A storm in North Carolina produced 75-mph microburst wind gusts, downing many trees and overturning a pick-up truck. It also produced 1.5"-diameter hail.
Early on, ProbSevere LightningCast produced high probabilities of lightning well ahead of the first flashes (see Figure 1). LightningCast uses GOES-R ABI channels to predict next-hour lightning occurrence. For the storm that produced severe weather (in eastern NC), LightningCast had 60 minutes of lead-time to the first flashes, measured from the 50% threshold. LightningCast often produces 20-30 minutes of lead-time to the first flash (see Figure 2).
 |
| Figure 1: LightningCast contours, GOES-16 ABI visible channel imagery, and GOES-16 GLM flash-extent density over the Carolinas. |
 |
| Figure 2: Varying lead-times to initial GLM-observed flashes in coastal Carolina storms, measured from certain LightningCast probability thresholds. |
ProbSevere version 3 (PSv3), which fuses radar, satellite, lightning, and NWP data to predict next-hour severe-weather probabilities, had an elevated probability of severe on the storm in eastern North Carolina before severe weather was reported. PSv3 was much higher than ProbSevere v2 (PSv2) early on. For instance, at 18:04 UTC, 21 minutes before the 75-mph wind gust, PSv3 was 39% and PSv2 was 2%. The 0-3 km lapse rate and MRMS MESH were the highest-contributing predictors, with the ENI lightning density and GOES-R satellite growth rate also contributing to the 39% probability of severe.
 |
| Figure 3: ProbSevere contours, MRMS MergedReflectivity, and NWS severe-weather warnings for storms in eastern North Carolina |
 |
| Figure 4: The soon-to-be-severe North Carolina storm at 18:04 UTC, comparing PSv3 and PSv2. |
 |
| Figure 5: Time series of ProbSevere v3 and ProbSevere v2 probabilities for the early portion of the severe storm in eastern North Carolina. |
No comments:
Post a Comment