1. Multi-Scale Analysis of the Kinematic and Thermodynamic Structure of TS Humberto Using Dropsonde and Satellite Data Jeffrey B. Halverson, UMBC Alex Martin, UMBC

2. Research Objectives Multi-scale analyses: Satellite, environmental, in situ dropsonde structure Study warm core, vortex symmetry, shear interactions, SAL interactions – in context of a “dud” TC season with hostile synoptic environment (i.e. dry air, subsidence) Develop 3D structural visualizations utilizing a GIS framework Hurricane Humberto (2013) Hurricane Gabrielle (2013) Upcoming 2014 cases 17-year TC dropsonde climatology

3. Humberto Case Study Developed on September 7 th, 2013 Became TS strength on September 9 th Reached peak intensity on September 14 th at 80 knots Sampled by AV-6 on Sept 16-17 using racetrack pattern Developed deep convection in north portion Highly asymmetric, disjointed storm structure Snapshot of Humberto at peak intensity

4. 4 Hours before first drop 21 minutes after first drop 7 minutes after last drop 55 minutes before last drop IR 37 GHz 85 GHz

5. 0145 UTC IR imagery White arrow represents shear vector; black arrow is storm motion 0437 UTC 85 GHz Microwave Imagery Wavenumber 1 Asymmetry Mature DMC Initiation Of DMC Subsidence Region -Strong, unidirectional deep shear interacting with storm - Magnitude of shear vector = 23 m/s -Strong asymmetry /wrt/ vortex and deep convective region -Suggestive of a wave-number one structure

6. GIS ArcScene Analysis – 3D visualization x x x x Deep Layer Shear 270° 23 m/s vortex center Storm Motion

7. Examine thermodynamic and kinematic structure using framework of downshear and upshear quadrants (RAOB software) Composite Dropsonde Structure Deep Shear

8. 0015 UTC 0305 UTC 0408 UTC

9. Humberto Case Study Summary Highly asymmetric, struggling TC Low level vortex center exposed Deep moist convection (DMC) displaced to north of center Vortex wind maxima in NE quadrant /wrt/ deep shear vector DMC triggered in NE quad, within low level speed convergence zone Overall structure may be linked to strong wave number one asymmetry Shallow, weak warm core on southern edge of DMC mass (likely subsidence induced) Need to better understand if there is any SAL interaction Need to develop understanding of large-scale environmental (hostile) context for the storm’s mesoscale structure

10. NCAR Dropsonde Re-Analysis 1996 to 2012 NOAA dropsonde dataset Build composite vertical profiles inside Atlantic basin TC eye, eyewall, rainbands, surrounding environment Composites as a function of radial distance, quadrant /wrt/ motion vector, storm intensity PBL wind structure, 120 tropical cyclones included 13,681 quality controlled soundings Article by J. Wang et al. submitted to BAMS

11. Composite Wind Profiles By Intensity Category

12. Questions?