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Using Ground-Based Radar Observations to Evaluate Asymmetric Convection and Eyewall Dynamics During the Landfall of Hurricane Harvey (2017)
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2023
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Source: Journal of the Atmospheric Sciences (2023)
[PDF-5.29 MB]
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Journal Title:Journal of the Atmospheric Sciences
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Description:Asymmetric dynamics in tropical cyclones (TCs) are vital to understanding intensity change and convective distribution at landfall. The growth of barotropic-convective instability (e.g., mesovortices), vortical hot towers, and vortex Rossby waves (VRWs) have been considered through numerical modeling studies, often by mean-eddy partitioning of the tangential wind tendency. Unfortunately, few observational datasets exist that are sufficient for such study. A University of Oklahoma Shared Mobile Atmospheric Research and Teaching Radar observed Major Hurricane Harvey (2017) as it intensified just before landfall near Port Aransas, TX. Combined with a coastal WSR-88D radar, dual-Doppler derived kinematic analyses were constructed every ~6 minutes at 1 km spatial resolution during hurricane Harvey’s landfall. In this study, observations of asymmetric mesovortices on the interior edge of Harvey’s eyewall are documented. The asymmetries promoted a dual exchange of vorticity in the TC eyewall and represent an example of an eddy mechanism of intensity change on various time scales. Considering the combined effects of resolvable asymmetries, we examine the change in the tangential wind as a function of mean-eddy kinematics before and after landfall. Before landfall, the low-level eddy contribution was positive to the low-level tangential wind tendency. Following landfall, the contribution from the low-level eddy became weakly positive to weakly negative. Finally, the evolution of some asymmetric features in Harvey’s eyewall are shown to manifest in a VRW-like response that initiates rainbands just outside of Harvey’s eyewall.
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Source:Journal of the Atmospheric Sciences (2023)
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ISSN:0022-4928;1520-0469;
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