Rm. Rauber et al., Origin, evolution, and finescale structure of the St. Valentine's Day mesoscale gravity wave observed during STORM-FEST. Part I: Origin and evolution, M WEATH REV, 129(2), 2001, pp. 198-217
On 14-15 February 1992 a long-lived mesoscale gravity wave was observed ove
r the Storm-scale Operational and Research Meteorology-Fronts Experiment Sy
stems Test observational network. A precipitation band formed and intensifi
ed as the wave moved across Kansas and Missouri. The disturbance was tracke
d for 14 h. Surface, dual-Doppler radar, and wind profiler analyses. as wel
l as isentropic analyses derived from a special rawinsonde network, are use
d to examine the origin and evolution of this wave.
The wave originated at the leading edge of a dry air mass associated with d
ownslope Row in the lee of the Rockies. The earliest surface pressure signa
tures of wave motion began as a dry air mass, associated with the downslope
Row. ascended a warm front east of a lee cyclone. A weak rainband develope
d simultaneously with the wave at the leading edge of the dry air mass. The
mesoscale gravity wave, and convection, remained tied to the leading edge
of the advancing dry air mass during the first 8-10 h of evolution, suggest
ing that both convection and dynamical processes near the leading edge of t
he dry air mass were instrumental in maintaining the wave during this phase
of its evolution. These processes are investigated in Part II. The orienta
tion of the wave front. determined from isochrone analyses of minimum press
ure occurrence, and the orientation of the rainband, determined from radar
analyses, corresponded closely to the leading edge of the advancing dry air
mass for the first 8-10 h. In central Missouri, the convection and wave de
coupled from the leading edge of the dry air mass. Barograms downstream in
eastern Missouri and Illinois suggest a change in wave structure to a wave
of elevation occurred during this latter stage of evolution.