The 8 May 2009 "Super Derecho": Analysis of a 3 km WRF-ARW realtime forecast
Morris L. Weisman, NCAR, Boulder, CO ; and C. Evans and L. Bosart
During the morning of 8 May, 2009, a large bow echo system developed over Kansas and proceeded eastward, producing an extensive swath of severe wind damage from eastern Kansas through southern Illinois over an 8 hour period. During its most intense phase, the bow echo occluded, producing a warm-core eye-like structure similar in many respects to tropical cyclones. Indeed, much of the wind damage with this system was associated with an intense (~10 mb) mesolow located at the tip of the occlusion, well behind the leading gust front. The circulation associated with this mesolow extended about 60 km across, and, although strongest at low-to-mid levels (~100 kts at 850 mb), extended up to 10 km as a vertically coherent feature.
This convective system was forecast in realtime 24 h in advance with the WRF-ARW model, using a 3 km horizontal grid interval, accurately reproducing the observed occluded eye-like structure and accompanying intense mesoslow. This forecast allows for an unprecedented analysis of the structure and evolution of such a unique convectively produced mesoscale vortex, addressing the source of the unusually intense, large scale rotation, especially as regards the role of the ambient vertical wind shear and CAPE and a preexisting boundary extending eastward from the system. Surprisingly, it is found that the occluding phase of the system, which was associated with the most widespread damaging surface winds, occurred in conjunction with a weakening of the convection, including its associated cold pool, in an environment of weakening vertical wind shear and CAPE. Results of this analysis will be presented, along with comparisons to other derecho events. A companion paper by Evans et al. in the conference offers a more detailed circulation analysis of this simulated event.
Session 3B, Mesoscale Convective Systems: The 8 May 2009 Derecho
Monday, 11 October 2010, 1:30 PM-3:00 PM, Grand Mesa Ballroom D
Previous paper Next paper
Browse or search entire meeting
AMS Home Page