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28 JULY 97 2115 MDT dBZ Z=1.2 km; VR Z=.3 kIn 9 6 ~ ~ ~ ~ 3 , , ,10 '. I I ,4 .2 I o I 2 I 4 I s , , , 12 16 211 '" .>= " .. o "'0 c: " l) due to a new cell growth (e,g" Chappell 1986), how might changes in the low-level flow have affected the sum of these two vectors in thc vicinity of FCL to produce zero net storm movement? A vailability of Doppler ra, dar data from the CSU-CHILL and KCYS-NEXRAD radars facilitated an examination of the coevolving horizontal wind field and precipitation structure using combined radial velocity estimates in a dual-Doppler syn, thesis (Figs, 12a,b), Due to the 80-km baseline between CSU- CHILL and KCYS, the 70-km distance between KCYS and FCL, and beam curvature/re- fractivity considerations, the lowest level for which horizon, tal winds could be synthesized was I km, Reflectivity and ra, dial velocity data for both radars were interpolated to a Cartesian grid using a horizontal (vertical) spacing of 2 (I) km; then the two-dimensional wind field was computed for the l,km height level using CEDRIC software (Mohr and Miller 1983), Note that Dilly the horizontal winds were computed in the dual-Dop' pIer synthesis, and Dilly the I,km level will be dis- cussed in this study, No attempt was made to compute vertical velocity due to the long baseline and ineom, plete sampling of cloud tops by CS U-CHILL (maxi- mum elevation angle 80), Perhaps the most intriguing result of the dual, Doppler analysis is the apparent influence of a bow echo system (located 60-80 km southeast of FCL; Figs, 12a,b) on the mesoscale flow field affecting convection located over western FCL' Prior to 2000 MDT, radar-measured winds in the vicinity of FCL were southeasterly at the I,km level (consistent .:: '" ,... ~ ~3 o 'JJ Z -6 -9 -9 -6 -3 I) 3 E- W of Taft and Drake (KM) 6 9 ~ln the storm-relative framework of the bow echo (not shown), a cyclonic vortex existed on the northern end of the bow echo, with a weaker, but discernible anticyclonic vortex located on the south- ern end. Fro. 10. CSU-CHILL 2] 15 MDT28 July 1997: radial wind velocity (shaded in In S-I) at 30G-m AGL and radar reflectivity (1.2 km AGL) contoured every 5 dBZ, beginning at 20 dBZ The CSU-CHILL radar is located at an azimuth of ] 160 and -40-45 km from the origin (as in Fig. 9). Warm colors indicate outbound radial velocities (-easterly, southeast- erly), cool colors indicate inbound (-westerly) radial velocities. A portion of Spring Creek is also indicated by the bold blue line running through the origin. Note that wind data are missing on the west side of the figure where elevated terrain is located. Bulletin of the American Meteorological Society with winds near the 750-hPa level in Fig, 6), However, after 2000 MDT scattered convection located along the foothills of the Front Range to the south of FCL (Figs, 7a-d) began to organize and move slowly north- eastward, taking the form of a bow echo (e,g" Fujita 1978; Weissman 1993; Weissman and Davis 1998), Dual,Doppler analyses (e,g" Figs, I2a,b) suggest that the low-level winds backed slightly in an area located along and to the west of the northern edge of the bow echo system (e,g" Figs, 12a,b, X = 40-60, Y = -20-5 and X = 0-15, Y = 5-10) as it passed to the southeast of the CSU-CHILL radar. The change in low-level flow forced by the bow echo, combined with inflow associated with the convection over FCL, resulted in a narrow ribbon of flow dominated by an enhanced easterly wind component that terminated in convec, tion located over Spring Creek (Fig, 13), 203