Observation of Tropical Cyclone Self-Induced Barrier Layer

John Steffen, Florida State University, Earth, Ocean and Atmospheric Science, Tallahassee, FL, United States, Sue Chen, Naval Research Lab Monterey, Marine Meteorology, Monterey, CA, United States, Lynn K Shay, RSMAS/University of Miami, Department of Ocean Sciences, Miami, FL, United States and Benjamin Jaimes de la Cruz, University of Miami, Miami, FL, United States
Abstract:
Analysis of 153 in-situ ocean profiles influenced by three hurricanes, Isaac (category 1), Iselle (category 4), and Julio (category 3) reveal these hurricanes can create their own salinity-driven ocean barrier layer from heavy precipitation. The freshening of salinity that results from 150-300 mm of rainfall in these hurricanes is about 0.1-0.2 PSU. Eastern Pacific Argo floats near the tracks of Iselle and Julio indicate the barrier layer potential energy values (BLPE) are between 750- 2000 J/m² just after TC passage. AXCTD profiles deployed before, during, and after Isaac in the Gulf of Mexico show how the barrier layer develops throughout a TC passage. In these TCs, the corresponding maximum barrier depths are only 10-20 m deep and are independent of density stratification within the isothermal layer. This suggests BLPE is a better measure of barrier layers’ capacity to suppress mixing and minimize SST cooling from hurricanes.
Back to: Understanding Air-Sea Coupling in Tropical Cyclones for Improving Model Intensity Forecasts II Posters