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1-minute Mesoscale Domain Sector GOES-16 (GOES-East) “Red” Visible (0.64 µm) and “Clean” Infrared Window (10.3 µm) images (above) included plots of Severe Thunderstorm Warning and Tornado Warning polygons — which showed the supercell thunderstorm that produced EF3 damage and was responsible for 1 fatality in the Columbia / Spring Hill communities (just southwest of Nashvillle) on 08 May 2024 (SPC Storm Reports).... Read More
1-minute GOES-16 “Red” Visible (0.64 µm, top) and “Clean” Infrared Window (10.3 µm, bottom) images with plots of Severe Thunderstorm Warning (yellow) and Tornado Warning (red) polygons, with/without an overlay of GLM Flash Extent Density, from 2059 UTC on 08 May to 0000 UTC on 09 May [click to play animated GIF | MP4]
1-minute Mesoscale Domain Sector GOES-16 (GOES-East) “Red” Visible (0.64 µm) and “Clean” Infrared Window (10.3 µm) images (above) included plots of Severe Thunderstorm Warning and Tornado Warning polygons — which showed the supercell thunderstorm that produced EF3 damage and was responsible for 1 fatality in the Columbia / Spring Hill communities (just southwest of Nashvillle) on 08 May 2024 (SPC Storm Reports). One sequence of the images also included an overlay of GOES-16 GLMFlash Extent Density— pulses of thunderstorm overshooting tops were apparent in the Visible and Infrared images, along with a few brief lightning jumps in the GLM data.
1-minute GOES-16 Visible/Infrared Sandwich RGB images (below) began to exhibit an Above-Anvil Cirrus Plume (reference | VISIT training) a little more than an hour before a Tornado Emergency (bold red polygon) was issued for the Spring Hill area (and downstream locations) at 2253 UTC.
1-minute GOES-16 Visible/Infrared Sandwich RGB images with plots of Severe Thunderstorm Warning (yellow) and Tornado Warning (red) polygons, from 2059-2300 UTC on 08 May [click to play animated GIF | MP4]
NUCAPS Sounding Availability, 1605 UTC (MetopC) and 1902 UTC (NOAA-20) on 8 May 2024 (Click to enlarge). The purple box highlights profiles shown below.
The Storm Prediction Center in Norman OK issued a Moderate Risk of severe weather over the lower Ohio River Valley/mid-Mississippi River Valley on 8 May 2024, as shown below. (Here are the storm reports for that day). The orbits for MetopC and NOAA-20 on the 8th sampled the region well, as shown in the toggle above of NUCAPS Sounding Availability with timestamps of 1605 UTC (Metop-C) and 1902 UTC (NOAA-20). Note the purple box in the toggle. Both MetopC NUCAPS and NOAA-20 NUCAPS retrievals at that location converged to a solution. How might the thermodynamic information within just those two profiles help?
SPC Convective Outlook Graphic, 1630 UTC on 8 May 2024 (Click to enlarge); See link above for text
The toggle below compares the MetopC NUCAPS and NOAA-20 NUCAPS profiles within the purple box in the toggle at the top of this blog post. The atmosphere at this location destabilizes in these three hours: diagnosed MUCAPE has more than doubled, mid-level lapse rates have steepened, the LFC has dropped, total precipitable water has increased. These indicators (derived from satellite-sensed radiances) all suggest that development of strong convection might proceed.
NUCAPS Profiles over southeastern Missouri, 1618 and 1932 UTC on 8 May 2024 (Click to enlarge)
This blog post just shows you two profiles showing how a small volume of the atmosphere over southeastern Missouri is changing. Gridded thermodynanic fields derived from all the NUCAPS profiles are also available and are especially useful in diagnosing gradients and changes in stability over a large area.
1-minute Mesoscale Domain Sector GOES-16 (GOES-East) “Red” Visible (0.64 µm) images (above) showed widespread thunderstorms that produced tornadoes, large hail and damaging winds (SPC Storm Reports) across parts of Nebraska, Kansas and Oklahoma (as well as far western Iowa, Missouri and Arkansas) on 06 May 2024. This was declared a rare High Risk day for severe weather by the... Read More
1-minute GOES-16 “Red” Visible (0.64 µm) images with time-matched SPC Storm Reports plotted in red [click to play animated GIF | MP4]
1-minute Mesoscale Domain Sector GOES-16 (GOES-East) “Red” Visible (0.64 µm) images (above) showed widespread thunderstorms that produced tornadoes, large hail and damaging winds (SPC Storm Reports) across parts of Nebraska, Kansas and Oklahoma (as well as far western Iowa, Missouri and Arkansas) on 06 May 2024. This was declared a rare High Risk day for severe weather by the SPC (as also discussed in this blog post).
A longer animation of 1-minute GOES-16 “Clean” Infrared Window (10.3 µm) images (below) extended several hours past sunset. The coldest overshooting top infrared brightness temperatures were in the -70 to -75ºC range (darker black to embedded shades of white). These thunderstorms produced the deadly EF4-rated tornado in Barnsdall, Oklahoma around 0240 UTC, hail as large as 4.00″ in diameter near Moonlight, Kansas around 0126 UTC and a wind gust as high as 82 mph near Chester, Oklahoma around 2209 UTC.
1-minute GOES-16 “Clean” Infrared Window (10.3 µm) images with time-matched SPC Storm Reports plotted in white [click to play animated GIF | MP4]
5-minute CONUS Sector GOES-16 Visible (and after 1911 UTC, Infrared) images combined with GOES-16 Convective Available Potential Energy (CAPE) and Lifted Index (LI) Derived Stability Indices and the Total Precipitable Water (TPW) derived product (below) showed the instability and moisture within the warm sector of a large midlatitude cyclone that was centered over the Northern Plains — ingredients which helped to fuel the development of the severe thunderstorms.
5-minute GOES-16 Visible (and after 1911 UTC, Infrared) images, combined with GOES-16 CAPE, LI and TPW derived products [click to play animated GIF | MP4]
The Storm Prediction Center has deemed 6 May 2024 as a day with a High Risk of severe weather over the central/south-central Plains:...SUMMARY... A regional outbreak of severe weather with multiple intense (EF3+), long-tracked tornadoes, as well as very large hail and severe thunderstorm gusts, is expected over parts of the... Read More
The Storm Prediction Center has deemed 6 May 2024 as a day with a High Risk of severe weather over the central/south-central Plains:
...SUMMARY...
A regional outbreak of severe weather with multiple intense (EF3+),
long-tracked tornadoes, as well as very large hail and severe
thunderstorm gusts, is expected over parts of the south-central
Plains from this afternoon through evening.
By 2100 UTC, strong convection had developed from South Dakota southward to western Oklahoma, as shown in the radar animation below (source).
Composite Reflectivity over the central Plains, 1909 – 2103 UTC, 6 May 2024 (Click to enlarge),
The Polar Hyperspectral Model (PHS) includes as its assimilated input Fusion Data, i.e., ABI “retrievals” that are matched to the latest observations from Low Earth Orbit (LEO) Hyperspectral Soundings. The ABI retrievals thus have the great spatio-temporal resolution of ABI data and the excellent spectral resolution of the LEO Sounders. The result is a better description of the initial moisture distribution in the model. How is this performing today? Imagery below was taken from the model website here; once there click on Forecast Plots and then on the calendar to the correct day. The toggle below compares the 6-h forecast and the 3-h forecast of the PHS-influenced model (a 4-km WRF simulation). A series of Supercellular-like storms arcs from Nebraska southward to Kansas, with strong storms in northwestern South Dakota as well. Compare the toggle below to the one from a 3-km HRRR simulation that has not been influenced by PHS data. The HRRR simulation shows weaker convection.
Surface Analysis, including Composite Reflectivity; 3-h and 6-h WRF 4-km forecasts from 1500 and 1800 UTC, respectively, valid at 2100 UTC 6 May 2024, with PHS assimilated PHS dataSurface Analysis, including Composite Reflectivity; 3-h and 6-h HRRR 3-km forecasts from 1500 and 1800 UTC, respectively, valid at 2100 UTC 6 May 2024; no PHS data are included
The toggle below compares the 3-h forecasts (valid at 2100 UTC) of 3-km HRRR (no PHS data) with the 4-km WRF (with PHS data). (Here is a similar comparison of 6-h forecasts valid at 2100 UTC) The PHS data has lead to a more accurate simulation of the convective strength over Nebraska, Kansas and South Dakota.
Surface Analysis, including Composite Reflectivity; 3-h 3-km forecasts from 1800 UTC, valid at 2100 UTC 6 May 2024; the 3-km HRRR does not have direct assimilation of fused ABI/LEO Sounding data; the 4-km WRF does have fused ABI/LEO Sounding data assimilated.
PHS scientists have created maps that combine where the High Shear and High Instability regions into one ‘Vortex Prediction’ image, shown below for 1700 UTC (and available at this website). This image below shows hourly forecasts valid at 1700 UTC, from forecasts initialized from 1100 – 1500 UTC on 6 May 2024. At 1700 UTC, the consistently-forecast most favorable environment for strong convection is over western Nebraska. That region is very close to the location of the first tornado touchdown of the day, shown below in SPC storm reports from 1830 UTC. (Imagery below courtesy Bill Smith Sr and Anthony DiNorscia, Hampton University).
Strong Vortex Predictor from 4-km WRF model including assimilated PHS data, 2-6 h forecasts valid at 1700 UTC on 6 May 2024 (click to enlarge)First Storm reports (screen captured at 1830 UTC on 6 May 2024 (click to enlarge)
Note that the HRRR simulation (left, below) has no similar signal as the WRF simulation with assimilated PHS data.
Strong Vortex Predictor from 4-km WRF model including assimilated PHS data (right) and from 3-km HRRR simulation without assimilated PHS data (left), 2-6 h forecasts valid at 1700 UTC on 6 May 2024 (click to enlarge)
