What caused a record high PM<sub>10</sub> episode in northern Europe in October 2020?
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Published:2022-03-22
Issue:6
Volume:22
Page:3789-3810
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ISSN:1680-7324
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Container-title:Atmospheric Chemistry and Physics
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language:en
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Short-container-title:Atmos. Chem. Phys.
Author:
Groot Zwaaftink Christine D.ORCID, Aas WencheORCID, Eckhardt SabineORCID, Evangeliou NikolaosORCID, Hamer Paul, Johnsrud Mona, Kylling ArveORCID, Platt Stephen M., Stebel KerstinORCID, Uggerud Hilde, Yttri Karl EspenORCID
Abstract
Abstract. In early October 2020, northern Europe experienced an episode with poor air
quality due to high concentrations of particulate matter (PM). At several
sites in Norway, recorded weekly values exceeded historical maximum
PM10 concentrations from the past 4 to 10 years. Daily mean PM10
values at Norwegian sites were up to 97 µg m−3 and had a
median value of 59 µg m−3. We analysed this severe pollution episode caused by long-range atmospheric transport based on surface and
remote sensing observations and transport model simulations to understand
its causes. Samples from three sites in mainland Norway and the Arctic
remote station Zeppelin (Svalbard) showed strong contributions from mineral
dust to PM10 (23 %–36 % as a minimum and 31 %–45 % as a maximum) and biomass burning (8 %–16 % to 19 %–21 %). Atmospheric transport simulations indicate that Central Asia was the main source region for mineral dust
observed in this episode. The biomass burning fraction can be attributed to
forest fires in Ukraine and southern Russia, but we cannot exclude other
sources contributing, like fires elsewhere, because the model underestimates observed concentrations. The combined use of remote sensing, surface
measurements, and transport modelling proved effective in describing the
episode and distinguishing its causes.
Publisher
Copernicus GmbH
Subject
Atmospheric Science
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