Unknown

Dataset Information

0

Vertical stratification of the air microbiome in the lower troposphere.


ABSTRACT: The troposphere constitutes the final frontier of global ecosystem research due to technical challenges arising from its size, low biomass, and gaseous state. Using a vertical testing array comprising a meteorological tower and a research aircraft, we conducted synchronized measurements of meteorological parameters and airborne biomass (n = 480) in the vertical air column up to 3,500 m. The taxonomic analysis of metagenomic data revealed differing patterns of airborne microbial community composition with respect to time of day and height above ground. The temporal and spatial resolution of our study demonstrated that the diel cycle of airborne microorganisms is a ground-based phenomenon that is entirely absent at heights >1,000 m. In an integrated analysis combining meteorological and biological data, we demonstrate that atmospheric turbulence, identified by potential temperature and high-frequency three-component wind measurements, is the key driver of bioaerosol dynamics in the lower troposphere. Multivariate regression analysis shows that at least 50% of identified airborne microbial taxa (n = ∼10,000) are associated with either ground or height, allowing for an understanding of dispersal patterns of microbial taxa in the vertical air column. Due to the interconnectedness of atmospheric turbulence and temperature, the dynamics of microbial dispersal are likely to be impacted by rising global temperatures, thereby also affecting ecosystems on the planetary surface.

SUBMITTER: Drautz-Moses DI 

PROVIDER: S-EPMC8851546 | biostudies-literature | 2022 Feb

REPOSITORIES: biostudies-literature

altmetric image

Publications

Vertical stratification of the air microbiome in the lower troposphere.

Drautz-Moses Daniela I DI   Luhung Irvan I   Gusareva Elena S ES   Kee Carmon C   Gaultier Nicolas E NE   Premkrishnan Balakrishnan N V BNV   Lee Choou Fook CF   Leong See Ting ST   Park Changsook C   Yap Zhei Hwee ZH   Heinle Cassie E CE   Lau Kenny J X KJX   Purbojati Rikky W RW   Lim Serene B Y SBY   Lim Yee Hui YH   Kutmutia Shruti Ketan SK   Aung Ngu War NW   Oliveira Elaine L EL   Ng Soo Guek SG   Dacanay Justine J   Ang Poh Nee PN   Spence Sam S   Phung Wen Jia WJ   Wong Anthony A   Kennedy Ryan J RJ   Kalsi Namrata N   Sasi Santhi Puramadathil SP   Chandrasekaran Lakshmi L   Uchida Akira A   Junqueira Ana Carolina M ACM   Kim Hie Lim HL   Hankers Rudolf R   Feuerle Thomas T   Corsmeier Ulrich U   Schuster Stephan C SC  

Proceedings of the National Academy of Sciences of the United States of America 20220201 7


The troposphere constitutes the final frontier of global ecosystem research due to technical challenges arising from its size, low biomass, and gaseous state. Using a vertical testing array comprising a meteorological tower and a research aircraft, we conducted synchronized measurements of meteorological parameters and airborne biomass (<i>n</i> = 480) in the vertical air column up to 3,500 m. The taxonomic analysis of metagenomic data revealed differing patterns of airborne microbial community  ...[more]

Similar Datasets

| S-EPMC10945748 | biostudies-literature
| S-EPMC7687659 | biostudies-literature
| PRJNA1298337 | ENA
| PRJEB76800 | ENA
| S-EPMC7325730 | biostudies-literature
| PRJNA981296 | ENA
| PRJNA632552 | ENA
| S-EPMC6016531 | biostudies-literature