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Blowing dust across Mongolia and ChinaMay 6th, 2021 | Scott Bachmeier![Himawari-8 Dust RGB images [click to play animation | MP4]](https://cimss.ssec.wisc.edu/satellite-blog/images/2021/05/210504_210506_himawari8_dustRGB_Mongolia_blowing_dust_anim.gif) Himawari-8 Dust RGB images [click to play animation | MP4] Surface analyses from the Korean Meteorological Agency (below) showed an impressive pressure gradient between a midlatidude cyclone (moving southeastward from Mongolia into China) and high pressure moving southward behind it. Some of the airborne dust was entrained into the circulation of this low pressure system. ![Surface analyses during the period from 21 UTC on 0 May to 21 UTC on 06 May [click to enlarge | MP4]](https://cimss.ssec.wisc.edu/satellite-blog/images/2021/05/210504_210506_Asia_surface_analyses_anim.gif) Surface analyses during the period from 21 UTC on 04 May to 21 UTC on 06 May [click to enlarge | MP4] Severe weather across much of the Southeast USMay 4th, 2021 | Scott Bachmeier![GOES-16 “Red” Visible (0.64 µm) images, with SPC Storm Reports plotted in red [click to play animation | MP4]](https://cimss.ssec.wisc.edu/satellite-blog/images/2021/05/210504_goes16_visble_spcStormReports_Deep_South_anim.gif) GOES-16 “Red” Visible (0.64 µm) images, with SPC Storm Reports plotted in red [click to play animation | MP4] The corresponding 1-minute GOES-16 “Clean” Infrared Window (10.35 µm) images (below) showed numerous overshooting tops that exhibited infrared brightness temperatures in the -75 to -70ºC range (white pixels embedded within black areas). The MCS also produced heavy rainfall and flooding in parts of northern Alabama. ![GOES-16 “Clean” Infrared Window (10.35 µm) images, with SPC Storm Reports plotted in cyan [click to play animation | MP4]](https://cimss.ssec.wisc.edu/satellite-blog/images/2021/05/210504_goes16_infrared_spcStormReports_Deep_South_anim.gif) GOES-16 “Clean” Infrared Window (10.35 µm) images, with SPC Storm Reports plotted in cyan [click to play animation | MP4]
Larger-scale views of 5-minute CONUS Sector GOES-16 Visible and Infrared images are shown below. Several additional MCSs produced a variety of severe weather across other parts of the Southeast US. ![GOES-16 “Red” Visible (0.64 µm) images, with SPC Storm Reports plotted in red [click to play animation | MP4]](https://cimss.ssec.wisc.edu/satellite-blog/images/2021/05/210504_goes16_visible_spcStormReports_Southeast_US_anim.gif) GOES-16 “Red” Visible (0.64 µm) images, with SPC Storm Reports plotted in red [click to play animation | MP4] ![GOES-16 “Clean” Infrared Window (10.35 µm) images, with SPC Storm Reports plotted in cyan [click to play animation | MP4]](https://cimss.ssec.wisc.edu/satellite-blog/images/2021/05/210504_goes16_infrared_spcStormReports_Southeast_US_anim.gif) GOES-16 “Clean” Infrared Window (10.35 µm) images, with SPC Storm Reports plotted in cyan [click to play animation | MP4] ProbSevere products over the Southern PlainsMay 3rd, 2021 | John CintineoThe NOAA/CIMSS ProbSevere portfolio contains AI models for nowcasting convective weather. I’ll use Monday’s severe weather over the Southern Plains to highlight several of them. A strong cold front spawned numerous severe-hail, wind, and tornado producing storms over Texas and Oklahoma, aided by very large values of convective available potential energy (CAPE; > 4000 J/kg). You can see numerous storm reports in Figure 1.  Storm Prediction Center’s preliminary severe storm reports for May 3rd, 2021. Probsevere version 2 (PSv2) is an operational set of models at NOAA, which predict the probability of severe hail, severe wind, and tornadoes, in the next 60 minutes. The models are storm-centric, and the models’ domain is the entire contiguous United States (CONUS). These models use MRMS (radar), GOES (satellite), short-term NWP, and terrestrial-based lightning observations to generate probabilistic guidance of severe hazards. Figure 2 shows output from an experimental version (PSv3), which includes additional MRMS, GOES, and NWP fields as predictors in a machine learning model.  Figure 2: ProbSevere v3 contours (colored, around storms), MRMS MergedReflectivity, and NWS severe weather warnings (yellow and red boxes) for storms over the Southern Plains. The second outer contour around some storms is colored by the probability of tornado.
Another ProbSevere product is a convolutional neural network that uses GOES-R ABI and GLM images to detect regions of intense convection, and is often correlated with strong overshooting tops, “bubbly-like” texture in visible imagery, strong lightning cores, and the cold-U/above-anvil cirrus plume signature. The intense convection probability (ICP) can be run on the 1-minute mesoscale scans as well as 5-minute CONUS sector scans aboard the GOES satellites. The ICP does not require radar data, and may also be able to operate on data from satellites with similar intruments (e.g., Meteosat Third Generation). ICP output is being used as a predictor in the experimental ProbSevere v3.
Predicting when and where lightning will occur is also important for many users, such as mariners, aviators, and outdoor event managers. The probability of lightning model (PLTG) is also a convolutional neural network, using images of visible, near-infrared, and longwave-infrared channels to nowcast lightning occurrence in the next 60 minutes. The purple-to-orange shaded regions in the video below show GLM flash-extent density (i.e., flashes passing through a location). Blowing dust behind the outflow of a severe thunderstorm in ColoradoMay 2nd, 2021 | Scott Bachmeier GOES-16 “Red” Visible (0.64 µm), CIMSS Natural Color RGB and Dust RGB images [click to play animation | MP4] 1-minute GOES-16 True Color RGB images created using Geo2Grid (below) highlighted the characteristic tan-colored hues of blowing dust along and behind the thunderstorm outflow boundary. ![GOES-16 True Color RGB images [click to play animation | MP4]](https://cimss.ssec.wisc.edu/satellite-blog/images/2021/05/210502_goes16_trueColorRGB_CO_anim.gif) GOES-16 True Color RGB images [click to play animation | MP4] |
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