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Modelling of atmospheric concentrations of fungal spores: a 2-year simulation over France using CHIMERE.

Authors :
Vida, Matthieu
Foret, Gilles
Siour, Guillaume
Couvidat, Florian
Favez, Olivier
Uzu, Gaelle
Cholakian, Arineh
Conil, Sébastien
Beekmann, Matthias
Jaffrezo, Jean-Luc
Source :
Atmospheric Chemistry & Physics; 2024, Vol. 24 Issue 18, p10601-10615, 15p
Publication Year :
2024

Abstract

Fungal spore organic aerosol emissions have been recognised as a significant source of particulate matter as PM10 ; however, they are not widely considered in current air quality models. In this work, we have implemented the parameterisation of fungal spore organic aerosol (OA) emissions introduced by Heald and Spracklen (2009) (H&S) and further modified by Hoose et al. (2010) in the CHIMERE regional chemistry-transport model. This simple parameterisation is based on two variables, leaf area index (LAI) and specific humidity. We have validated the geographical and temporal representativeness of this parameterisation on a large scale by using yearly polyol observations and primary biogenic organic aerosol factors from positive matrix factorisation (PMF) analysis at 11 French measurement sites. For a group of sites in northern and eastern France, the seasonal variation of fungal spore emissions, displaying large summer and small winter values, is correctly depicted. However, the H&S parameterisation fails to capture fungal spore concentrations for a smaller group of Mediterranean sites with less data availability in terms of both absolute values and seasonal variability, leading to strong negative biases, especially during the autumn and winter seasons. Two years of CHIMERE simulations with the H&S parameterisation have shown a significant contribution of fungal spore OA to PM10 mass, which is lower than 10 % during winter and reaches up to 20 % during summer in high-emission zones, especially over large forested areas. In terms of contributions to organic matter (OM) concentrations, the simulated fungal spore contribution in autumn is as high as 40 % and reaches at most 30 % of the OM for the other seasons. As a conclusion, the fungal spore OA contribution to the total OM concentrations is shown to be substantial enough to be considered a major PM10 fraction and should then be included in state-of-the-art chemistry-transport models. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
16807316
Volume :
24
Issue :
18
Database :
Complementary Index
Journal :
Atmospheric Chemistry & Physics
Publication Type :
Academic Journal
Accession number :
180095252
Full Text :
https://doi.org/10.5194/acp-24-10601-2024