The environmental impact of the Puyehue–Cordon Caulle 2011 volcanic eruption on Buenos Aires

On 4 June 2011, the volcanic complex Puyehue–Cordon Caulle located in the Chilean Andes erupted, producing a plume of gases and particles that eventually circled the Southern Hemisphere, disrupting air travel and depositing ash in large quantities. On eight occasions, the plume passed over the city...

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Main Authors: G. B. Raga, D. Baumgardner, A. G. Ulke, M. Torres Brizuela, B. Kucienska
Format: Article
Language:English
Published: Copernicus Publications 2013-09-01
Series:Natural Hazards and Earth System Sciences
Online Access:http://www.nat-hazards-earth-syst-sci.net/13/2319/2013/nhess-13-2319-2013.pdf
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spelling doaj-e9f60aa739f146b1bf7be4389643289d2020-11-25T01:19:14ZengCopernicus PublicationsNatural Hazards and Earth System Sciences1561-86331684-99812013-09-011392319233010.5194/nhess-13-2319-2013The environmental impact of the Puyehue–Cordon Caulle 2011 volcanic eruption on Buenos AiresG. B. RagaD. BaumgardnerA. G. UlkeM. Torres BrizuelaB. KucienskaOn 4 June 2011, the volcanic complex Puyehue–Cordon Caulle located in the Chilean Andes erupted, producing a plume of gases and particles that eventually circled the Southern Hemisphere, disrupting air travel and depositing ash in large quantities. On eight occasions, the plume passed over the city of Buenos Aires, Argentina, leading local authorities to close the two international airports. <br><br> The eruption occurred during an on-going field campaign when measurements of the properties of atmospheric aerosol particles were being made in Buenos Aires as part of a year-long study of the concentration and optical properties of aerosol at one site in the city. The suite of instruments deployed in Buenos Aires were not tailored to measurements of volcanic ash, but were designed to characterize urban conditions. Nevertheless, these measurements were analysed for periods when vertical profiles of aerosol backscatter, made with a ceilometer, clearly showed the presence of the volcano plume over the research site and resulted in airport closure. <br><br> Aerosol optical thickness derived from AERONET, MODIS and a ceilometer at our research site, all show enhanced values clearly indicating that the three platforms identified the volcanic plume simultaneously. However, a quantitative comparison of the different estimates proves difficult, suggesting large spatial and temporal variability of the plume. <br><br> Our results indicate that the number concentration of condensation nuclei (CN), the mass concentration of particle-bound polycyclic aromatic hydrocarbons (PPAH) and the light absorption coefficient exceeded the average background values by more than one standard deviation during the events of volcanic plume. The anomalous concentrations of CN suggest new particle formation, presumably from the conversion of SO<sub>2</sub>, while the anomalous concentrations of PPAH may come from the uptake of PAHs on the plume particles or from chemical reactions on the surface of plume particles. The anomalous absorption coefficients indicate that plume particles may contain certain compounds that can absorb radiation at 550 nm. Another possible explanation consistent with the observations is the scavenging of black carbon from urban sources as the plume descends through the boundary layer to the surface. In addition, the volcanic plume influenced the local meteorology resulting in a decrease of the temperature when compared to the average temperature during days with no plume present.http://www.nat-hazards-earth-syst-sci.net/13/2319/2013/nhess-13-2319-2013.pdf
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language English
format Article
sources DOAJ
author G. B. Raga
D. Baumgardner
A. G. Ulke
M. Torres Brizuela
B. Kucienska
spellingShingle G. B. Raga
D. Baumgardner
A. G. Ulke
M. Torres Brizuela
B. Kucienska
The environmental impact of the Puyehue–Cordon Caulle 2011 volcanic eruption on Buenos Aires
Natural Hazards and Earth System Sciences
author_facet G. B. Raga
D. Baumgardner
A. G. Ulke
M. Torres Brizuela
B. Kucienska
author_sort G. B. Raga
title The environmental impact of the Puyehue–Cordon Caulle 2011 volcanic eruption on Buenos Aires
title_short The environmental impact of the Puyehue–Cordon Caulle 2011 volcanic eruption on Buenos Aires
title_full The environmental impact of the Puyehue–Cordon Caulle 2011 volcanic eruption on Buenos Aires
title_fullStr The environmental impact of the Puyehue–Cordon Caulle 2011 volcanic eruption on Buenos Aires
title_full_unstemmed The environmental impact of the Puyehue–Cordon Caulle 2011 volcanic eruption on Buenos Aires
title_sort environmental impact of the puyehue–cordon caulle 2011 volcanic eruption on buenos aires
publisher Copernicus Publications
series Natural Hazards and Earth System Sciences
issn 1561-8633
1684-9981
publishDate 2013-09-01
description On 4 June 2011, the volcanic complex Puyehue–Cordon Caulle located in the Chilean Andes erupted, producing a plume of gases and particles that eventually circled the Southern Hemisphere, disrupting air travel and depositing ash in large quantities. On eight occasions, the plume passed over the city of Buenos Aires, Argentina, leading local authorities to close the two international airports. <br><br> The eruption occurred during an on-going field campaign when measurements of the properties of atmospheric aerosol particles were being made in Buenos Aires as part of a year-long study of the concentration and optical properties of aerosol at one site in the city. The suite of instruments deployed in Buenos Aires were not tailored to measurements of volcanic ash, but were designed to characterize urban conditions. Nevertheless, these measurements were analysed for periods when vertical profiles of aerosol backscatter, made with a ceilometer, clearly showed the presence of the volcano plume over the research site and resulted in airport closure. <br><br> Aerosol optical thickness derived from AERONET, MODIS and a ceilometer at our research site, all show enhanced values clearly indicating that the three platforms identified the volcanic plume simultaneously. However, a quantitative comparison of the different estimates proves difficult, suggesting large spatial and temporal variability of the plume. <br><br> Our results indicate that the number concentration of condensation nuclei (CN), the mass concentration of particle-bound polycyclic aromatic hydrocarbons (PPAH) and the light absorption coefficient exceeded the average background values by more than one standard deviation during the events of volcanic plume. The anomalous concentrations of CN suggest new particle formation, presumably from the conversion of SO<sub>2</sub>, while the anomalous concentrations of PPAH may come from the uptake of PAHs on the plume particles or from chemical reactions on the surface of plume particles. The anomalous absorption coefficients indicate that plume particles may contain certain compounds that can absorb radiation at 550 nm. Another possible explanation consistent with the observations is the scavenging of black carbon from urban sources as the plume descends through the boundary layer to the surface. In addition, the volcanic plume influenced the local meteorology resulting in a decrease of the temperature when compared to the average temperature during days with no plume present.
url http://www.nat-hazards-earth-syst-sci.net/13/2319/2013/nhess-13-2319-2013.pdf
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