Some HCA detections in the east (right most storm) are occurring within areas of non-uniform beam filling from the first storm (and most likely the second storm).  Forecasters should be wary of identifications within these regions and shows the need for investigation of the base variables in addition to using the algorithms for diagnosis of storm severity.

–KO

The images below show a 4-panel display of the height of the 50dBZ echo above -20C (top left) and above 0C (bottom) right, and the height of the 60dBZ echo above -20C (top right) and above 0C (bottom right).  This time represents the time of the highest MESH values (~3.0in) and indicates the 50dBZ core was over 26k ft above the -20C isotherm and the 60dBZ core was nearly 20k ft above the -20C isotherm.  About an hour later this storm began to collapse with the eastern storm becoming dominant.

This is the corresponding MESH image corresponding to the top image.

At 2132 UTC the HSDA on the eastern storm showed a hail core (indicating giant hail) from the 0.5 degree slice up through the 4.0 degree slice (~30k ft).  This corresponded well with the rotating updraft.  The MESH at this time (not shown) showed 2.83in.

Just for you, Kristin! See? I was paying attention. 🙂

On a 4-panel with MRMS Sfc Z, Sfc Vil, and others.

Trace tool was used on upper-left panel and indicated how the flashes increased quickly with severe storm over Dickens, Kent, and Stonewall counties in SE LUB’s CWA.

Admittingly, the latter 5 min occurred while I was creating the image, etc, so didn’t redo my centroid there, just the zig-zag bad data.

Martello

So, with ongoing and potentially severe thunderstorms in the Midland area, I decided to move to Midland!  Well, not really, but virtually.  =)  So, we’ll see how well the MRMS, HSDA and other products work here, and if the pattern recognition I developed on the previous two days will work well here.  Now, I am expecting a dearth of reports way out here in west Texas, unless they have some cameras strapped to a rattlesnake or a jackrabbit.  Anyway, after transferring over, and getting products set up as quick as I could, I quickly issued my first warning based mostly on the MESH and 60 dBZ reflectivity values at -20C.  This warning was issued for the affecting the western portions of Loving and the far northern portions of Reeves Counties.

Following is a four panel of various MRMS parameters and the 0.5 degree HC.

Notice that the MESH product in the lower left no longer indicates sever hail, however, the 0.5 degree HC algorithm clearly shows some giant hail signals.  This storm had undergone recent weakening and the MESH 30 minute accumulation had indicated severe size hail within the previous 30 minutes.  The severe hail still may had been reaching the ground by the time I was able to load up the data.  So, I went ahead and issued the warning.  We’ll see if we get any reports from this storm…but I’m not too positive.

Kris

KLBB radar reflectivity really ramped up 2115Z and MRMS Low-Lvl Rotation Track also indicated increasing in intensity of the low level mesocyclone. See images below. Low-Lvl Rotation Track Prog was used for the TOR warning.

Though the low-level circulation was increasing and ramping up, it wasn’t “gate-to-gate” on the SRM just yet at 2115Z on KLBB.  Nevertheless, OUN_WRF indicated high 0-1KM SRH forecast values in the next hour on the order of 300-400 m2/s2 where the dangerous part of the storm was headed, thus went straight to a tornado warning due to the conducive environment. (See below images).

We still continue to watch our northern counties below the old MCS outflow boundary, as the air is only slightly cooler, shallow, and remains conditionally unstable with extremely backed easterly surface winds.

Wow, what a day.  My favorite (due to being more comfortable and the type of storms) ALL WEEK!!

Martello/Zimmerman

I’m pretty excited about the 4 products displayed below. We have displayed below the 50 and 60 dbz echo top products as well as the height above -20C of the 50 and 60 dbz echo. These products allow for quick analysis and use of the Donovan method of determining hail size. Many offices in the central plains look closely at the heights of the 50 and 60 dbz echoes in warning decision making. Therefore, these tools are extremely beneficial for both initial warning decision making on whether to go with a warning or not. They also help to give confidence in increasing the projected hail size as these 50 and 60 dbz cores grow well above previously established basic severe level thresholds of the day.  The storm depicted in the image below had golf ball size hail reported with it.

Wesely

Ok, well we’ve gotten some recent cloud-top cooling amounts from clouds in Randall County, TX.  Cloud top cooling rates as low as -17C/15 min were observed in Randall County as the outflow boundary moved across the area, as indicated in the image below.

Also, notice the rather distinct theta-e ridge still present and extending into Randall County. per the LAPS data (image 2 below).  We’ll see if these products allow for an appropriate focus and help predict likeliest locations for eventual development.

Watching for potential development SSW of current supercells over Floyd, Dickens, and King counties to the NE. CTC shows potential. Cirrus anvil across the NE CWA will likely inhibit any CTC effectiveness.

Unfortunately, GOES_CIMSS Nearcast (either E or W) data did not extend further enough east across the LUB CWA to be effective with this event. (see 2030 UTC CIMSS W projection below).

If the Garza area was to develop quickly, the OUN_WRF project indicates 0-1KM SRH to 200-260 m2/s2 which mean environment would be favorable for rapid rotation and potential tornadoes like earlier storms to the north.

We continue to monitor development closely.l

Martello/Zimmerman

Slide 1: 1855Z Based on Donovan method we would be issuing a severe thunderstorm warning when the 50 dbz core reached 26,000 to 28,000ft based on a freezing level of around 10,000 to 10,600ft agl. This would have been enough for me to issue a thunderstorm warning at 1855z.

Slide 2: 1858Z HSDA shows large hail for the 1st time.

Slide 3: 1902Z MESH indicates 1″ hail for the 1st time.

Slide 4: 1918Z The -20C level gets a 60dbz return for the 1st time.

Summary Verification: Our 1st quarter size severe hail was reported at 1923Z with the first Golf ball size hail report at 2004Z. There was lead time no matter, which method or combination of methods would have been used on warning for this storm. The MRMS products did offer a quicker diagnostic overview of the storm than having to look at multiple height scans as we commonly do with the Donovan method.

Wesely

Strong convergences initiated northeast of Lubbock, TX near Floydada in Floyd County.  CTC product caught -16-17K/15 min around 18:15 UTC on this storm. Tornado warning was issued 19:21 UTC which resulted in 1 hr/6 min lead time if you had warned initially off the CTC projection.

CTC product W/Visible Satellite

The OUN_WRF progged Surface Merged Reflectivity Composite also nailed the point of storm initiation around 1900 UTC(See image below).

Below is the 1900 UTC 2.5KM Theta-E image clearly indicate moisture converging near the point where this supercell developed up through Floyd and Brisco counties northeast of Lubbock. Also, the wind fields verify that there was like good moisture convergence in this same area.

Some of the MRMS (MESH/30 min MESH swath) and HSDA (0.5 degrees showing potential for large hail as well) real-time data gave quick indications that this atmosphere was volatile and showed the storms potential with little latency at 1900 UTC.

This storm has already produced quarter-size hail at 1923Z and a few land spouts (weak tornadoes).