Autoclaving is at least as effective as gamma irradiation for biotic clearing and intentional microbial recolonization of soil
Autoclaving is at least as effective as gamma irradiation for biotic clearing and intentional microbial recolonization of soil
Sterilization is commonly used to remove or reduce the biotic constraints of a soil to allow recolonization by soil-dwelling organisms, with autoclaving and gamma irradiation being the most frequently used approaches. Many studies have characterized sterilization impacts on soil physicochemical properties, with gamma irradiation often described as the preferred approach, despite the lower cost and higher scalability of autoclaving. However, few studies have compared how sterilization techniques impact soil recolonization by microorganisms. Here, we compared how two sterilization approaches (autoclaving; gamma irradiation) and soil washing impacted microbial recolonization of soil from a diverse soil inoculum. Sterilization method had little impact on microbial alpha diversity across recolonized soils. For sterile soil regrowth microcosms, species richness and diversity were significantly reduced by autoclaving relative to gamma irradiation, particularly for fungi. There was no impact of sterilization method on bacterial composition in recolonized soils and minimal impact on fungal composition (P = 0.05). Washing soils had a greater impact on microbial composition than sterilization method, and sterile soil regrowth had negligible impacts on microbial recolonization. These data suggest that sterilization method has no clear impact on microbial recolonization, at least across the soils tested, indicating that soil autoclaving is an appropriate and economical approach for biotically clearing soils.IMPORTANCESterilized soils represent soil-like environments that act as a medium to study microbial colonization dynamics in more "natural" settings relative to artificial culturing environments. Soil sterilization is often carried out by gamma irradiation or autoclaving, which both alter soil properties, but gamma irradiation is thought to be the gentler technique. Gamma irradiation can be cost prohibitive and does not scale well for larger experiments. We sought to examine how soil sterilization technique can impact microbial colonization, and additionally looked at the impact of soil washing which is believed to remove soil toxins that inhibit soil recolonization. We found that both gamma-irradiated and autoclaved soils showed similar colonization patterns when reintroducing microorganisms. Soil washing, relative to sterilization technique, had a greater impact on which microorganisms were able to recolonize the soil. When allowing sterilized soils to regrow (i.e., persisting microorganisms), gamma irradiation performed worse, suggesting that gamma irradiation does not biotically clear soils as well as autoclaving. These data suggest that both sterilization techniques are comparable, and that autoclaving may be more effective at biotically clearing soil.
autoclaving, biotic-constraints, gamma-irradiation, microbial recolonization, soil microcosm, soil sterilization, KEYWORDS autoclaving
e0047624
King, William L.
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Grandinette, Emily M.
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Trase, Olivia
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Rolon, M. Laura
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Salis, Howard M.
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Wood, Harlow
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Bell, Terrence H.
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30 July 2024
King, William L.
0bd4328a-34ba-4b9a-bf4e-1442c18c43fc
Grandinette, Emily M.
4932813a-a34c-47b5-90b5-6b25077a10b3
Trase, Olivia
5e250bf1-dbcc-4c68-9906-3c6b7f13481c
Rolon, M. Laura
1d359fc9-b6f3-4239-9240-fc8dd0b73170
Salis, Howard M.
584d9ee7-c004-473e-8bc4-bae2d842c94f
Wood, Harlow
a5af7a91-a67e-432b-9667-2855c4860b8d
Bell, Terrence H.
29863b8c-a89c-4077-b22d-62052cfb7225
King, William L., Grandinette, Emily M., Trase, Olivia, Rolon, M. Laura, Salis, Howard M., Wood, Harlow and Bell, Terrence H.
(2024)
Autoclaving is at least as effective as gamma irradiation for biotic clearing and intentional microbial recolonization of soil.
mSphere, 9 (7), .
(doi:10.1128/msphere.00476-24).
Abstract
Sterilization is commonly used to remove or reduce the biotic constraints of a soil to allow recolonization by soil-dwelling organisms, with autoclaving and gamma irradiation being the most frequently used approaches. Many studies have characterized sterilization impacts on soil physicochemical properties, with gamma irradiation often described as the preferred approach, despite the lower cost and higher scalability of autoclaving. However, few studies have compared how sterilization techniques impact soil recolonization by microorganisms. Here, we compared how two sterilization approaches (autoclaving; gamma irradiation) and soil washing impacted microbial recolonization of soil from a diverse soil inoculum. Sterilization method had little impact on microbial alpha diversity across recolonized soils. For sterile soil regrowth microcosms, species richness and diversity were significantly reduced by autoclaving relative to gamma irradiation, particularly for fungi. There was no impact of sterilization method on bacterial composition in recolonized soils and minimal impact on fungal composition (P = 0.05). Washing soils had a greater impact on microbial composition than sterilization method, and sterile soil regrowth had negligible impacts on microbial recolonization. These data suggest that sterilization method has no clear impact on microbial recolonization, at least across the soils tested, indicating that soil autoclaving is an appropriate and economical approach for biotically clearing soils.IMPORTANCESterilized soils represent soil-like environments that act as a medium to study microbial colonization dynamics in more "natural" settings relative to artificial culturing environments. Soil sterilization is often carried out by gamma irradiation or autoclaving, which both alter soil properties, but gamma irradiation is thought to be the gentler technique. Gamma irradiation can be cost prohibitive and does not scale well for larger experiments. We sought to examine how soil sterilization technique can impact microbial colonization, and additionally looked at the impact of soil washing which is believed to remove soil toxins that inhibit soil recolonization. We found that both gamma-irradiated and autoclaved soils showed similar colonization patterns when reintroducing microorganisms. Soil washing, relative to sterilization technique, had a greater impact on which microorganisms were able to recolonize the soil. When allowing sterilized soils to regrow (i.e., persisting microorganisms), gamma irradiation performed worse, suggesting that gamma irradiation does not biotically clear soils as well as autoclaving. These data suggest that both sterilization techniques are comparable, and that autoclaving may be more effective at biotically clearing soil.
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SoilSterilization_Submitted_Rd2_Clean
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king-et-al-2024-autoclaving-is-at-least-as-effective-as-gamma-irradiation-for-biotic-clearing-and-intentional-microbial
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More information
Accepted/In Press date: 11 June 2024
e-pub ahead of print date: 9 July 2024
Published date: 30 July 2024
Keywords:
autoclaving, biotic-constraints, gamma-irradiation, microbial recolonization, soil microcosm, soil sterilization, KEYWORDS autoclaving
Identifiers
Local EPrints ID: 494072
URI: http://eprints.soton.ac.uk/id/eprint/494072
ISSN: 2379-5042
PURE UUID: 33bf9bea-a717-4f66-b673-7465319db6d3
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Date deposited: 23 Sep 2024 16:31
Last modified: 24 Sep 2024 02:07
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Contributors
Author:
William L. King
Author:
Emily M. Grandinette
Author:
Olivia Trase
Author:
M. Laura Rolon
Author:
Howard M. Salis
Author:
Harlow Wood
Author:
Terrence H. Bell
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