Airborne observations of the Eyjafjalla volcano ash cloud over Europe during air space closure in April and May 2010
Airborne lidar and in-situ measurements of aerosols and trace gases were performed in volcanic ash plumes over Europe between Southern Germany and Iceland with the Falcon aircraft during the eruption period of the Eyjafjalla volcano between 19 April and 18 May 2010. Flight planning and measurement a...
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München : European Geopyhsical Union
2011
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Online Access: | https://doi.org/10.34657/783 https://oa.tib.eu/renate/handle/123456789/517 |
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ftleibnizopen:oai:oai.leibnizopen.de:O9-Pm4YBdbrxVwz6SXHe 2023-05-15T16:53:00+02:00 Airborne observations of the Eyjafjalla volcano ash cloud over Europe during air space closure in April and May 2010 Schumann, U. Weinzierl, B. Reitebuch, O. Schlager, H. Minikin, A. Forster, C. Baumann, R. Sailer, T. Graf, K. Mannstein, H. Voigt, C. Rahm, S. Simmet, R. Scheibe, M. Lichtenstern, M. Stock, P. Rüba, H. Schäuble, D. Tafferner, A. Rautenhaus, M. Gerz, T. Ziereis, H. Krautstrunk, M. Mallaun, C. Gayet, J.-F. Lieke, K. Kandler, K. Ebert, M. Weinbruch, S. Stohl, A. Gasteiger, J. Groß, S. Freudenthaler, V. Wiegner, M. Ansmann, A. Tesche, M. Olafsson, H. Sturm, K. 2011 application/pdf https://doi.org/10.34657/783 https://oa.tib.eu/renate/handle/123456789/517 eng eng München : European Geopyhsical Union CC BY 3.0 Unported https://creativecommons.org/licenses/by/3.0/ CC-BY Atmospheric Chemistry and Physics, Volume 11, Issue 5, Page 2245-2279 aerosol airborne sensing lidar Meteosat mixing ratio plume refractive index sedimentation sulfur dioxide trace gas volcanic ash volcanic eruption 550 article Text 2011 ftleibnizopen https://doi.org/10.34657/783 2023-03-01T07:45:45Z Airborne lidar and in-situ measurements of aerosols and trace gases were performed in volcanic ash plumes over Europe between Southern Germany and Iceland with the Falcon aircraft during the eruption period of the Eyjafjalla volcano between 19 April and 18 May 2010. Flight planning and measurement analyses were supported by a refined Meteosat ash product and trajectory model analysis. The volcanic ash plume was observed with lidar directly over the volcano and up to a distance of 2700 km downwind, and up to 120 h plume ages. Aged ash layers were between a few 100 m to 3 km deep, occurred between 1 and 7 km altitude, and were typically 100 to 300 km wide. Particles collected by impactors had diameters up to 20 μm diameter, with size and age dependent composition. Ash mass concentrations were derived from optical particle spectrometers for a particle density of 2.6 g cm−3 and various values of the refractive index (RI, real part: 1.59; 3 values for the imaginary part: 0, 0.004 and 0.008). The mass concentrations, effective diameters and related optical properties were compared with ground-based lidar observations. Theoretical considerations of particle sedimentation constrain the particle diameters to those obtained for the lower RI values. The ash mass concentration results have an uncertainty of a factor of two. The maximum ash mass concentration encountered during the 17 flights with 34 ash plume penetrations was below 1 mg m−3. The Falcon flew in ash clouds up to about 0.8 mg m−3 for a few minutes and in an ash cloud with approximately 0.2 mg m−3 mean-concentration for about one hour without engine damage. The ash plumes were rather dry and correlated with considerable CO and SO2 increases and O3 decreases. To first order, ash concentration and SO2 mixing ratio in the plumes decreased by a factor of two within less than a day. In fresh plumes, the SO2 and CO concentration increases were correlated with the ash mass concentration. The ash plumes were often visible slantwise as faint dark layers, even for ... Article in Journal/Newspaper Iceland LeibnizOpen (The Leibniz Association) |
institution |
Open Polar |
collection |
LeibnizOpen (The Leibniz Association) |
op_collection_id |
ftleibnizopen |
language |
English |
topic |
aerosol airborne sensing lidar Meteosat mixing ratio plume refractive index sedimentation sulfur dioxide trace gas volcanic ash volcanic eruption 550 |
spellingShingle |
aerosol airborne sensing lidar Meteosat mixing ratio plume refractive index sedimentation sulfur dioxide trace gas volcanic ash volcanic eruption 550 Schumann, U. Weinzierl, B. Reitebuch, O. Schlager, H. Minikin, A. Forster, C. Baumann, R. Sailer, T. Graf, K. Mannstein, H. Voigt, C. Rahm, S. Simmet, R. Scheibe, M. Lichtenstern, M. Stock, P. Rüba, H. Schäuble, D. Tafferner, A. Rautenhaus, M. Gerz, T. Ziereis, H. Krautstrunk, M. Mallaun, C. Gayet, J.-F. Lieke, K. Kandler, K. Ebert, M. Weinbruch, S. Stohl, A. Gasteiger, J. Groß, S. Freudenthaler, V. Wiegner, M. Ansmann, A. Tesche, M. Olafsson, H. Sturm, K. Airborne observations of the Eyjafjalla volcano ash cloud over Europe during air space closure in April and May 2010 |
topic_facet |
aerosol airborne sensing lidar Meteosat mixing ratio plume refractive index sedimentation sulfur dioxide trace gas volcanic ash volcanic eruption 550 |
description |
Airborne lidar and in-situ measurements of aerosols and trace gases were performed in volcanic ash plumes over Europe between Southern Germany and Iceland with the Falcon aircraft during the eruption period of the Eyjafjalla volcano between 19 April and 18 May 2010. Flight planning and measurement analyses were supported by a refined Meteosat ash product and trajectory model analysis. The volcanic ash plume was observed with lidar directly over the volcano and up to a distance of 2700 km downwind, and up to 120 h plume ages. Aged ash layers were between a few 100 m to 3 km deep, occurred between 1 and 7 km altitude, and were typically 100 to 300 km wide. Particles collected by impactors had diameters up to 20 μm diameter, with size and age dependent composition. Ash mass concentrations were derived from optical particle spectrometers for a particle density of 2.6 g cm−3 and various values of the refractive index (RI, real part: 1.59; 3 values for the imaginary part: 0, 0.004 and 0.008). The mass concentrations, effective diameters and related optical properties were compared with ground-based lidar observations. Theoretical considerations of particle sedimentation constrain the particle diameters to those obtained for the lower RI values. The ash mass concentration results have an uncertainty of a factor of two. The maximum ash mass concentration encountered during the 17 flights with 34 ash plume penetrations was below 1 mg m−3. The Falcon flew in ash clouds up to about 0.8 mg m−3 for a few minutes and in an ash cloud with approximately 0.2 mg m−3 mean-concentration for about one hour without engine damage. The ash plumes were rather dry and correlated with considerable CO and SO2 increases and O3 decreases. To first order, ash concentration and SO2 mixing ratio in the plumes decreased by a factor of two within less than a day. In fresh plumes, the SO2 and CO concentration increases were correlated with the ash mass concentration. The ash plumes were often visible slantwise as faint dark layers, even for ... |
format |
Article in Journal/Newspaper |
author |
Schumann, U. Weinzierl, B. Reitebuch, O. Schlager, H. Minikin, A. Forster, C. Baumann, R. Sailer, T. Graf, K. Mannstein, H. Voigt, C. Rahm, S. Simmet, R. Scheibe, M. Lichtenstern, M. Stock, P. Rüba, H. Schäuble, D. Tafferner, A. Rautenhaus, M. Gerz, T. Ziereis, H. Krautstrunk, M. Mallaun, C. Gayet, J.-F. Lieke, K. Kandler, K. Ebert, M. Weinbruch, S. Stohl, A. Gasteiger, J. Groß, S. Freudenthaler, V. Wiegner, M. Ansmann, A. Tesche, M. Olafsson, H. Sturm, K. |
author_facet |
Schumann, U. Weinzierl, B. Reitebuch, O. Schlager, H. Minikin, A. Forster, C. Baumann, R. Sailer, T. Graf, K. Mannstein, H. Voigt, C. Rahm, S. Simmet, R. Scheibe, M. Lichtenstern, M. Stock, P. Rüba, H. Schäuble, D. Tafferner, A. Rautenhaus, M. Gerz, T. Ziereis, H. Krautstrunk, M. Mallaun, C. Gayet, J.-F. Lieke, K. Kandler, K. Ebert, M. Weinbruch, S. Stohl, A. Gasteiger, J. Groß, S. Freudenthaler, V. Wiegner, M. Ansmann, A. Tesche, M. Olafsson, H. Sturm, K. |
author_sort |
Schumann, U. |
title |
Airborne observations of the Eyjafjalla volcano ash cloud over Europe during air space closure in April and May 2010 |
title_short |
Airborne observations of the Eyjafjalla volcano ash cloud over Europe during air space closure in April and May 2010 |
title_full |
Airborne observations of the Eyjafjalla volcano ash cloud over Europe during air space closure in April and May 2010 |
title_fullStr |
Airborne observations of the Eyjafjalla volcano ash cloud over Europe during air space closure in April and May 2010 |
title_full_unstemmed |
Airborne observations of the Eyjafjalla volcano ash cloud over Europe during air space closure in April and May 2010 |
title_sort |
airborne observations of the eyjafjalla volcano ash cloud over europe during air space closure in april and may 2010 |
publisher |
München : European Geopyhsical Union |
publishDate |
2011 |
url |
https://doi.org/10.34657/783 https://oa.tib.eu/renate/handle/123456789/517 |
genre |
Iceland |
genre_facet |
Iceland |
op_source |
Atmospheric Chemistry and Physics, Volume 11, Issue 5, Page 2245-2279 |
op_rights |
CC BY 3.0 Unported https://creativecommons.org/licenses/by/3.0/ |
op_rightsnorm |
CC-BY |
op_doi |
https://doi.org/10.34657/783 |
_version_ |
1766043515307950080 |