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In Situ Observations at the Air‐Sea Interface by Expendable Air‐Deployed Drifters Under Hurricane Michael (2018)

Martha Schönau, Theresa Paluszkiewicz, Luca Centurioni, William A. Komaromi, Hao Jin, James D. Doyle

2024Geophysical Research Letters11 citationsDOIOpen Access PDF

Abstract

Abstract An array of surface drifters deployed ahead of Hurricane Michael measured the surface temperature, pressure, directional wind and wave spectra, and surface currents one day before it made landfall as a Category 5 Hurricane. The drifters, 25–50 km apart, spanned two counter‐rotating ocean eddies as Hurricane Michael rapidly intensified. The drifters measured the shift of wave energy between frequency bands in each quadrant of the storm, the response of upper ocean currents, and the resulting cold wake following Michael's passage. Wave energy was greatest in the front quadrants and rapidly decreased in the left‐rear quadrant, where wind and wave energy were misaligned, and components of the wave field were aligned with currents. Hurricane Michael's wave field agreed with previous studies of nondirectional wave spectra across multiple tropical cyclones but had some unique characteristics. The analysis demonstrates how co‐located surface wind and wave observations can complement existing airborne and satellite observations.

Topics & Concepts

MeteorologyStormGeologyTropical cycloneWind waveSignificant wave heightLandfallDrifterOceanographyEnvironmental scienceEddyWakeMaximum sustained windEyeClimatologyWind speedWind directionPhysicsLagrangianWind gradientTurbulenceThermodynamicsMathematical physicsOcean Waves and Remote SensingTropical and Extratropical Cyclones ResearchOceanographic and Atmospheric Processes
In Situ Observations at the Air‐Sea Interface by Expendable Air‐Deployed Drifters Under Hurricane Michael (2018) | Litcius