Contribution of soil bacteria to the atmosphere across biomes

Stephen D.J. Archer; Kevin C. Lee; Tancredi Caruso; Antonio Alcami; Jonathan G. Araya; S. Craig Cary; Don A. Cowan; Claudia Etchebehere; Batdelger Gantsetseg; Benito Gomez-Silva; Sean Hartery; Ian D. Hogg; Mayada K. Kansour; Timothy Lawrence; Charles K. Lee; Patrick K.H. Lee; Matthias Leopold; Marcus H.Y. Leung; Teruya Maki; Christopher P. McKay; Dina M. Al Mailem; Jean Baptiste Ramond; Alberto Rastrojo; Tina Šantl-Temkiv; Henry J. Sun; Xinzhao Tong; Bryan Vandenbrink; Kimberley A. Warren-Rhodes; Stephen B. Pointing

doi:10.1016/j.scitotenv.2023.162137

Contribution of soil bacteria to the atmosphere across biomes

Stephen D.J. Archer, Kevin C. Lee, Tancredi Caruso, Antonio Alcami, Jonathan G. Araya, S. Craig Cary, Don A. Cowan, Claudia Etchebehere, Batdelger Gantsetseg, Benito Gomez-Silva, Sean Hartery, Ian D. Hogg, Mayada K. Kansour, Timothy Lawrence, Charles K. Lee, Patrick K.H. Lee, Matthias Leopold, Marcus H.Y. Leung, Teruya Maki, Christopher P. McKayDina M. Al Mailem, Jean Baptiste Ramond, Alberto Rastrojo, Tina Šantl-Temkiv, Henry J. Sun, Xinzhao Tong, Bryan Vandenbrink, Kimberley A. Warren-Rhodes, Stephen B. Pointing

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

4 Scopus citations

Abstract

The dispersion of microorganisms through the atmosphere is a continual and essential process that underpins biogeography and ecosystem development and function. Despite the ubiquity of atmospheric microorganisms globally, specific knowledge of the determinants of atmospheric microbial diversity at any given location remains unresolved. Here we describe bacterial diversity in the atmospheric boundary layer and underlying soil at twelve globally distributed locations encompassing all major biomes, and characterise the contribution of local and distant soils to the observed atmospheric community. Across biomes the diversity of bacteria in the atmosphere was negatively correlated with mean annual precipitation but positively correlated to mean annual temperature. We identified distinct non-randomly assembled atmosphere and soil communities from each location, and some broad trends persisted across biomes including the enrichment of desiccation and UV tolerant taxa in the atmospheric community. Source tracking revealed that local soils were more influential than distant soil sources in determining observed diversity in the atmosphere, with more emissive semi-arid and arid biomes contributing most to signatures from distant soil. Our findings highlight complexities in the atmospheric microbiota that are relevant to understanding regional and global ecosystem connectivity.

Original language	English (US)
Article number	162137
Journal	Science of the Total Environment
Volume	871
DOIs	https://doi.org/10.1016/j.scitotenv.2023.162137
State	Published - May 1 2023
Externally published	Yes

Keywords

Atmospheric microbiology
Biogeography
Microbial dispersal
Soil microbiology
Source tracking

ASJC Scopus subject areas

Environmental Engineering
Environmental Chemistry
Waste Management and Disposal
Pollution

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10.1016/j.scitotenv.2023.162137

Cite this

Archer, S. D. J., Lee, K. C., Caruso, T., Alcami, A., Araya, J. G., Cary, S. C., Cowan, D. A., Etchebehere, C., Gantsetseg, B., Gomez-Silva, B., Hartery, S., Hogg, I. D., Kansour, M. K., Lawrence, T., Lee, C. K., Lee, P. K. H., Leopold, M., Leung, M. H. Y., Maki, T., ... Pointing, S. B. (2023). Contribution of soil bacteria to the atmosphere across biomes. Science of the Total Environment, 871, Article 162137. https://doi.org/10.1016/j.scitotenv.2023.162137

Archer, SDJ, Lee, KC, Caruso, T, Alcami, A, Araya, JG, Cary, SC, Cowan, DA, Etchebehere, C, Gantsetseg, B, Gomez-Silva, B, Hartery, S, Hogg, ID, Kansour, MK, Lawrence, T, Lee, CK, Lee, PKH, Leopold, M, Leung, MHY, Maki, T, McKay, CP, Al Mailem, DM, Ramond, JB, Rastrojo, A, Šantl-Temkiv, T, Sun, HJ, Tong, X, Vandenbrink, B, Warren-Rhodes, KA & Pointing, SB 2023, 'Contribution of soil bacteria to the atmosphere across biomes', Science of the Total Environment, vol. 871, 162137. https://doi.org/10.1016/j.scitotenv.2023.162137

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title = "Contribution of soil bacteria to the atmosphere across biomes",

abstract = "The dispersion of microorganisms through the atmosphere is a continual and essential process that underpins biogeography and ecosystem development and function. Despite the ubiquity of atmospheric microorganisms globally, specific knowledge of the determinants of atmospheric microbial diversity at any given location remains unresolved. Here we describe bacterial diversity in the atmospheric boundary layer and underlying soil at twelve globally distributed locations encompassing all major biomes, and characterise the contribution of local and distant soils to the observed atmospheric community. Across biomes the diversity of bacteria in the atmosphere was negatively correlated with mean annual precipitation but positively correlated to mean annual temperature. We identified distinct non-randomly assembled atmosphere and soil communities from each location, and some broad trends persisted across biomes including the enrichment of desiccation and UV tolerant taxa in the atmospheric community. Source tracking revealed that local soils were more influential than distant soil sources in determining observed diversity in the atmosphere, with more emissive semi-arid and arid biomes contributing most to signatures from distant soil. Our findings highlight complexities in the atmospheric microbiota that are relevant to understanding regional and global ecosystem connectivity.",

keywords = "Atmospheric microbiology, Biogeography, Microbial dispersal, Soil microbiology, Source tracking",

author = "Archer, {Stephen D.J.} and Lee, {Kevin C.} and Tancredi Caruso and Antonio Alcami and Araya, {Jonathan G.} and Cary, {S. Craig} and Cowan, {Don A.} and Claudia Etchebehere and Batdelger Gantsetseg and Benito Gomez-Silva and Sean Hartery and Hogg, {Ian D.} and Kansour, {Mayada K.} and Timothy Lawrence and Lee, {Charles K.} and Lee, {Patrick K.H.} and Matthias Leopold and Leung, {Marcus H.Y.} and Teruya Maki and McKay, {Christopher P.} and {Al Mailem}, {Dina M.} and Ramond, {Jean Baptiste} and Alberto Rastrojo and Tina {\v S}antl-Temkiv and Sun, {Henry J.} and Xinzhao Tong and Bryan Vandenbrink and Warren-Rhodes, {Kimberley A.} and Pointing, {Stephen B.}",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors",

year = "2023",

month = may,

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doi = "10.1016/j.scitotenv.2023.162137",

language = "English (US)",

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AU - Archer, Stephen D.J.

AU - Lee, Kevin C.

AU - Caruso, Tancredi

AU - Alcami, Antonio

AU - Araya, Jonathan G.

AU - Cary, S. Craig

AU - Cowan, Don A.

AU - Etchebehere, Claudia

AU - Gantsetseg, Batdelger

AU - Gomez-Silva, Benito

AU - Hartery, Sean

AU - Hogg, Ian D.

AU - Kansour, Mayada K.

AU - Lawrence, Timothy

AU - Lee, Charles K.

AU - Lee, Patrick K.H.

AU - Leopold, Matthias

AU - Leung, Marcus H.Y.

AU - Maki, Teruya

AU - McKay, Christopher P.

AU - Al Mailem, Dina M.

AU - Ramond, Jean Baptiste

AU - Rastrojo, Alberto

AU - Šantl-Temkiv, Tina

AU - Sun, Henry J.

AU - Tong, Xinzhao

AU - Vandenbrink, Bryan

AU - Warren-Rhodes, Kimberley A.

AU - Pointing, Stephen B.

PY - 2023/5/1

Y1 - 2023/5/1

N2 - The dispersion of microorganisms through the atmosphere is a continual and essential process that underpins biogeography and ecosystem development and function. Despite the ubiquity of atmospheric microorganisms globally, specific knowledge of the determinants of atmospheric microbial diversity at any given location remains unresolved. Here we describe bacterial diversity in the atmospheric boundary layer and underlying soil at twelve globally distributed locations encompassing all major biomes, and characterise the contribution of local and distant soils to the observed atmospheric community. Across biomes the diversity of bacteria in the atmosphere was negatively correlated with mean annual precipitation but positively correlated to mean annual temperature. We identified distinct non-randomly assembled atmosphere and soil communities from each location, and some broad trends persisted across biomes including the enrichment of desiccation and UV tolerant taxa in the atmospheric community. Source tracking revealed that local soils were more influential than distant soil sources in determining observed diversity in the atmosphere, with more emissive semi-arid and arid biomes contributing most to signatures from distant soil. Our findings highlight complexities in the atmospheric microbiota that are relevant to understanding regional and global ecosystem connectivity.

AB - The dispersion of microorganisms through the atmosphere is a continual and essential process that underpins biogeography and ecosystem development and function. Despite the ubiquity of atmospheric microorganisms globally, specific knowledge of the determinants of atmospheric microbial diversity at any given location remains unresolved. Here we describe bacterial diversity in the atmospheric boundary layer and underlying soil at twelve globally distributed locations encompassing all major biomes, and characterise the contribution of local and distant soils to the observed atmospheric community. Across biomes the diversity of bacteria in the atmosphere was negatively correlated with mean annual precipitation but positively correlated to mean annual temperature. We identified distinct non-randomly assembled atmosphere and soil communities from each location, and some broad trends persisted across biomes including the enrichment of desiccation and UV tolerant taxa in the atmospheric community. Source tracking revealed that local soils were more influential than distant soil sources in determining observed diversity in the atmosphere, with more emissive semi-arid and arid biomes contributing most to signatures from distant soil. Our findings highlight complexities in the atmospheric microbiota that are relevant to understanding regional and global ecosystem connectivity.

KW - Atmospheric microbiology

KW - Biogeography

KW - Microbial dispersal

KW - Soil microbiology

KW - Source tracking

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SN - 0048-9697

VL - 871

JO - Science of the Total Environment

JF - Science of the Total Environment

M1 - 162137

ER -

Contribution of soil bacteria to the atmosphere across biomes

Abstract

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