TY - JOUR
T1 - Atmospheric biodetection part i
T2 - Study of airborne bacterial concentrations from january 2018 to may 2020 at saclay, france
AU - Sarda-Estève, Roland
AU - Baisnée, Dominique
AU - Guinot, Benjamin
AU - Mainelis, Gediminas
AU - Sodeau, John
AU - O’connor, David
AU - Besancenot, Jean Pierre
AU - Thibaudon, Michel
AU - Monteiro, Sara
AU - Petit, Jean Eudes
AU - Gros, Valérie
N1 - Publisher Copyright:
© 2020, MDPI AG. All rights reserved.
PY - 2020/9/1
Y1 - 2020/9/1
N2 - Background: The monitoring of bioaerosol concentrations in the air is a relevant endeavor due to potential health risks associated with exposure to such particles and in the understanding of their role in climate. In this context, the atmospheric concentrations of bacteria were measured from January 2018 to May 2020 at Saclay, France. The aim of the study was to understand the seasonality, the daily variability, and to identify the geographical origin of airborne bacteria. Methods: 880 samples were collected daily on polycarbonate filters, extracted with purified water, and analyzed using the cultivable method and flow cytometry. A source receptor model was used to identify the origin of bacteria. Results: A tri-modal seasonality was identified with the highest concentrations early in spring and over the summer season with the lowest during the winter season. Extreme changes occurred daily due to rapid changes in meteorological conditions and shifts from clean air masses to polluted ones. Conclusion: Our work points toward bacterial concentrations originating from specific seasonal-geographical ecosystems. During pollution events, bacteria appear to rise from dense urban areas or are transported long distances from their sources. This key finding should drive future actions to better control the dispersion of potential pathogens in the air, like persistent microorganisms originating from contaminated areas.
AB - Background: The monitoring of bioaerosol concentrations in the air is a relevant endeavor due to potential health risks associated with exposure to such particles and in the understanding of their role in climate. In this context, the atmospheric concentrations of bacteria were measured from January 2018 to May 2020 at Saclay, France. The aim of the study was to understand the seasonality, the daily variability, and to identify the geographical origin of airborne bacteria. Methods: 880 samples were collected daily on polycarbonate filters, extracted with purified water, and analyzed using the cultivable method and flow cytometry. A source receptor model was used to identify the origin of bacteria. Results: A tri-modal seasonality was identified with the highest concentrations early in spring and over the summer season with the lowest during the winter season. Extreme changes occurred daily due to rapid changes in meteorological conditions and shifts from clean air masses to polluted ones. Conclusion: Our work points toward bacterial concentrations originating from specific seasonal-geographical ecosystems. During pollution events, bacteria appear to rise from dense urban areas or are transported long distances from their sources. This key finding should drive future actions to better control the dispersion of potential pathogens in the air, like persistent microorganisms originating from contaminated areas.
KW - Bacteria
KW - Cultivable method
KW - Flow cytometry
KW - Geographical origin
KW - Source-receptor model
UR - http://www.scopus.com/inward/record.url?scp=85090042062&partnerID=8YFLogxK
U2 - 10.3390/ijerph17176292
DO - 10.3390/ijerph17176292
M3 - Article
C2 - 32872373
AN - SCOPUS:85090042062
SN - 1661-7827
VL - 17
SP - 1
EP - 25
JO - International Journal of Environmental Research and Public Health
JF - International Journal of Environmental Research and Public Health
IS - 17
M1 - 6292
ER -