Comprehensive analysis of particle growth rates from nucleation mode to cloud condensation nuclei in boreal forest

Paasonen, Pauli; Peltola, Maija; Kontkanen, Jenni; Junninen, Heikki; Kerminen, Veli-Matti; Kulmala, Markku

doi:https://doi.org/10.5194/acp-18-12085-2018

Articles | Volume 18, issue 16

https://doi.org/10.5194/acp-18-12085-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-18-12085-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 18, issue 16

Research article

|

22 Aug 2018

Research article |

| 22 Aug 2018

Comprehensive analysis of particle growth rates from nucleation mode to cloud condensation nuclei in boreal forest

Pauli Paasonen, Maija Peltola, Jenni Kontkanen, Heikki Junninen, Veli-Matti Kerminen, and Markku Kulmala

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Final revised paper (published on 22 Aug 2018)
Preprint (discussion started on 16 Mar 2018)

Interactive discussion

Status: closed

AC: Author comment | RC: Referee comment | SC: Short comment | EC: Editor comment

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RC1: 'Reviewer Comments', Anonymous Referee #2, 04 Apr 2018
- AC1: 'Response to comments by Ref. #2', Pauli Paasonen, 20 Jun 2018
RC2: 'Reviewer comments', Anonymous Referee #1, 05 Apr 2018
- AC2: 'Response to comments by Ref. #1', Pauli Paasonen, 20 Jun 2018

Peer-review completion

AR: Author's response | RR: Referee report | ED: Editor decision

AR by Anna Wenzel on behalf of the Authors (22 Jun 2018) Author's response

ED: Publish as is (25 Jun 2018) by Kari Lehtinen

Short summary

We determine aerosol growth rates in diameter ranges from below 10 to over 300 nm from long-term data with a novel automatic method. We show that aerosol growth rate in boreal forest increases with increasing particle diameter from 10 nm to cloud condensation nuclei (CCN) sizes and that the growth rate of sub-CCN particles is not suppressed by increasing condensation sink. Our findings suggest that aerosol growth to CCN sizes is a faster and less self-regulated process than previously estimated.