In June 2018 eruptions from volcano Fuego, 40 km west-southwest of Guatemala City, brought disaster and many deaths to its surrounding area.
22 October 2020
03 June 2018
By HansPeter Rosesli (Switzerland)
This deadly eruption ranks as the largest from the volcano since 1974, according to the Volcano Discovery report . At least 110 people were reported to have been killed as villages on the slopes the volcano were buried in volcanic ash, mud and rocks. Pyroclastic flows, which are fast-moving mixtures of very hot gas and volcanic matter, rushed down the mountainside and engulfed the villages.
The volcanic activity on 3 June is described with the help of RGB imagery from ABI on GOES-16. The animation of a sequence of Natural Color and Volcanic Ash RGBs during daylight (Figure 1) gives an overview of the volcanic activity. In general, the cyan colouring of the clouds in the Natural Color RGBs points to a dominant presence of ice clouds and those around Fuego probably disguised the ash particles due to having used them as ice nuclei in the very humid tropospheric air.
GOES-16 captured the first signs of activity around 13:45 UTC, after clouds had cleared from the area. On Figure 2 two blue pixels adjacent to the white dot (volcano position) mark an emerging hot spot on the Volcanic Ash RGB (right panel), and a short north-pointing plume left the crater on the Natural Color RGB (along white arrow on left panel).
According to news reports a massive first explosion occurred around local noon (18:00 UTC). The Natural Color RGB showed an emerging small grey-blue plume on top of two other plumes that had weakening grey shades (left panel on Figure 3). Although the grey colouring suggests the plume was dirty, no pink ash signal appeared in the Volcanic Ash RGB (right panel). However, the green U-shape points to the presence of SO2, although it could also be an artefact.
With the plumes from the first explosion having left the area, a second explosion occurred after 21:15 UTC. At 21:30 UTC the colouring of the plume on the Volcanic Ash RGB (right panel on Figure 4) showed more convincing green SO2 signals, but again the pink colour depicting ash was absent. Also, a lot of shadow on the Natural Color RGB made it difficult to spot dark ash (left panel). Nevertheless, in the south-west sector of the volcano area a grey veil with a south-west to north-east running edge can be discerned in the Natural Color RGB. The same area is purple or deep blue in the Volcanic Ash RGB and might indicate a thin ash layer at low levels.
Swirling smoke could be clearly seen on the MODIS True Color RGB, from the Aqua satellite, at 19:30 UTC on 3 June (brown area indicated by red arrows on Figure 5).
Guatemala's Fuego volcano: How the tragedy unfolded (BBC News)
Guatemala's Death Toll Rises as the Fuego Volcano Continues to Erupt (in Photos) (Pacific Standard)
Previous case study
Eruption of Fuego volcano (1 Feb 2018)
Latest case studies
Chalane crosses southern African subcontinent
Tropical Storm Chalane landfall in Madagascar and Mozambique in December 2020 then crossed the entire South African subcontinent.
Early summer convection in Argentina & Uruguay
Severe convection in central Argentina in December 2020.
Pacific cirrus above stratocumulus
New NIR1.3 channel on GOES ABI helps to detect thin cirrus clouds above low-level clouds.
Nearly-record snowfall in the western Alps
Winter 2020 started with more than 2 m snow in the Alps and an extreme amount of rain.
Upwelling in the Gulf of Tehuantepec
Strong upwelling of cold ocean waters and an increase in phytoplankton growth in the Gulf of Tehuantepec.