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https://hdl.handle.net/20.500.14279/18504
Title: | The unprecedented 2017-2018 stratospheric smoke event: Decay phase and aerosol properties observed with the EARLINET | Authors: | Baars, Holger Ansmann, Albert Ohneiser, Kevin Haarig, Moritz Engelmann, Ronny Althausen, Dietrich Hanssen, Ingrid Gausa, Michael Pietruczuk, Aleksander Szkop, Artur Stachlewska, Iwona S. Wang, Dongxiang Reichardt, Jens Skupin, Annett Mattis, Ina Trickl, Thomas Vogelmann, Hannes Navas-Guzmán, Francisco Haefele, Alexander Acheson, Karen Ruth, Albert A. Tatarov, Boyan Müller, Detlef Hu, Qiaoyun Podvin, Thierry Goloub, Philippe Veselovskĭĭ, Igor A. Pietras, Christophe Haeffelin, Martial Fréville, Patrick Sicard, Michaël Comerón, Adolfo García, Alfonso Javier Fernández Menéndez, Francisco Molero Córdoba-Jabonero, Carmen Guerrero-Rascado, Juan Luis Alados-Arboledas, Lucas Bortoli, Daniele Costa, Maria João Dionisi, Davide Liberti, Gian Luigi Wang, Xuan Sannino, Alessia Papagiannopoulos, Nikolaos Boselli, Antonella Mona, Lucia D'Amico, Giuseppe Romano, Salvatore Perrone, Maria Rita Belegante, Livio Nicolae, Doina Nicoleta Grigorov, Ivan Gialitaki, Anna Amiridis, Vassilis Soupiona, Ourania Papayannis, Alexandros Mamouri, Rodanthi-Elisavet Nisantzi, Argyro Heese, Birgit Hofer, Julian Schechner, Yoav Y. Wandinger, Ulla Pappalardo, Gelsomina |
Major Field of Science: | Natural Sciences | Field Category: | Earth and Related Environmental Sciences | Keywords: | Aerosol property;Atmospheric plume;Black carbon;Northern Hemisphere;Smoke;Soot;Stratosphere;Troposphere | Issue Date: | 13-Dec-2019 | Source: | Atmospheric Chemistry and Physics, 2019, vol. 19, no. 23, pp. 15183-15198 | Volume: | 19 | Issue: | 23 | Start page: | 15183 | End page: | 15198 | Project: | ERATOSTHENES: Excellence Research Centre for Earth Surveillance and Space-Based Monitoring of the Environment | Journal: | Atmospheric Chemistry and Physics | Abstract: | Six months of stratospheric aerosol observations with the European Aerosol Research Lidar Network (EARLINET) from August 2017 to January 2018 are presented. The decay phase of an unprecedented, record-breaking stratospheric perturbation caused by wildfire smoke is reported and discussed in terms of geometrical, optical, and microphysical aerosol properties. Enormous amounts of smoke were injected into the upper troposphere and lower stratosphere over fire areas in western Canada on 12 August 2017 during strong thunderstorm-pyrocumulonimbus activity. The stratospheric fire plumes spread over the entire Northern Hemisphere in the following weeks and months. Twenty-eight European lidar stations from northern Norway to southern Portugal and the eastern Mediterranean monitored the strong stratospheric perturbation on a continental scale. The main smoke layer (over central, western, southern, and eastern Europe) was found at heights between 15 and 20 km since September 2017 (about 2 weeks after entering the stratosphere). Thin layers of smoke were detected at heights of up to 22-23 km. The stratospheric aerosol optical thickness at 532 nm decreased from values > 0.25 on 21-23 August 2017 to 0.005-0.03 until 5-10 September and was mainly 0.003-0.004 from October to December 2017 and thus was still significantly above the stratospheric background (0.001-0.002). Stratospheric particle extinction coefficients (532 nm) were as high as 50-200 Mm-1 until the beginning of September and on the order of 1 Mm-1 (0.5- 5 Mm-1) from October 2017 until the end of January 2018. The corresponding layer mean particle mass concentration was on the order of 0.05-0.5 μg m-3 over these months. Soot particles (light-absorbing carbonaceous particles) are efficient ice-nucleating particles (INPs) at upper tropospheric (cirrus) temperatures and available to influence cirrus formation when entering the tropopause from above. We estimated INP concentrations of 50-500 L-1 until the first days in September and afterwards 5-50 L-1 until the end of the year 2017 in the lower stratosphere for typical cirrus formation temperatures of -55 ?C and an ice supersaturation level of 1.15. The measured profiles of the particle linear depolarization ratio indicated a predominance of nonspherical smoke particles. The 532 nm depolarization ratio decreased slowly with time in the main smoke layer from values of 0.15-0.25 (August-September) to values of 0.05-0.10 (October-November) and < 0.05 (December-January). The decrease of the depolarization ratio is consistent with aging of the smoke particles, growing of a coating around the solid black carbon core (aggregates), and thus change of the shape towards a spherical form. We found ascending aerosol layer features over the most southern European stations, especially over the eastern Mediterranean at 32-35? N, that ascended from heights of about 18-19 to 22-23 km from the beginning of October to the beginning of December 2017 (about 2 km per month). We discuss several transport and lifting mechanisms that may have had an impact on the found aerosol layering structures. | URI: | https://hdl.handle.net/20.500.14279/18504 | ISSN: | 1680-7324 | DOI: | 10.5194/acp-19-15183-2019 | Rights: | © 2019 Author(s). | Type: | Article | Affiliation : | Leibniz Institute for Tropospheric Research Andøya Space Center Polish Academy of Sciences University of Warsaw Deutscher Wetterdienst Karlsruhe Institute of Technology Federal Office of Meteorology and Climatology MeteoSwiss University College Cork University of Hertfordshire Université de Lille Physics Instrumentation Center of General Physics Institute Institut Pierre Simon Laplace Laboratoire de Météorologie Physique (LaMP-CNRS) Universitat Politècnica de Catalunya Centro de Investigaciones Energéticas, Medioambientales y Tecnológicas (CIEMAT) Instituto Nacional de Técnica Aeroespacial University of Granada Universidade de Évora CNR - National Research Council of Italy Universitá degli Studi di Napoli Federico II Università del Salento National Institute of Research and Development for Optoelectronics Bulgarian Academy of Sciences National Observatory of Athens National Technical University Of Athens Cyprus University of Technology Israel Institute of Technology |
Publication Type: | Peer Reviewed |
Appears in Collections: | Publications under the auspices of the EXCELSIOR H2020 Teaming Project/ERATOSTHENES Centre of Excellence |
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