Tungurahua: Difference between revisions

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km NW, and 110 km NE at an altitude of 7.9 km a.s.l. The
km NW, and 110 km NE at an altitude of 7.9 km a.s.l. The
larger explosions during the morning were followed by pyroclastic flows that
larger explosions during the morning were followed by pyroclastic flows that
descended the SW and NW flanks. The Washington VAAC issued a volcanic ash alert at 13:00 UTC.
descended the SW and NW flanks.
<ref>http://www.volcano.si.edu/world/volcano.cfm?vnum=1502-08=&volpage=weekly</ref> The Washington VAAC issued a volcanic ash alert at 13:00 UTC.
<ref>Washington Volcanic Ash Advisory Center (VAAC) http://www.ssd.noaa.gov/VAAC/messages.html</ref>
<ref>Washington Volcanic Ash Advisory Center (VAAC) http://www.ssd.noaa.gov/VAAC/messages.html</ref>


Line 38: Line 39:
IG noted that explosions continued to generate ash plumes, but with progressively
IG noted that explosions continued to generate ash plumes, but with progressively
decreasing ash content. Ash plumes drifted NNE and NE, causing ashfall in
decreasing ash content. Ash plumes drifted NNE and NE, causing ashfall in
communities downwind.  
communities downwind.<ref> Instituto Geofísico-Escuela Politécnica Nacional (IG)
http://www.igepn.edu.ec/</ref>


On 17 Dec. people living on the slopes of the Tungurahua volcano were evacuated.<ref>ABC News http://abcnews.go.com/International/wireStory/ecuadors-tungurahua-volcano-prompts-evacuations-17999286#.UNM8ctHCaHc</ref>
On 17 Dec. people living on the slopes of the Tungurahua volcano were evacuated.<ref>ABC News http://abcnews.go.com/International/wireStory/ecuadors-tungurahua-volcano-prompts-evacuations-17999286#.UNM8ctHCaHc</ref>
Line 47: Line 49:
<ref> Walker, J. C., Dudhia, A., & Carboni, E. (2011). An effective method for the detection of trace species demonstrated using the MetOp Infrared Atmospheric Sounding Interferometer. ATMOS MEAS TECH, 4(8), 1567-1580. doi:10.5194/amt-4-1567-2011 </ref>.
<ref> Walker, J. C., Dudhia, A., & Carboni, E. (2011). An effective method for the detection of trace species demonstrated using the MetOp Infrared Atmospheric Sounding Interferometer. ATMOS MEAS TECH, 4(8), 1567-1580. doi:10.5194/amt-4-1567-2011 </ref>.
More quantitative data (a proper retrieval) will follow.
More quantitative data (a proper retrieval) will follow.
Sources: <br>
<ref>http://www.volcano.si.edu/world/volcano.cfm?vnum=1502-08=&volpage=weekly</ref>,<br>
Instituto Geofísico-Escuela Politécnica Nacional (IG)
<ref>http://www.igepn.edu.ec/</ref>, <br>


==References==
==References==

Revision as of 18:11, 20 December 2012

Tungurahua
Elevation 5,023 m
Latitude 1° 28′ 1″ S
Longitude 78° 26′ 30″ W

Tungurahua is an active volcano in Ecuador.


IASI SO2 monthly mean over Ecuador for the period Julyto December 2007. The retrieval assumed an SO2 plume height of 600 mb. Credit: Dr Elisa Carboni

Eruptions

16 December 2012

IASI SO2 flag over Ecuador for the orbit of 16th Dec. 2012 14 UTC. The top plot shows the 'plume' pixels where the probability of SO2 false detection is less than 1/10^5. The bottom plot show the SO2 flag for all the IASI pixels (this shows the locations sampled by IASI for this overpass). Credit: Dr Elisa Carboni

On 16 December the ash plume, generated by a large explosion, rose to a maximum height of 7 km and contained lightning. [1] Other explosions generated ash plumes up to 2 km high. Satellite imagery showed ash plumes drifting 140 km NW, and 110 km NE at an altitude of 7.9 km a.s.l. The larger explosions during the morning were followed by pyroclastic flows that descended the SW and NW flanks. [2] The Washington VAAC issued a volcanic ash alert at 13:00 UTC. [3]

On 17 December satellite images showed ash plumes drifting 50-130 km NE, and a dense ash plume drifting over 200 km NE at an altitude of 7 km a.s.l. IG noted that explosions continued to generate ash plumes, but with progressively decreasing ash content. Ash plumes drifted NNE and NE, causing ashfall in communities downwind.[4]

On 17 Dec. people living on the slopes of the Tungurahua volcano were evacuated.[5] [6]

Here a fast look at IASI data, with ours SO2 detection flag (= a fast linear retrieval with a lot of assumptions, like the standard atmospheric profiles etc...) [7] [8]. More quantitative data (a proper retrieval) will follow.

References

  1. Smithsonian/USGS Volcanic Activity Report http://www.volcano.si.edu/reports/usgs/
  2. http://www.volcano.si.edu/world/volcano.cfm?vnum=1502-08=&volpage=weekly
  3. Washington Volcanic Ash Advisory Center (VAAC) http://www.ssd.noaa.gov/VAAC/messages.html
  4. Instituto Geofísico-Escuela Politécnica Nacional (IG) http://www.igepn.edu.ec/
  5. ABC News http://abcnews.go.com/International/wireStory/ecuadors-tungurahua-volcano-prompts-evacuations-17999286#.UNM8ctHCaHc
  6. BBC News http://www.bbc.co.uk/news/world-latin-america-20765920
  7. Walker, J.C., E. Carboni, A. Dudhia, R.G. Grainger: Improved Detection of Sulphur Dioxide in Volcanic Plumes using Satellite-based Hyperspectral Infra-red Measurements: Application to the Eyjafjallaj?okull 2010 Eruption, J. Geophys. Res., 117, doi:10.1029/2011JD016810, 2012.
  8. Walker, J. C., Dudhia, A., & Carboni, E. (2011). An effective method for the detection of trace species demonstrated using the MetOp Infrared Atmospheric Sounding Interferometer. ATMOS MEAS TECH, 4(8), 1567-1580. doi:10.5194/amt-4-1567-2011
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