8C.6
Idealized simulations of the impact of dry Saharan air on Atlantic hurricanes
Scott Braun, NASA/GSFC, Greenbelt, MD; and J. Sippel and D. S. Nolan
The existence of the Saharan air layer (SAL), a layer of warm, dry, dusty air frequently present over the tropical Atlantic Ocean, has long been appreciated. The nature of its impact on hurricanes remains unclear, with some researchers arguing that the SAL amplifies hurricane development and with others arguing that it inhibits it. The potential negative impacts of the SAL include 1) increased vertical wind shear associated with the African easterly jet; 2) warm air aloft, which increases thermodynamic stability; and 3) dry air, which produces cold downdrafts. Some investigators have assumed the validity of these proposed negative influences and have frequently used them to explain the failure of individual storms to intensify or to explain the relative inactivity of recent hurricane seasons. Dry air appears to be a key mechanism for SAL influence. Idealized high-resolution simulations are used to evaluate the role of dry air. The simulations are initialized with a Rankine vortex with maximum winds of 15 m/s at midlevels and an environment derived from a non-SAL mean sounding. To represent the SAL, dry air with relative humidity of 20% between 850-600 hPa is placed about 270 km north of the vortex. The vortex readily wraps the dry around around it, but results suggest that the dry air has little impact on storm evolution or intensity.
Session 8C, Tropical Cyclone Intensity: Modeling
Wednesday, 12 May 2010, 8:00 AM-9:45 AM, Arizona Ballroom 10-12
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