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NO at low concentration can enhance the formation of highly oxygenated biogenic molecules in the atmosphere

The interaction between nitrogen monoxide (NO) and organic peroxy radicals (RO(2)) greatly impacts the formation of highly oxygenated organic molecules (HOM), the key precursors of secondary organic aerosols. It has been thought that HOM production can be significantly suppressed by NO even at low c...

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Autores principales: Nie, Wei, Yan, Chao, Yang, Liwen, Roldin, Pontus, Liu, Yuliang, Vogel, Alexander L., Molteni, Ugo, Stolzenburg, Dominik, Finkenzeller, Henning, Amorim, Antonio, Bianchi, Federico, Curtius, Joachim, Dada, Lubna, Draper, Danielle C., Duplissy, Jonathan, Hansel, Armin, He, Xu-Cheng, Hofbauer, Victoria, Jokinen, Tuija, Kim, Changhyuk, Lehtipalo, Katrianne, Nichman, Leonid, Mauldin, Roy L., Makhmutov, Vladimir, Mentler, Bernhard, Mizelli-Ojdanic, Andrea, Petäjä, Tuukka, Quéléver, Lauriane L. J., Schallhart, Simon, Simon, Mario, Tauber, Christian, Tomé, António, Volkamer, Rainer, Wagner, Andrea C., Wagner, Robert, Wang, Mingyi, Ye, Penglin, Li, Haiyan, Huang, Wei, Qi, Ximeng, Lou, Sijia, Liu, Tengyu, Chi, Xuguang, Dommen, Josef, Baltensperger, Urs, El Haddad, Imad, Kirkby, Jasper, Worsnop, Douglas, Kulmala, Markku, Donahue, Neil M., Ehn, Mikael, Ding, Aijun
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10250349/
https://www.ncbi.nlm.nih.gov/pubmed/37291087
http://dx.doi.org/10.1038/s41467-023-39066-4
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author Nie, Wei
Yan, Chao
Yang, Liwen
Roldin, Pontus
Liu, Yuliang
Vogel, Alexander L.
Molteni, Ugo
Stolzenburg, Dominik
Finkenzeller, Henning
Amorim, Antonio
Bianchi, Federico
Curtius, Joachim
Dada, Lubna
Draper, Danielle C.
Duplissy, Jonathan
Hansel, Armin
He, Xu-Cheng
Hofbauer, Victoria
Jokinen, Tuija
Kim, Changhyuk
Lehtipalo, Katrianne
Nichman, Leonid
Mauldin, Roy L.
Makhmutov, Vladimir
Mentler, Bernhard
Mizelli-Ojdanic, Andrea
Petäjä, Tuukka
Quéléver, Lauriane L. J.
Schallhart, Simon
Simon, Mario
Tauber, Christian
Tomé, António
Volkamer, Rainer
Wagner, Andrea C.
Wagner, Robert
Wang, Mingyi
Ye, Penglin
Li, Haiyan
Huang, Wei
Qi, Ximeng
Lou, Sijia
Liu, Tengyu
Chi, Xuguang
Dommen, Josef
Baltensperger, Urs
El Haddad, Imad
Kirkby, Jasper
Worsnop, Douglas
Kulmala, Markku
Donahue, Neil M.
Ehn, Mikael
Ding, Aijun
author_facet Nie, Wei
Yan, Chao
Yang, Liwen
Roldin, Pontus
Liu, Yuliang
Vogel, Alexander L.
Molteni, Ugo
Stolzenburg, Dominik
Finkenzeller, Henning
Amorim, Antonio
Bianchi, Federico
Curtius, Joachim
Dada, Lubna
Draper, Danielle C.
Duplissy, Jonathan
Hansel, Armin
He, Xu-Cheng
Hofbauer, Victoria
Jokinen, Tuija
Kim, Changhyuk
Lehtipalo, Katrianne
Nichman, Leonid
Mauldin, Roy L.
Makhmutov, Vladimir
Mentler, Bernhard
Mizelli-Ojdanic, Andrea
Petäjä, Tuukka
Quéléver, Lauriane L. J.
Schallhart, Simon
Simon, Mario
Tauber, Christian
Tomé, António
Volkamer, Rainer
Wagner, Andrea C.
Wagner, Robert
Wang, Mingyi
Ye, Penglin
Li, Haiyan
Huang, Wei
Qi, Ximeng
Lou, Sijia
Liu, Tengyu
Chi, Xuguang
Dommen, Josef
Baltensperger, Urs
El Haddad, Imad
Kirkby, Jasper
Worsnop, Douglas
Kulmala, Markku
Donahue, Neil M.
Ehn, Mikael
Ding, Aijun
author_sort Nie, Wei
collection PubMed
description The interaction between nitrogen monoxide (NO) and organic peroxy radicals (RO(2)) greatly impacts the formation of highly oxygenated organic molecules (HOM), the key precursors of secondary organic aerosols. It has been thought that HOM production can be significantly suppressed by NO even at low concentrations. Here, we perform dedicated experiments focusing on HOM formation from monoterpenes at low NO concentrations (0 – 82 pptv). We demonstrate that such low NO can enhance HOM production by modulating the RO(2) loss and favoring the formation of alkoxy radicals that can continue to autoxidize through isomerization. These insights suggest that HOM yields from typical boreal forest emissions can vary between 2.5%-6.5%, and HOM formation will not be completely inhibited even at high NO concentrations. Our findings challenge the notion that NO monotonically reduces HOM yields by extending the knowledge of RO(2)-NO interactions to the low-NO regime. This represents a major advance towards an accurate assessment of HOM budgets, especially in low-NO environments, which prevails in the pre-industrial atmosphere, pristine areas, and the upper boundary layer.
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spelling pubmed-102503492023-06-10 NO at low concentration can enhance the formation of highly oxygenated biogenic molecules in the atmosphere Nie, Wei Yan, Chao Yang, Liwen Roldin, Pontus Liu, Yuliang Vogel, Alexander L. Molteni, Ugo Stolzenburg, Dominik Finkenzeller, Henning Amorim, Antonio Bianchi, Federico Curtius, Joachim Dada, Lubna Draper, Danielle C. Duplissy, Jonathan Hansel, Armin He, Xu-Cheng Hofbauer, Victoria Jokinen, Tuija Kim, Changhyuk Lehtipalo, Katrianne Nichman, Leonid Mauldin, Roy L. Makhmutov, Vladimir Mentler, Bernhard Mizelli-Ojdanic, Andrea Petäjä, Tuukka Quéléver, Lauriane L. J. Schallhart, Simon Simon, Mario Tauber, Christian Tomé, António Volkamer, Rainer Wagner, Andrea C. Wagner, Robert Wang, Mingyi Ye, Penglin Li, Haiyan Huang, Wei Qi, Ximeng Lou, Sijia Liu, Tengyu Chi, Xuguang Dommen, Josef Baltensperger, Urs El Haddad, Imad Kirkby, Jasper Worsnop, Douglas Kulmala, Markku Donahue, Neil M. Ehn, Mikael Ding, Aijun Nat Commun Article The interaction between nitrogen monoxide (NO) and organic peroxy radicals (RO(2)) greatly impacts the formation of highly oxygenated organic molecules (HOM), the key precursors of secondary organic aerosols. It has been thought that HOM production can be significantly suppressed by NO even at low concentrations. Here, we perform dedicated experiments focusing on HOM formation from monoterpenes at low NO concentrations (0 – 82 pptv). We demonstrate that such low NO can enhance HOM production by modulating the RO(2) loss and favoring the formation of alkoxy radicals that can continue to autoxidize through isomerization. These insights suggest that HOM yields from typical boreal forest emissions can vary between 2.5%-6.5%, and HOM formation will not be completely inhibited even at high NO concentrations. Our findings challenge the notion that NO monotonically reduces HOM yields by extending the knowledge of RO(2)-NO interactions to the low-NO regime. This represents a major advance towards an accurate assessment of HOM budgets, especially in low-NO environments, which prevails in the pre-industrial atmosphere, pristine areas, and the upper boundary layer. Nature Publishing Group UK 2023-06-08 /pmc/articles/PMC10250349/ /pubmed/37291087 http://dx.doi.org/10.1038/s41467-023-39066-4 Text en © The Author(s) 2023 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Nie, Wei
Yan, Chao
Yang, Liwen
Roldin, Pontus
Liu, Yuliang
Vogel, Alexander L.
Molteni, Ugo
Stolzenburg, Dominik
Finkenzeller, Henning
Amorim, Antonio
Bianchi, Federico
Curtius, Joachim
Dada, Lubna
Draper, Danielle C.
Duplissy, Jonathan
Hansel, Armin
He, Xu-Cheng
Hofbauer, Victoria
Jokinen, Tuija
Kim, Changhyuk
Lehtipalo, Katrianne
Nichman, Leonid
Mauldin, Roy L.
Makhmutov, Vladimir
Mentler, Bernhard
Mizelli-Ojdanic, Andrea
Petäjä, Tuukka
Quéléver, Lauriane L. J.
Schallhart, Simon
Simon, Mario
Tauber, Christian
Tomé, António
Volkamer, Rainer
Wagner, Andrea C.
Wagner, Robert
Wang, Mingyi
Ye, Penglin
Li, Haiyan
Huang, Wei
Qi, Ximeng
Lou, Sijia
Liu, Tengyu
Chi, Xuguang
Dommen, Josef
Baltensperger, Urs
El Haddad, Imad
Kirkby, Jasper
Worsnop, Douglas
Kulmala, Markku
Donahue, Neil M.
Ehn, Mikael
Ding, Aijun
NO at low concentration can enhance the formation of highly oxygenated biogenic molecules in the atmosphere
title NO at low concentration can enhance the formation of highly oxygenated biogenic molecules in the atmosphere
title_full NO at low concentration can enhance the formation of highly oxygenated biogenic molecules in the atmosphere
title_fullStr NO at low concentration can enhance the formation of highly oxygenated biogenic molecules in the atmosphere
title_full_unstemmed NO at low concentration can enhance the formation of highly oxygenated biogenic molecules in the atmosphere
title_short NO at low concentration can enhance the formation of highly oxygenated biogenic molecules in the atmosphere
title_sort no at low concentration can enhance the formation of highly oxygenated biogenic molecules in the atmosphere
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10250349/
https://www.ncbi.nlm.nih.gov/pubmed/37291087
http://dx.doi.org/10.1038/s41467-023-39066-4
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