Terpene emissions from boreal wetlands can initiate stronger atmospheric new particle formation than boreal forests

Heikki Junninen; Lauri Ahonen; Federico Bianchi; Lauriane Quéléver; Simon Schallhart; Lubna Dada; Hanna Elina Manninen; Katri Leino; Janne Lampilahti; Stephany Buenrostro Mazon; Pekka Rantala; Mari Räty; Jenni Kontkanen; Sara Negri; Diego Aliaga; Olga Garmash; Pavel Alekseychik; Helina Lipp; Kalju Tamme; Janne Levula; Mikko Sipilä; Mikael Ehn; Douglas Worsnop; Sergej Zilitinkevich; Ivan Mammarella; Janne Rinne; Timo Vesala; Tuukka Petäjä; Veli Matti Kerminen; Markku Kulmala

doi:10.1038/s43247-022-00406-9

Terpene emissions from boreal wetlands can initiate stronger atmospheric new particle formation than boreal forests

Heikki Junninen^*, Lauri Ahonen, Federico Bianchi, Lauriane Quéléver, Simon Schallhart, Lubna Dada, Hanna Elina Manninen, Katri Leino, Janne Lampilahti, Stephany Buenrostro Mazon, Pekka Rantala, Mari Räty, Jenni Kontkanen, Sara Negri, Diego Aliaga, Olga Garmash, Pavel Alekseychik, Helina Lipp, Kalju Tamme, Janne LevulaMikko Sipilä, Mikael Ehn, Douglas Worsnop, Sergej Zilitinkevich, Ivan Mammarella, Janne Rinne, Timo Vesala, Tuukka Petäjä, Veli Matti Kerminen, Markku Kulmala

^*Corresponding author af dette arbejde

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

14 Citationer (Scopus)

Abstract

Aerosols and their interaction with clouds constitute the largest uncertainty in estimating the radiative forcing affecting the climate system. Secondary aerosol formation is responsible for a large fraction of the cloud condensation nuclei in the global atmosphere. Wetlands are important to the budgets of methane and carbon dioxide, but the potential role of wetlands in aerosol formation has not been investigated. Here we use direct atmospheric sampling at the Siikaneva wetland in Finland to investigate the emission of methane and volatile organic compounds, and subsequently formed atmospheric clusters and aerosols. We find that terpenes initiate stronger atmospheric new particle formation than is typically observed over boreal forests and that, in addition to large emissions of methane which cause a warming effect, wetlands also have a cooling effect through emissions of these terpenes. We suggest that new wetlands produced by melting permafrost need to be taken into consideration as sources of secondary aerosol particles when estimating the role of increasing wetland extent in future climate change.

Originalsprog	Engelsk
Artikelnummer	93
Tidsskrift	Communications Earth and Environment
Vol/bind	3
Udgave nummer	1
ISSN	2662-4435
DOI	https://doi.org/10.1038/s43247-022-00406-9
Status	Udgivet - dec. 2022
Udgivet eksternt	Ja

Bibliografisk note

Publisher Copyright:
© 2022, The Author(s).

Adgang til dokumentet

10.1038/s43247-022-00406-9

Citationsformater

Junninen, H., Ahonen, L., Bianchi, F., Quéléver, L., Schallhart, S., Dada, L., Manninen, H. E., Leino, K., Lampilahti, J., Buenrostro Mazon, S., Rantala, P., Räty, M., Kontkanen, J., Negri, S., Aliaga, D., Garmash, O., Alekseychik, P., Lipp, H., Tamme, K., ... Kulmala, M. (2022). Terpene emissions from boreal wetlands can initiate stronger atmospheric new particle formation than boreal forests. Communications Earth and Environment, 3(1), Artikel 93. https://doi.org/10.1038/s43247-022-00406-9

Junninen, H, Ahonen, L, Bianchi, F, Quéléver, L, Schallhart, S, Dada, L, Manninen, HE, Leino, K, Lampilahti, J, Buenrostro Mazon, S, Rantala, P, Räty, M, Kontkanen, J, Negri, S, Aliaga, D, Garmash, O, Alekseychik, P, Lipp, H, Tamme, K, Levula, J, Sipilä, M, Ehn, M, Worsnop, D, Zilitinkevich, S, Mammarella, I, Rinne, J, Vesala, T, Petäjä, T, Kerminen, VM & Kulmala, M 2022, 'Terpene emissions from boreal wetlands can initiate stronger atmospheric new particle formation than boreal forests', Communications Earth and Environment, bind 3, nr. 1, 93. https://doi.org/10.1038/s43247-022-00406-9

@article{3f64888e981b4fd2b4e5f39d6adea477,

title = "Terpene emissions from boreal wetlands can initiate stronger atmospheric new particle formation than boreal forests",

abstract = "Aerosols and their interaction with clouds constitute the largest uncertainty in estimating the radiative forcing affecting the climate system. Secondary aerosol formation is responsible for a large fraction of the cloud condensation nuclei in the global atmosphere. Wetlands are important to the budgets of methane and carbon dioxide, but the potential role of wetlands in aerosol formation has not been investigated. Here we use direct atmospheric sampling at the Siikaneva wetland in Finland to investigate the emission of methane and volatile organic compounds, and subsequently formed atmospheric clusters and aerosols. We find that terpenes initiate stronger atmospheric new particle formation than is typically observed over boreal forests and that, in addition to large emissions of methane which cause a warming effect, wetlands also have a cooling effect through emissions of these terpenes. We suggest that new wetlands produced by melting permafrost need to be taken into consideration as sources of secondary aerosol particles when estimating the role of increasing wetland extent in future climate change.",

author = "Heikki Junninen and Lauri Ahonen and Federico Bianchi and Lauriane Qu{\'e}l{\'e}ver and Simon Schallhart and Lubna Dada and Manninen, {Hanna Elina} and Katri Leino and Janne Lampilahti and {Buenrostro Mazon}, Stephany and Pekka Rantala and Mari R{\"a}ty and Jenni Kontkanen and Sara Negri and Diego Aliaga and Olga Garmash and Pavel Alekseychik and Helina Lipp and Kalju Tamme and Janne Levula and Mikko Sipil{\"a} and Mikael Ehn and Douglas Worsnop and Sergej Zilitinkevich and Ivan Mammarella and Janne Rinne and Timo Vesala and Tuukka Pet{\"a}j{\"a} and Kerminen, {Veli Matti} and Markku Kulmala",

note = "Funding Information: We thank European Research Council via ATM-GTP 266 (742206), and Academy of Finland Centre of Excellence in Atmospheric Sciences (grant number: 272041), Academy of Finland, project no: 1306853 and 1296628 ERC-StG, GASPARCON, project no: 714621. European Regional Development Fund project MOBTT42, Estonian Research Council (project PRG714). Students in University of Helsinki winter school “Atmospheric Processes and Feedbacks and Atmosphere-Biosphere Interactions” in Hyyti{\"a}l{\"a} 2017 and also the tofTools team for providing tools for mass spectrometry analysis. Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2022",

month = dec,

doi = "10.1038/s43247-022-00406-9",

language = "English",

volume = "3",

journal = "Communications Earth and Environment",

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TY - JOUR

T1 - Terpene emissions from boreal wetlands can initiate stronger atmospheric new particle formation than boreal forests

AU - Junninen, Heikki

AU - Ahonen, Lauri

AU - Bianchi, Federico

AU - Quéléver, Lauriane

AU - Schallhart, Simon

AU - Dada, Lubna

AU - Manninen, Hanna Elina

AU - Leino, Katri

AU - Lampilahti, Janne

AU - Buenrostro Mazon, Stephany

AU - Rantala, Pekka

AU - Räty, Mari

AU - Kontkanen, Jenni

AU - Negri, Sara

AU - Aliaga, Diego

AU - Garmash, Olga

AU - Alekseychik, Pavel

AU - Lipp, Helina

AU - Tamme, Kalju

AU - Levula, Janne

AU - Sipilä, Mikko

AU - Ehn, Mikael

AU - Worsnop, Douglas

AU - Zilitinkevich, Sergej

AU - Mammarella, Ivan

AU - Rinne, Janne

AU - Vesala, Timo

AU - Petäjä, Tuukka

AU - Kerminen, Veli Matti

AU - Kulmala, Markku

N1 - Funding Information: We thank European Research Council via ATM-GTP 266 (742206), and Academy of Finland Centre of Excellence in Atmospheric Sciences (grant number: 272041), Academy of Finland, project no: 1306853 and 1296628 ERC-StG, GASPARCON, project no: 714621. European Regional Development Fund project MOBTT42, Estonian Research Council (project PRG714). Students in University of Helsinki winter school “Atmospheric Processes and Feedbacks and Atmosphere-Biosphere Interactions” in Hyytiälä 2017 and also the tofTools team for providing tools for mass spectrometry analysis. Publisher Copyright: © 2022, The Author(s).

PY - 2022/12

Y1 - 2022/12

N2 - Aerosols and their interaction with clouds constitute the largest uncertainty in estimating the radiative forcing affecting the climate system. Secondary aerosol formation is responsible for a large fraction of the cloud condensation nuclei in the global atmosphere. Wetlands are important to the budgets of methane and carbon dioxide, but the potential role of wetlands in aerosol formation has not been investigated. Here we use direct atmospheric sampling at the Siikaneva wetland in Finland to investigate the emission of methane and volatile organic compounds, and subsequently formed atmospheric clusters and aerosols. We find that terpenes initiate stronger atmospheric new particle formation than is typically observed over boreal forests and that, in addition to large emissions of methane which cause a warming effect, wetlands also have a cooling effect through emissions of these terpenes. We suggest that new wetlands produced by melting permafrost need to be taken into consideration as sources of secondary aerosol particles when estimating the role of increasing wetland extent in future climate change.

AB - Aerosols and their interaction with clouds constitute the largest uncertainty in estimating the radiative forcing affecting the climate system. Secondary aerosol formation is responsible for a large fraction of the cloud condensation nuclei in the global atmosphere. Wetlands are important to the budgets of methane and carbon dioxide, but the potential role of wetlands in aerosol formation has not been investigated. Here we use direct atmospheric sampling at the Siikaneva wetland in Finland to investigate the emission of methane and volatile organic compounds, and subsequently formed atmospheric clusters and aerosols. We find that terpenes initiate stronger atmospheric new particle formation than is typically observed over boreal forests and that, in addition to large emissions of methane which cause a warming effect, wetlands also have a cooling effect through emissions of these terpenes. We suggest that new wetlands produced by melting permafrost need to be taken into consideration as sources of secondary aerosol particles when estimating the role of increasing wetland extent in future climate change.

U2 - 10.1038/s43247-022-00406-9

DO - 10.1038/s43247-022-00406-9

M3 - Journal article

AN - SCOPUS:85130469938

SN - 2662-4435

VL - 3

JO - Communications Earth and Environment

JF - Communications Earth and Environment

IS - 1

M1 - 93

ER -