Higher airborne pollen concentrations correlated with increased SARS-CoV-2 infection rates, as evidenced from 31 countries across the globe

Higher airborne pollen concentrations correlated with increased SARS-CoV-2 infection rates, as evidenced from 31 countries across the globe

Pollen exposure weakens the immunity against certain seasonal respiratory viruses by diminishing the antiviral interferon response. Here we investigate whether the same applies to the pandemic severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), which is sensitive to antiviral interferons,...

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Published in:Proceedings of the National Academy of Sciences - PNAS Vol. 118; no. 12; pp. 1 - 10
Main Authors: Damialis, Athanasios, Gilles, Stefanie, Sofiev, Mikhail, Sofieva, Viktoria, Kolek, Franziska, Bayr, Daniela, Plaza, Maria P., Leier-Wirtz, Vivien, Kaschuba, Sigrid, Ziska, Lewis H., Bielory, Leonard, Makra, László, del Mar Trigo, Maria, Traidl-Hoffmann, Claudia
Format: Journal Article
Language:English
Published: United States National Academy of Sciences 23-03-2021
Subjects:
Biological Sciences
COVID-19 - epidemiology
COVID-19 - virology
Geography
Humans
Internationality
Longitudinal Studies
Pollen - adverse effects
SARS-CoV-2 - physiology
COVID-19
viral infection
pollen
aerobiology
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Summary:Pollen exposure weakens the immunity against certain seasonal respiratory viruses by diminishing the antiviral interferon response. Here we investigate whether the same applies to the pandemic severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), which is sensitive to antiviral interferons, if infection waves coincide with high airborne pollen concentrations. Our original hypothesis was that more airborne pollen would lead to increases in infection rates. To examine this, we performed a cross-sectional and longitudinal data analysis on SARS-CoV-2 infection, airborne pollen, and meteorological factors. Our dataset is the most comprehensive, largest possible worldwide from 130 stations, across 31 countries and five continents. To explicitly investigate the effects of social contact, we additionally considered population density of each study area, as well as lockdown effects, in all possible combinations: without any lockdown, with mixed lockdown−no lockdown regime, and under complete lockdown. We found that airborne pollen, sometimes in synergy with humidity and temperature, explained, on average, 44% of the infection rate variability. Infection rates increased after higher pollen concentrations most frequently during the four previous days. Without lockdown, an increase of pollen abundance by 100 pollen/m³ resulted in a 4% average increase of infection rates. Lockdown halved infection rates under similar pollen concentrations. As there can be no preventive measures against airborne pollen exposure, we suggest wide dissemination of pollen−virus coexposure dire effect information to encourage high-risk individuals to wear particle filter masks during high springtime pollen concentrations.
Bibliography:Edited by Nils Chr. Stenseth, University of Oslo, Oslo, Norway, and approved January 20, 2021 (received for review October 13, 2020)
Author contributions: A.D. and S.G. designed research; A.D., S.G., M.S., V.S., F.K., D.B., M.P.P., V.L.-W., S.K., L.H.Z., L.B., L.M., M.d.M.T., C.-1.s.g., and C.T.-H. performed research; A.D., S.G., M.S., and V.S. contributed analytic tools; A.D., S.G., M.S., V.S., F.K., D.B., and M.P.P. analyzed data; A.D., S.G., and M.S. wrote the paper; A.D. coordinated the study; A.D., S.G., F.K., D.B., M.P.P., and S.K. curated data; V.L.-W., L.H.Z., L.B., L.M., M.d.M.T., C.-1.s.g., and C.T.-H. provided airborne pollen data; and V.L.-W., L.H.Z., L.B., L.M., M.d.M.T., and C.-1.s.g. curated airborne pollen data.
3A complete list of the COVID-19/POLLEN study group can be found in SI Appendix.
2A.D. and S.G. contributed equally to this work.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.2019034118