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  Aircraft-based observation of meteoric material in lower stratospheric aerosol particles between 15 and 68° N

Schneider, J., Weigel, R., Klimach, T., Dragoneas, A., Appel, O., Hünig, A., et al. (2021). Aircraft-based observation of meteoric material in lower stratospheric aerosol particles between 15 and 68° N. Atmospheric Chemistry and Physics, 21(2), 989-1013. doi:10.5194/acp-21-989-2021.

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 Creators:
Schneider, Johannes1, Author              
Weigel, Ralf2, Author              
Klimach, Thomas3, Author              
Dragoneas, Antonis1, Author              
Appel, Oliver4, Author              
Hünig, Andreas1, Author              
Molleker, Sergej1, Author              
Köllner, Franziska1, Author              
Clemen, Hans-Christian1, Author              
Eppers, Oliver1, Author              
Hoppe, Peter1, Author
Hoor, Peter2, Author
Mahnke, Christopher2, Author
Krämer, Martina2, Author
Rolf, Christian2, Author
Grooß, Jens-Uwe2, Author
Zahn, Andreas2, Author
Obersteiner, Florian2, Author
Ravegnani, Fabrizio2, Author
Ulanovsky, Alexey2, Author
Schlager, Hans2, AuthorScheibe, Monika2, AuthorDiskin, Glenn S.2, AuthorDiGangi, Joshua Paul2, AuthorNowak, John B.2, AuthorZöger, Martin2, AuthorBorrmann, Stephan1, Author               more..
Affiliations:
1Particle Chemistry, Max Planck Institute for Chemistry, Max Planck Society, ou_1826291              
2external, ou_persistent22              
3Multiphase Chemistry, Max Planck Institute for Chemistry, Max Planck Society, ou_1826291              
4Max Planck Institute for Chemistry, Max Planck Society, ou_1826284              

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 Abstract: We analyse aerosol particle composition measurements from five research missions between 2014 and 2018 to assess the meridional extent of particles containing meteoric material in the upper troposphere and lower stratosphere (UTLS). Measurements from the Jungfraujoch mountaintop site and a low-altitude aircraft mission show that meteoric material is also present within middle- and lower-tropospheric aerosol but within only a very small proportion of particles. For both the UTLS campaigns and the lower- and mid-troposphere observations, the measurements were conducted with single-particle laser ablation mass spectrometers with bipolar-ion detection, which enabled us to measure the chemical composition of particles in a diameter range of approximately 150 nm to 3 µm. The five UTLS aircraft missions cover a latitude range from 15 to 68∘ N, altitudes up to 21 km, and a potential temperature range from 280 to 480 K. In total, 338 363 single particles were analysed, of which 147 338 were measured in the stratosphere. Of these total particles, 50 688 were characterized by high abundances of magnesium and iron, together with sulfuric ions, the vast majority (48 610) in the stratosphere, and are interpreted as meteoric material immersed or dissolved within sulfuric acid. It must be noted that the relative abundance of such meteoric particles may be overestimated by about 10 % to 30 % due to the presence of pure sulfuric acid particles in the stratosphere which are not detected by the instruments used here. Below the tropopause, the observed fraction of the meteoric particle type decreased sharply with 0.2 %–1 % abundance at Jungfraujoch, and smaller abundances (0.025 %–0.05 %) were observed during the lower-altitude Canadian Arctic aircraft measurements. The size distribution of the meteoric sulfuric particles measured in the UTLS campaigns is consistent with earlier aircraft-based mass-spectrometric measurements, with only 5 %–10 % fractions in the smallest particles detected (200–300 nm diameter) but with substantial (> 40 %) abundance fractions for particles from 300–350 up to 900 nm in diameter, suggesting sedimentation is the primary loss mechanism. In the tropical lower stratosphere, only a small fraction (< 10 %) of the analysed particles contained meteoric material. In contrast, in the extratropics the observed fraction of meteoric particles reached 20 %–40 % directly above the tropopause. At potential temperature levels of more than 40 K above the thermal tropopause, particles containing meteoric material were observed in much higher relative abundances than near the tropopause, and, at these altitudes, they occurred at a similar abundance fraction across all latitudes and seasons measured. Above 440 K, the observed fraction of meteoric particles is above 60 % at latitudes between 20 and 42∘ N. Meteoric smoke particles are transported from the mesosphere into the stratosphere within the winter polar vortex and are subsequently distributed towards low latitudes by isentropic mixing, typically below a potential temperature of 440 K. By contrast, the findings from the UTLS measurements show that meteoric material is found in stratospheric aerosol particles at all latitudes and seasons, which suggests that either isentropic mixing is effective also above 440 K or that meteoric fragments may be the source of a substantial proportion of the observed meteoric material.

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Language(s): eng - English
 Dates: 2021-01-26
 Publication Status: Published online
 Pages: -
 Publishing info: -
 Table of Contents: -
 Rev. Type: -
 Identifiers: DOI: 10.5194/acp-21-989-2021
 Degree: -

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Title: Atmospheric Chemistry and Physics
  Abbreviation : ACP
Source Genre: Journal
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Publ. Info: Göttingen : Copernicus Publications
Pages: - Volume / Issue: 21 (2) Sequence Number: - Start / End Page: 989 - 1013 Identifier: ISSN: 1680-7316
CoNE: https://pure.mpg.de/cone/journals/resource/111030403014016