2020
DOI: 10.5194/acp-20-15015-2020
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Particle aging and aerosol–radiation interaction affect volcanic plume dispersion: evidence from the Raikoke 2019 eruption

Abstract: Abstract. A correct and reliable forecast of volcanic plume dispersion is vital for aviation safety. This can only be achieved by representing all responsible physical and chemical processes (sources, sinks, and interactions) in the forecast models. The representation of the sources has been enhanced over the last decade, while the sinks and interactions have received less attention. In particular, aerosol dynamic processes and aerosol–radiation interaction are neglected so far. Here we address this gap by fur… Show more

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Cited by 62 publications
(153 citation statements)
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“…An OMPS aerosol extinction profile, which was observed on 22 June 2019 02:26 UTC at 49 • N and 154 • E, displays an enhanced aerosol signal at ≈ 14 km altitude (supporting material Fig. A1b) that is compatible with previous estimates (e.g., Muser et al, 2020). A sequence of Himawari-8 infrared observations at 20 min intervals has been used to produce a GIF (GIF in the supporting material), which displays the complex pattern of plumes of gas and ash emitted by the successive explosions.…”
Section: Injection and Early Dispersion Of The Raikoke Plumesupporting
confidence: 89%
“…An OMPS aerosol extinction profile, which was observed on 22 June 2019 02:26 UTC at 49 • N and 154 • E, displays an enhanced aerosol signal at ≈ 14 km altitude (supporting material Fig. A1b) that is compatible with previous estimates (e.g., Muser et al, 2020). A sequence of Himawari-8 infrared observations at 20 min intervals has been used to produce a GIF (GIF in the supporting material), which displays the complex pattern of plumes of gas and ash emitted by the successive explosions.…”
Section: Injection and Early Dispersion Of The Raikoke Plumesupporting
confidence: 89%
“…These data are heterogeneously generated and not directly comparable to present-day instrumental observations, nor are they representative of the LSE as a whole -and hence not appropriate as modeling input. While comparable in Volcanic Explosivity Index (Newhall and Self, 1982), the calculated magnitude of the LSE (M = 6.2) is slightly greater than the 1991 Mt. Pinatubo eruption (M = 6).…”
Section: Source Parametersmentioning
confidence: 65%
“…The VolMIP-Tambora ISA experiment protocol prescribed an injection altitude for the volcanic cloud, which in theory should remove this potential indirect source of intermodel disagreement from excluding ash, by acting as if the self-lofting had already occurred. Due to the process of ash scavenging, injected ash can decrease the SO 2 (e.g., Zhu et al, 2020) and sulfate (Muser et al, 2020) residence time and concentration in the stratosphere. The result would be a lower sulfate aerosol mass burden and possibly altered size distribution.…”
Section: Volcanic Ashmentioning
confidence: 99%