Low ozone dry deposition rates to sea ice during the MOSAiC field campaign: Implications for the Arctic boundary layer ozone budget

Johannes G.M. Barten*, Laurens N. Ganzeveld, Gert-Jan Steeneveld, Byron W. Blomquist, Hélène Angot, Stephen D. Archer, Ludovic Bariteau, Ivo Beck, Matthew Boyer, Peter Von der Gathen, Detlev Helmig, Dean Howard, Jacques Hueber, Hans-Werner Jacobi, Tuija Jokinen, Tiia Laurila, Kevin M. Posman, Lauriane Quéléver, Julia Schmale, Matthew D. ShupeMaarten C. Krol

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

2 Citations (Scopus)

Abstract

Dry deposition to the surface is one of the main removal pathways of tropospheric ozone (O3). We quantified for the first time the impact of O3 deposition to the Arctic sea ice on the planetary boundary layer (PBL) O3 concentration and budget using year-round flux and concentration observations from the Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC) campaign and simulations with a single-column atmospheric chemistry and meteorological model (SCM). Based on eddy-covariance O3 surface flux observations, we find a median surface resistance on the order of 20,000 s m−1, resulting in a dry deposition velocity of approximately 0.005 cm s−1. This surface resistance is up to an order of magnitude larger than traditionally used values in many atmospheric chemistry and transport models. The SCM is able to accurately represent the yearly cycle, with maxima above 40 ppb in the winter and minima around 15 ppb at the end of summer. However, the observed springtime ozone depletion events are not captured by the SCM. In winter, the modelled PBL O3 budget is governed by dry deposition at the surface mostly compensated by downward turbulent transport of O3 towards the surface. Advection, which is accounted for implicitly by nudging to reanalysis data, poses a substantial, mostly negative, contribution to the simulated PBL O3 budget in summer. During episodes with low wind speed (
Original languageEnglish
Article number00086
JournalElementa: Science of Anthropocene
Volume11
Issue number1
DOIs
Publication statusPublished - 15 Feb 2023

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