Non-linear response of PM<sub>2.5</sub> to changes in NO<sub><i>x</i></sub> and NH<sub>3</sub> emissions in the Po basin (Italy): consequences for air quality plans
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Published:2021-06-17
Issue:12
Volume:21
Page:9309-9327
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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:
Thunis Philippe, Clappier Alain, Beekmann Matthias, Putaud Jean Philippe, Cuvelier Cornelis, Madrazo Jessie, de Meij AlexanderORCID
Abstract
Abstract. Air pollution is one of the main causes of damages to
human health in Europe, with an estimate of about 380 000 premature deaths
per year in the EU28, as the result of exposure to fine particulate matter
(PM2.5) only. In this work, we focus on one specific region in Europe,
the Po basin, a region where chemical regimes are the most complex, showing
important non-linear processes, especially those related to interactions
between NOx and NH3. We analyse the sensitivity of PM2.5
concentration to NOx and NH3 emissions by means of a set of EMEP
model simulations performed with different levels of emission reductions,
from 25 % up to a total switch-off of those emissions. Both single and
combined precursor reduction scenarios are applied to determine the most
efficient emission reduction strategies and quantify the interactions
between NOx and NH3 emission reductions. The results confirmed the
peculiarity of secondary PM2.5 formation in the Po basin, characterised
by contrasting chemical regimes within distances of a few (hundred)
kilometres, as well as non-linear responses to emission reductions during
wintertime. One of the striking results is the slight increase in the
PM2.5 concentration levels when NOx emission reductions are
applied in NOx-rich areas, such as the surroundings of Bergamo. The
increased oxidative capacity of the atmosphere is the cause of the increase
in PM2.5 induced by a reduction in NOx emission. This process could
have contributed to the absence of a significant PM2.5 concentration
decrease during the COVID-19 lockdowns in many European cities. It is
important to account for this process when designing air quality plans,
since it could well lead to transitionary increases in PM2.5 at some
locations in winter as NOx emission reduction measures are gradually
implemented. While PM2.5 chemical regimes, determined by the relative
importance of the NOx vs. NH3 responses to emission reductions,
show large variations seasonally and spatially, they are not very sensitive
to moderate (up to 50 %–60 %) emission reductions. Beyond 25 % emission
reduction strength, responses of PM2.5 concentrations to NOx emission
reductions become non-linear in certain areas of the Po basin mainly during
wintertime.
Publisher
Copernicus GmbH
Subject
Atmospheric Science
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