Vertical stratification of the air microbiome in the lower troposphere

Daniela I. Drautz-Moses; Irvan Luhung; Elena S. Gusareva; Carmon Kee; Nicolas E. Gaultier; Balakrishnan N.V. Premkrishnan; Choou Fook Lee; See Ting Leong; Changsook Park; Zhei Hwee Yap; Cassie E. Heinle; Kenny J.X. Lau; Rikky W. Purbojati; Serene B.Y. Lim; Yee Hui Lim; Shruti Ketan Kutmutia; Ngu War Aung; Elaine L. Oliveira; Soo Guek Ng; Justine Dacanay; Poh Nee Ang; Samuel D. Spence; Wen Jia Phung; Anthony Wong; Ryan J. Kennedy; Namrata Kalsi; Santhi Puramadathil Sasi; Lakshmi Chandrasekaran; Akira Uchida; Ana Carolina M. Junqueira; Hie Lim Kim; Rudolf Hankers; Thomas Feuerle; Ulrich Corsmeier; Stephan C. Schuster

doi:10.1073/pnas.2117293119

Vertical stratification of the air microbiome in the lower troposphere

Daniela I. Drautz-Moses, Irvan Luhung, Elena S. Gusareva, Carmon Kee, Nicolas E. Gaultier, Balakrishnan N.V. Premkrishnan, Choou Fook Lee, See Ting Leong, Changsook Park, Zhei Hwee Yap, Cassie E. Heinle, Kenny J.X. Lau, Rikky W. Purbojati, Serene B.Y. Lim, Yee Hui Lim, Shruti Ketan Kutmutia, Ngu War Aung, Elaine L. Oliveira, Soo Guek Ng, Justine DacanayPoh Nee Ang, Samuel D. Spence, Wen Jia Phung, Anthony Wong, Ryan J. Kennedy, Namrata Kalsi, Santhi Puramadathil Sasi, Lakshmi Chandrasekaran, Akira Uchida, Ana Carolina M. Junqueira, Hie Lim Kim, Rudolf Hankers, Thomas Feuerle, Ulrich Corsmeier, Stephan C. Schuster^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

22 Citations (Scopus)

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.

Original language	English
Article number	e2117293119
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	119
Issue number	7
DOIs	https://doi.org/10.1073/pnas.2117293119
Publication status	Published - Feb 15 2022
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2022 National Academy of Sciences. All rights reserved.

ASJC Scopus Subject Areas

General

Keywords

Air microbiome
Atmospheric turbulence
Bioaerosols
Microbial dispersal
Microbial ecology

Access to Document

10.1073/pnas.2117293119

Cite this

Drautz-Moses, D. I., Luhung, I., Gusareva, E. S., Kee, C., Gaultier, N. E., Premkrishnan, B. N. V., Lee, C. F., Leong, S. T., Park, C., Yap, Z. H., Heinle, C. E., Lau, K. J. X., Purbojati, R. W., Lim, S. B. Y., Lim, Y. H., Kutmutia, S. K., Aung, N. W., Oliveira, E. L., Ng, S. G., ... Schuster, S. C. (2022). Vertical stratification of the air microbiome in the lower troposphere. Proceedings of the National Academy of Sciences of the United States of America, 119(7), Article e2117293119. https://doi.org/10.1073/pnas.2117293119

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title = "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.",

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author = "Drautz-Moses, {Daniela I.} and Irvan Luhung and Gusareva, {Elena S.} and Carmon Kee and Gaultier, {Nicolas E.} and Premkrishnan, {Balakrishnan N.V.} and Lee, {Choou Fook} and Leong, {See Ting} and Changsook Park and Yap, {Zhei Hwee} and Heinle, {Cassie E.} and Lau, {Kenny J.X.} and Purbojati, {Rikky W.} and Lim, {Serene B.Y.} and Lim, {Yee Hui} and Kutmutia, {Shruti Ketan} and Aung, {Ngu War} and Oliveira, {Elaine L.} and Ng, {Soo Guek} and Justine Dacanay and Ang, {Poh Nee} and Spence, {Samuel D.} and Phung, {Wen Jia} and Anthony Wong and Kennedy, {Ryan J.} and Namrata Kalsi and Sasi, {Santhi Puramadathil} and Lakshmi Chandrasekaran and Akira Uchida and Junqueira, {Ana Carolina M.} and Kim, {Hie Lim} and Rudolf Hankers and Thomas Feuerle and Ulrich Corsmeier and Schuster, {Stephan C.}",

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doi = "10.1073/pnas.2117293119",

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Drautz-Moses, DI, Luhung, I, Gusareva, ES, Kee, C, Gaultier, NE, Premkrishnan, BNV, Lee, CF, Leong, ST, Park, C, Yap, ZH, Heinle, CE, Lau, KJX, Purbojati, RW, Lim, SBY, Lim, YH, Kutmutia, SK, Aung, NW, Oliveira, EL, Ng, SG, Dacanay, J, Ang, PN, Spence, SD, Phung, WJ, Wong, A, Kennedy, RJ, Kalsi, N, Sasi, SP, Chandrasekaran, L, Uchida, A, Junqueira, ACM, Kim, HL, Hankers, R, Feuerle, T, Corsmeier, U & Schuster, SC 2022, 'Vertical stratification of the air microbiome in the lower troposphere', Proceedings of the National Academy of Sciences of the United States of America, vol. 119, no. 7, e2117293119. https://doi.org/10.1073/pnas.2117293119

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AU - Drautz-Moses, Daniela I.

AU - Luhung, Irvan

AU - Gusareva, Elena S.

AU - Kee, Carmon

AU - Gaultier, Nicolas E.

AU - Premkrishnan, Balakrishnan N.V.

AU - Lee, Choou Fook

AU - Leong, See Ting

AU - Park, Changsook

AU - Yap, Zhei Hwee

AU - Heinle, Cassie E.

AU - Lau, Kenny J.X.

AU - Purbojati, Rikky W.

AU - Lim, Serene B.Y.

AU - Lim, Yee Hui

AU - Kutmutia, Shruti Ketan

AU - Aung, Ngu War

AU - Oliveira, Elaine L.

AU - Ng, Soo Guek

AU - Dacanay, Justine

AU - Ang, Poh Nee

AU - Spence, Samuel D.

AU - Phung, Wen Jia

AU - Wong, Anthony

AU - Kennedy, Ryan J.

AU - Kalsi, Namrata

AU - Sasi, Santhi Puramadathil

AU - Chandrasekaran, Lakshmi

AU - Uchida, Akira

AU - Junqueira, Ana Carolina M.

AU - Kim, Hie Lim

AU - Hankers, Rudolf

AU - Feuerle, Thomas

AU - Corsmeier, Ulrich

AU - Schuster, Stephan C.

PY - 2022/2/15

Y1 - 2022/2/15

N2 - 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.

AB - 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.

KW - Air microbiome

KW - Atmospheric turbulence

KW - Bioaerosols

KW - Microbial dispersal

KW - Microbial ecology

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JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

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Vertical stratification of the air microbiome in the lower troposphere

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

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New 'vertical map' of airborne microorganisms indicates how global warming will impact global ecosystems

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Vertical stratification of the air microbiome in the lower troposphere

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

Access to Document

Other files and links

Fingerprint

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New 'vertical map' of airborne microorganisms indicates how global warming will impact global ecosystems

Cite this