Atmospheric chemistry of a 33–34 hour old volcanic cloud from Hekla Volcano (Iceland): Insights from direct sampling and the application of chemical box modeling

On 28 February 2000, a volcanic cloud from Hekla volcano, Iceland, was serendipitously sampled by a DC-8 research aircraft during the SAGE III Ozone Loss and Validation Experiment (SOLVE I). It was encountered at night at 10.4 km above sea level (in the lower stratosphere) and 33–34 hours after emis...

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Main Authors: Rose, William I., Millard, Genevieve A., Mather, Tamsin A., Hunton, Donald E., Anderson, Bruce, Oppenheimer, Clive, Thornton, Brett F., Gerlach, Terrence M., Viggiano, Albert A., Kondo, Yutaka, Miller, Thomas M., Ballenthin, John O.
Format: Text
Language:unknown
Published: Digital Commons @ Michigan Tech 2006
Subjects:
Earth Sciences
Engineering
Geology
Mining Engineering
Other Engineering
Arctic
Hekla
Iceland
Online Access:https://digitalcommons.mtu.edu/geo-fp/40
https://digitalcommons.mtu.edu/cgi/viewcontent.cgi?article=1041&context=geo-fp
id ftmichigantuniv:oai:digitalcommons.mtu.edu:geo-fp-1041
record_format openpolar
spelling ftmichigantuniv:oai:digitalcommons.mtu.edu:geo-fp-1041 2023-05-15T15:13:34+02:00 Atmospheric chemistry of a 33–34 hour old volcanic cloud from Hekla Volcano (Iceland): Insights from direct sampling and the application of chemical box modeling Rose, William I. Millard, Genevieve A. Mather, Tamsin A. Hunton, Donald E. Anderson, Bruce Oppenheimer, Clive Thornton, Brett F. Gerlach, Terrence M. Viggiano, Albert A. Kondo, Yutaka Miller, Thomas M. Ballenthin, John O. 2006-10-24T07:00:00Z application/pdf https://digitalcommons.mtu.edu/geo-fp/40 https://digitalcommons.mtu.edu/cgi/viewcontent.cgi?article=1041&context=geo-fp unknown Digital Commons @ Michigan Tech https://digitalcommons.mtu.edu/geo-fp/40 https://digitalcommons.mtu.edu/cgi/viewcontent.cgi?article=1041&context=geo-fp Department of Geological and Mining Engineering and Sciences Publications Earth Sciences Engineering Geology Mining Engineering Other Engineering text 2006 ftmichigantuniv 2022-01-23T10:32:02Z On 28 February 2000, a volcanic cloud from Hekla volcano, Iceland, was serendipitously sampled by a DC-8 research aircraft during the SAGE III Ozone Loss and Validation Experiment (SOLVE I). It was encountered at night at 10.4 km above sea level (in the lower stratosphere) and 33–34 hours after emission. The cloud is readily identified by abundant SO2 (≤1 ppmv), HCl (≤70 ppbv), HF (≤60 ppbv), and particles (which may have included fine silicate ash). We compare observed and modeled cloud compositions to understand its chemical evolution. Abundances of sulfur and halogen species indicate some oxidation of sulfur gases but limited scavenging and removal of halides. Chemical modeling suggests that cloud concentrations of water vapor and nitric acid promoted polar stratospheric cloud (PSC) formation at 201–203 K, yielding ice, nitric acid trihydrate (NAT), sulfuric acid tetrahydrate (SAT), and liquid ternary solution H2SO4/H2O/HNO3 (STS) particles. We show that these volcanically induced PSCs, especially the ice and NAT particles, activated volcanogenic halogens in the cloud producing >2 ppbv ClOx. This would have destroyed ozone during an earlier period of daylight, consistent with the very low levels of ozone observed. This combination of volcanogenic PSCs and chlorine destroyed ozone at much faster rates than other PSCs that Arctic winter. Elevated levels of HNO3 and NOy in the cloud can be explained by atmospheric nitrogen fixation in the eruption column due to high temperatures and/or volcanic lightning. However, observed elevated levels of HOx remain unexplained given that the cloud was sampled at night. Text Arctic Hekla Iceland Michigan Technological University: Digital Commons @ Michigan Tech Arctic
institution Open Polar
collection Michigan Technological University: Digital Commons @ Michigan Tech
op_collection_id ftmichigantuniv
language unknown
topic Earth Sciences
Engineering
Geology
Mining Engineering
Other Engineering
spellingShingle Earth Sciences
Engineering
Geology
Mining Engineering
Other Engineering
Rose, William I.
Millard, Genevieve A.
Mather, Tamsin A.
Hunton, Donald E.
Anderson, Bruce
Oppenheimer, Clive
Thornton, Brett F.
Gerlach, Terrence M.
Viggiano, Albert A.
Kondo, Yutaka
Miller, Thomas M.
Ballenthin, John O.
Atmospheric chemistry of a 33–34 hour old volcanic cloud from Hekla Volcano (Iceland): Insights from direct sampling and the application of chemical box modeling
topic_facet Earth Sciences
Engineering
Geology
Mining Engineering
Other Engineering
description On 28 February 2000, a volcanic cloud from Hekla volcano, Iceland, was serendipitously sampled by a DC-8 research aircraft during the SAGE III Ozone Loss and Validation Experiment (SOLVE I). It was encountered at night at 10.4 km above sea level (in the lower stratosphere) and 33–34 hours after emission. The cloud is readily identified by abundant SO2 (≤1 ppmv), HCl (≤70 ppbv), HF (≤60 ppbv), and particles (which may have included fine silicate ash). We compare observed and modeled cloud compositions to understand its chemical evolution. Abundances of sulfur and halogen species indicate some oxidation of sulfur gases but limited scavenging and removal of halides. Chemical modeling suggests that cloud concentrations of water vapor and nitric acid promoted polar stratospheric cloud (PSC) formation at 201–203 K, yielding ice, nitric acid trihydrate (NAT), sulfuric acid tetrahydrate (SAT), and liquid ternary solution H2SO4/H2O/HNO3 (STS) particles. We show that these volcanically induced PSCs, especially the ice and NAT particles, activated volcanogenic halogens in the cloud producing >2 ppbv ClOx. This would have destroyed ozone during an earlier period of daylight, consistent with the very low levels of ozone observed. This combination of volcanogenic PSCs and chlorine destroyed ozone at much faster rates than other PSCs that Arctic winter. Elevated levels of HNO3 and NOy in the cloud can be explained by atmospheric nitrogen fixation in the eruption column due to high temperatures and/or volcanic lightning. However, observed elevated levels of HOx remain unexplained given that the cloud was sampled at night.
format Text
author Rose, William I.
Millard, Genevieve A.
Mather, Tamsin A.
Hunton, Donald E.
Anderson, Bruce
Oppenheimer, Clive
Thornton, Brett F.
Gerlach, Terrence M.
Viggiano, Albert A.
Kondo, Yutaka
Miller, Thomas M.
Ballenthin, John O.
author_facet Rose, William I.
Millard, Genevieve A.
Mather, Tamsin A.
Hunton, Donald E.
Anderson, Bruce
Oppenheimer, Clive
Thornton, Brett F.
Gerlach, Terrence M.
Viggiano, Albert A.
Kondo, Yutaka
Miller, Thomas M.
Ballenthin, John O.
author_sort Rose, William I.
title Atmospheric chemistry of a 33–34 hour old volcanic cloud from Hekla Volcano (Iceland): Insights from direct sampling and the application of chemical box modeling
title_short Atmospheric chemistry of a 33–34 hour old volcanic cloud from Hekla Volcano (Iceland): Insights from direct sampling and the application of chemical box modeling
title_full Atmospheric chemistry of a 33–34 hour old volcanic cloud from Hekla Volcano (Iceland): Insights from direct sampling and the application of chemical box modeling
title_fullStr Atmospheric chemistry of a 33–34 hour old volcanic cloud from Hekla Volcano (Iceland): Insights from direct sampling and the application of chemical box modeling
title_full_unstemmed Atmospheric chemistry of a 33–34 hour old volcanic cloud from Hekla Volcano (Iceland): Insights from direct sampling and the application of chemical box modeling
title_sort atmospheric chemistry of a 33–34 hour old volcanic cloud from hekla volcano (iceland): insights from direct sampling and the application of chemical box modeling
publisher Digital Commons @ Michigan Tech
publishDate 2006
url https://digitalcommons.mtu.edu/geo-fp/40
https://digitalcommons.mtu.edu/cgi/viewcontent.cgi?article=1041&context=geo-fp
geographic Arctic
geographic_facet Arctic
genre Arctic
Hekla
Iceland
genre_facet Arctic
Hekla
Iceland
op_source Department of Geological and Mining Engineering and Sciences Publications
op_relation https://digitalcommons.mtu.edu/geo-fp/40
https://digitalcommons.mtu.edu/cgi/viewcontent.cgi?article=1041&context=geo-fp
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