Leveraging aquatic-terrestrial interfaces to capture putative habitat generalists
Leveraging aquatic-terrestrial interfaces to capture putative habitat generalists
Habitat type is a strong determinant of microbial composition. Habitat interfaces, such as the boundary between aquatic and terrestrial systems, present unique combinations of abiotic factors for microorganisms to contend with. Aside from the spillover of certain harmful microorganisms from agricultural soils into water (e.g. fecal coliform bacteria), we know little about the extent of soil-water habitat switching across microbial taxa. In this study, we developed a proof-of-concept system to facilitate the capture of putatively generalist microorganisms that can colonize and persist in both soil and river water. We aimed to examine the phylogenetic breadth of putative habitat switchers and how this varies across different source environments. Microbial composition was primarily driven by recipient environment type, with the strongest phylogenetic signal seen at the order level for river water colonizers. We also identified more microorganisms colonizing river water when soil was collected from a habitat interface (i.e. soil at the side of an intermittently flooded river, compared to soil collected further from water sources), suggesting that environmental interfaces could be important reservoirs of microbial habitat generalists. Continued development of experimental systems that actively capture microorganisms that thrive in divergent habitats could serve as a powerful tool for identifying and assessing the ecological distribution of microbial generalists.
abiotic constraints, environmental interfaces, habitat generalism, microbial colonization, microbiome manipulation, trait conservation
Richards, Sarah C.
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King, William L.
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Sutherland, Jeremy L.
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Bell, Terrence H.
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Richards, Sarah C.
ba7e0707-3e1c-43aa-a72e-0623abb12c18
King, William L.
0bd4328a-34ba-4b9a-bf4e-1442c18c43fc
Sutherland, Jeremy L.
e457a35a-3f39-40d6-9f6d-634470838cfa
Bell, Terrence H.
29863b8c-a89c-4077-b22d-62052cfb7225
Richards, Sarah C., King, William L., Sutherland, Jeremy L. and Bell, Terrence H.
(2024)
Leveraging aquatic-terrestrial interfaces to capture putative habitat generalists.
FEMS Microbiology Letters, 371, [fnae025].
(doi:10.1093/femsle/fnae025).
Abstract
Habitat type is a strong determinant of microbial composition. Habitat interfaces, such as the boundary between aquatic and terrestrial systems, present unique combinations of abiotic factors for microorganisms to contend with. Aside from the spillover of certain harmful microorganisms from agricultural soils into water (e.g. fecal coliform bacteria), we know little about the extent of soil-water habitat switching across microbial taxa. In this study, we developed a proof-of-concept system to facilitate the capture of putatively generalist microorganisms that can colonize and persist in both soil and river water. We aimed to examine the phylogenetic breadth of putative habitat switchers and how this varies across different source environments. Microbial composition was primarily driven by recipient environment type, with the strongest phylogenetic signal seen at the order level for river water colonizers. We also identified more microorganisms colonizing river water when soil was collected from a habitat interface (i.e. soil at the side of an intermittently flooded river, compared to soil collected further from water sources), suggesting that environmental interfaces could be important reservoirs of microbial habitat generalists. Continued development of experimental systems that actively capture microorganisms that thrive in divergent habitats could serve as a powerful tool for identifying and assessing the ecological distribution of microbial generalists.
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Accepted/In Press date: 28 March 2024
e-pub ahead of print date: 29 March 2024
Keywords:
abiotic constraints, environmental interfaces, habitat generalism, microbial colonization, microbiome manipulation, trait conservation
Identifiers
Local EPrints ID: 490044
URI: http://eprints.soton.ac.uk/id/eprint/490044
ISSN: 0378-1097
PURE UUID: a1b6e7ac-3c6c-43f6-b296-f03bdbc230f9
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Date deposited: 14 May 2024 16:30
Last modified: 06 Jun 2024 04:11
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Contributors
Author:
Sarah C. Richards
Author:
William L. King
Author:
Jeremy L. Sutherland
Author:
Terrence H. Bell
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