McIDAS images of GOES-13 0.63 µm visible channel data (above; click image to play animation; also available as a QuickTime movie) showed the rapid development of the supercell thunderstorm that produced the deadly tornado that struck Joplin, Missouri (station identifier JLN) on 22 May 2011. The GOES-13 satellite had been placed into Rapid Scan Operations (RSO), providing images as frequently as every 5-10 minutes. Very distinct overshooting tops could be seen with this large thunderstorm as it developed in extreme southeastern Kansas and moved eastward ahead of an advancing cold frontal boundary. According to the National Weather Service Springfield MO damage survey, the Joplin tornado produced EF-5 damage with a path width of 3/4 mile and a path length of 6 miles, and was responsible for 132 deaths and 750 injuries.
A 250-meter resolution MODIS true color Red/Green/Blue (RGB) image from the SSEC MODIS Today site (below; displayed using Google Earth) showed the line of thunderstorms developing from western Missouri into extreme southeastern Kansas.
AWIPS images of GOES-13 10.7 µm IR channel data with overlays of the Automated Overshooting Tops Detection product (below) flagged a number of overshooting tops as the storm approached Joplin (KJLN).
A comparison of AWIPS images of the GOES-13 10.7 Âµm IR channel data at 21:25 UTC with overlays of the corresponding Automated Thermal Couplet Detection product and the past hour of SPC storm reports (below) revealed a strong thermal couplet of 12.7Âº C at that time (about 1 hour and 16 minutes before the Joplin tornado) — note that the location of the thermal couplet indicator is parallax-corrected, moving it just to the southeast of where the cold/warm thermal couplet is seen on the non-parallax-corrected GOES-13 IR image. This particular thermal couplet was associated with a west-to-east swath of hail as large as 1.75 inch in diameter that began in far southeastern Kansas at 21:02 UTC, along with a report of wind gusts to 62 mph. The Joplin tornado began to move into the city around 22:41 UTC (5:41 pm local time).
The Overshooting Tops detection and Thermal Couplet detection products are collaborative efforts between researchers at the NASA Langley Research Center and CIMSS. The development, generation, and evaluation of these products are part of the GOES-R Proving Ground effort; these products will be operational with data from the ABI instrument on GOES-R.