Storm on the Potomac

Moderate instability and good deep-layer shear produced a line of storms near a surface trough in northern Virginia. ProbWind v3 was handling the severe threat better than v2, with a probability of 41% vs. 3%, seven minutes before reports of trees down. PWv3 increased by over 20% at 17:00 UTC, due to increases in the MRMS VIL and 0-3 km lapse rate, with the MRMS azimuthal shears and composite reflectivity also contributing. Forecasters at the HWT have noted this week that PWv3 seems to be better calibrated to the wind threat than its predecessor.

ProbWind in northern Alabama

At the HWT, forecasters working the warning desk in Jackson, MS noted an arc of storms in northern Alabama where ProbWind v3 was much higher than its v2 counterpart. They shared that the greater ProbWind probabilities and the fact that they received sub-severe LSRs, (~40 kt gusts) gave them more confidence that there could be severe-level reports soon. The NWS in Huntsville, AL issued a severe thunderstorm warning at 21:18 UTC and there were indeed trees down at 21:49 UTC, near Athens, AL.

Figure 1: ProbSevere v3 contours, MRMS MergedRef, and official NWS severe weather warnings for storms in northern AL.

Figure 2: ProbSevere time series for the storm highlighted in Figure 1.

ProbWind v3 produced greater and more consistent probabilities than v2 for this storm. A post-mortem analysis showed that the top-5 contributing predictors were:

1. MRMS VIL (23.6 J/kg)
2. 0-3 km lapse rate (7.6 C/km)
3. MRMS 0-2 km AzShear (7 x 0.001 /s)
4. MRMS 3-6 km AzShear (7 x 0.001 /s)
   
5. ABI+GLM intense convection probability (ICP; 69%).

The ProbSevere team has been in active discussions with HWT forecasters regarding explaining and conveying model predictions in AWIPS in near-realtime.