pressure compared to running the model without vortex insertion. Specifically, the mesoscale model correctly simulates the hurricane as the dominant circulation center early in the transition process, versus the baroclinic low to its north, which was the favored development in the runs not employing vortex insertion. A suite of experiments is conducted to establish the sensitivity of the ET to various initial conditions, lateral driving fields, domain sizes, and model parameters. The resulting storm tracks and intensities fall within the range of the operational guidance, lending support to the possibility of improving numerical forecasts using synthetic vortex insertion prior to ET in such a model.
Document Type: | Article |
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Keywords: | Extratropical cyclones, Hurricanes, Vortices, Model evaluation/performance |
Research affiliation: | OceanRep > The Future Ocean - Cluster of Excellence OceanRep > GEOMAR > FB1 Ocean Circulation and Climate Dynamics > FB1-TM Theory and Modeling |
Refereed: | Yes |
Open Access Journal?: | Yes |
Publisher: | AMS (American Meteorological Society) |
Projects: | Future Ocean |
Date Deposited: | 03 Dec 2008 16:52 |
Last Modified: | 23 Sep 2019 18:03 |
URI: | https://oceanrep.geomar.de/id/eprint/6511 |
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