Wednesday, June 23, 2021

EF3 tornado in Chicago suburbs on June 20, 2021: NOT a QLCS tornado


Sunday night's tornado after dark (photo above) that struck the western Chicago suburbs of Naperville, Woodridge, and Darien in Illinois (IL) shortly after 11:00 pm CDT injured 11 people.  Fortunately, no one was killed, with good watches and warnings in advance.  The tornado was EF3 in intensity, and left a damage path of around 16 miles in length.

I noticed on social media early on that several people called this a "QLCS tornado" (QLCS stands for 'quasi-linear-convective-system'), a type of non-supercell tornado that can occur within bowing squall lines.  It is true that the tornadic storm was embedded within a line of storms.  However, to be clear and accurate, this was definitely _not_ a QLCS tornado -- it was a supercell tornado with a well-detected mesocyclone (rotating updraft) on radar, seen on the inset in the tornado photo above showing storm-relative velocity.  Because it was a supercell tornado with a distinct mesocyclone on radar before the tornado, a radar-based tornado warning could be issued for parts of DuPage County (the county where Naperville is located) around 20 minutes before the tornado developed.  

QLCS tornadoes tend to be brief, relatively weak, and more difficult to see on radar, making them more difficult to warn.  A QLCS tornado that struck the southeast corner of El Reno, Oklahoma after dark on the evening of May 25, 2019 (not shown) lasted only 4 minutes and traveled only around 2 miles.  It was briefly detectable on radar due to the close proximity of El Reno to the NWS radar near Norman, but could only be warned with 2 minutes lead time, not even enough time for sirens to sound in El Reno before the tornado struck.  It killed 2 people and injured 29, even though deaths and injuries are rare with QLCS tornadoes.

Back to June 20, 2021, the 3-panel composite reflectivity radar image below shows the broad evolution of the line of storms and the embedded supercell and mesocyclone (small white circle) from 10:45 pm to 11:15 pm CDT:












It is important to remember that it is not unusual for supercells to be embedded within a line of storms, but that does not mean that tornadoes associated with such storms are QLCS tornadoes.  A primary difference is the mid-level mesocyclone visible on radar, often in advance of a tornado.  

A brief look at the local setting and environment over northern IL on Sunday evening June 20th showed a quasi-stationary outflow boundary associated with the east-northeast to west-southwest line of storms across the Naperville-Chicago area:




















This boundary may have helped to generate the tornado as the embedded parent supercell moved east along it, taking advantage of increased low-level wind shear and convergence on and near the boundary, as well as the temperature/moisture contrast across it.

SPC mesoanalysis graphics near the time of the tornado also showed the environment near the boundary over northeast IL to be supportive of supercell tornadoes:  












In particular, a version of the energy-helicity index (a parameter combining low-level wind shear and CAPE/instability) augmented by enhancements/limitations related  to deep-layer wind shear, 0-3 km CAPE, and estimated cloud-base heights (see 1st panel above) showed a supportive environment for supercell tornadoes in the Napervlle-Chicago area.  Also, a new version of the significant tornado parameter (2nd panel above) using low-level wind shear (storm-relative helicity or SRH) in the lowest 500 m above ground indicated similar support for supercell tornadoes.

A short-term HRRR model forecast of the basic energy-helicity index from early evening also showed maximized combinations of SRH and CAPE near and just south of the local boundary across the Naperville-Chicago area:

So, ingredients supportive of significant supercell tornadoes were definitely in place over northeast IL late on the evening of June 20, 2021.

Again, the fact that the tornado was associated with a supercell and detectable mesocyclone on radar made warning in advance more possible, an important difference in contrast to QLCS tornadoes.  QLCS tornadoes are shallower circulations that are more transient and harder to detect on radar, and therefore more difficult to warn.

It is important to understand this distinction.

- Jon Davies  6/23/21

 

3 comments:

Jim C said...

Hi Jon, thanks for sharing this analysis. Am I interpreting this correctly - the parent supercell was enhanced by an outflow boundary that was created by the line of storms the supercell itself was embedded in? How can that happen, wouldn’t the outflow boundary be advancing too rapidly while the line of storms was still progressing, not to mention the air behind it wouldn’t have the opportunity to modify/recover? Your previous post about 5/8 notes the stabilizing impact of outflow, but in this IL case the storm was enhanced by its own outflow boundary?

Jon Davies said...

Hi, Jim C - Sorry I missed your comment earlier. What I didn't make clear was that this was an west-east outflow boundary from earlier in the afternoon on 6/20/21 that trailed behind a cluster of storms over northern IN, which could be seen on satellite loops. The boundary moved back north a bit during the evening into the Chicago area, and then new storms formed along it around 9 pm while at the same time other storms from Iowa approached from the west, spreading out west to east along what was left of the afternoon outflow boundary. With temperature-dew point spreads across the Chicago area only 5 to 8 deg F during the evening, the new storms along the "old" outflow boundary didn't put out much cold evaporation-enhanced air, so there was _no_ push southward initially along the boundary before the developing supercell embedded in storms farther west moved east along the boundary to interact with it. Hope that helps a bit. Thanks for the question & comment. - Jon 7/3/21

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