BLOG for the afternoon session on Monday, May 3, 2021.

Posted in News on by Brandon Smith.

1904Z

A tornadic QLCS is moving through South Carolina. KGSP is running in SAILS2, producing three cuts at 0.2° for every volume scan. The NTDA algorithm is running off of the 0.5° slice, which is only running once per volume scan.

When NTDA is loaded on top of the 0.5° slice, it matches perfectly. However. When NTDA is loaded on top of the 0.2° slice, there are problems that cause the NTDA to drop out (NO DETECTIONS) at certain time steps, likely due to some kind of error with time matching.

No detections noted above on the 1857Z radar time stamp.
Detections noted above on the 1859Z radar time stamp.

 

 

1936Z

A bowing segment in a QLCS is moving through western Newberry County, SC. This storm has a history of producing tornadoes, but it has not obviously done so in at least a half hour now. The NTDA algorithm is displaying relatively high values (>50%) from two different radars — KGSP (about 4000 feet AGL) and KCAE (about 2500 feet AGL). This is absolutely the type of area of the storm where you would look for tornadogenesis (north of the apex of the bow, following the three ingredients method). However, it is interesting to note that these probabilities are quite high, despite the fact that neither radar is truly depicting a tight gate-to-gate circulation. In a real time event I would likely be issuing a tornado warning for this, as tornadogenesis seems quite favored in this region of the storm, but the probabilities on the NTDA are a little higher than I would expect given that I think it’s more likely than not that the storm is not currently producing a tornado.

NTDA detection on KGSP.
NTDA detection on KCAE.

 

 

1944Z

This is an update on the area of interest mentioned in the above post. It was noted that the NTDA feature on the KCAE radar (ID: 3) has shifted somewhat southward, to a different part of the bowing segment (closer to the apex) while updating the probability to >80%. The overall shear axis remains somewhat not-tight, which at first confused me as to the high probability. However, upon a closer look, there was a very small/tight couplet that developed just on the west edge of the shear axis, tight enough that I would suggest it could indeed be tornadic. It appears that the NTDA feature was keying off of this, and not on the overall shear axis, and I think this is excellent because it brought my attention to a small, hard-to-see feature.

NTDA detection on KCAE, >80% on the very small circulation.

 

 

2000Z

A semi-discrete cell is approaching the KCAE radar site at close range. This cell has produced an intense downburst signature, characterized by inbound winds as high as 65kts at less than 1000 feet AGL. Qualitatively, I can state fairly conclusively that this signature is a severe downburst, and is thus non-tornadic. However, the NTDA algorithm is keying in on the north end of this downburst signature as a potential tornado, with probabilities as high as 49%. This seems quite high for a weather situation that appears to have almost no chance to actually be tornadic. It is possible that the algorithm is noting that you have an area where strong inbound winds are located just south of weaker inbound winds, but to my eyes it is a soft transition, not indicative of rotation.

NTDA detection on KCAE, 49% on the north end of a downburst signature.

–Insolation