Biocontrol Traits Correlate With Resistance to Predation by Protists in Soil Pseudomonads

Biocontrol Traits Correlate With Resistance to Predation by Protists in Soil Pseudomonads

Root-colonizing bacteria can support plant growth and help fend off pathogens. It is clear that such bacteria benefit from plant-derived carbon, but it remains ambiguous why they invest in plant-beneficial traits. We suggest that selection via protist predation contributes to recruitment of plant-be...

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Main Authors: Nathalie Amacker, Zhilei Gao, Betina C. Agaras, Ellen Latz, George A. Kowalchuk, Claudio F. Valverde, Alexandre Jousset, Simone Weidner
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-12-01
Series:Frontiers in Microbiology
Subjects:
rhizobacteria
PGPR
protozoa
multitrophic interactions
biocontrol
Online Access:https://www.frontiersin.org/articles/10.3389/fmicb.2020.614194/full
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spelling doaj-500d93f99d2e4ba3a6e7582d375385772020-12-15T04:23:11ZengFrontiers Media S.A.Frontiers in Microbiology1664-302X2020-12-011110.3389/fmicb.2020.614194614194Biocontrol Traits Correlate With Resistance to Predation by Protists in Soil PseudomonadsNathalie Amacker0Zhilei Gao1Betina C. Agaras2Ellen Latz3George A. Kowalchuk4Claudio F. Valverde5Alexandre Jousset6Simone Weidner7Simone Weidner8Ecology and Biodiversity Group, Institute of Environmental Biology, University of Utrecht, Utrecht, NetherlandsEcology and Biodiversity Group, Institute of Environmental Biology, University of Utrecht, Utrecht, NetherlandsLaboratorio de Fisiología y Genética de Bacterias Beneficiosas para Plantas, Departamento de Ciencia y Tecnología, Centro de Bioquímica y Microbiología del Suelo, Universidad Nacional de Quilmes, Buenos Aires, ArgentinaGerman Centre for Integrative Biodiversity Research (iDiv), Halle-Jena-Leipzig, Leipzig, GermanyEcology and Biodiversity Group, Institute of Environmental Biology, University of Utrecht, Utrecht, NetherlandsLaboratorio de Fisiología y Genética de Bacterias Beneficiosas para Plantas, Departamento de Ciencia y Tecnología, Centro de Bioquímica y Microbiología del Suelo, Universidad Nacional de Quilmes, Buenos Aires, ArgentinaEcology and Biodiversity Group, Institute of Environmental Biology, University of Utrecht, Utrecht, NetherlandsEcology and Biodiversity Group, Institute of Environmental Biology, University of Utrecht, Utrecht, NetherlandsDepartment of Microbial Ecology, Netherlands Institute of Ecology, Wageningen, NetherlandsRoot-colonizing bacteria can support plant growth and help fend off pathogens. It is clear that such bacteria benefit from plant-derived carbon, but it remains ambiguous why they invest in plant-beneficial traits. We suggest that selection via protist predation contributes to recruitment of plant-beneficial traits in rhizosphere bacteria. To this end, we examined the extent to which bacterial traits associated with pathogen inhibition coincide with resistance to protist predation. We investigated the resistance to predation of a collection of Pseudomonas spp. against a range of representative soil protists covering three eukaryotic supergroups. We then examined whether patterns of resistance to predation could be explained by functional traits related to plant growth promotion, disease suppression and root colonization success. We observed a strong correlation between resistance to predation and phytopathogen inhibition. In addition, our analysis highlighted an important contribution of lytic enzymes and motility traits to resist predation by protists. We conclude that the widespread occurrence of plant-protective traits in the rhizosphere microbiome may be driven by the evolutionary pressure for resistance against predation by protists. Protists may therefore act as microbiome regulators promoting native bacteria involved in plant protection against diseases.https://www.frontiersin.org/articles/10.3389/fmicb.2020.614194/fullrhizobacteriaPGPRprotozoamultitrophic interactionsbiocontrol
collection DOAJ
language English
format Article
sources DOAJ
author Nathalie Amacker
Zhilei Gao
Betina C. Agaras
Ellen Latz
George A. Kowalchuk
Claudio F. Valverde
Alexandre Jousset
Simone Weidner
Simone Weidner
spellingShingle Nathalie Amacker
Zhilei Gao
Betina C. Agaras
Ellen Latz
George A. Kowalchuk
Claudio F. Valverde
Alexandre Jousset
Simone Weidner
Simone Weidner
Biocontrol Traits Correlate With Resistance to Predation by Protists in Soil Pseudomonads
Frontiers in Microbiology
rhizobacteria
PGPR
protozoa
multitrophic interactions
biocontrol
author_facet Nathalie Amacker
Zhilei Gao
Betina C. Agaras
Ellen Latz
George A. Kowalchuk
Claudio F. Valverde
Alexandre Jousset
Simone Weidner
Simone Weidner
author_sort Nathalie Amacker
title Biocontrol Traits Correlate With Resistance to Predation by Protists in Soil Pseudomonads
title_short Biocontrol Traits Correlate With Resistance to Predation by Protists in Soil Pseudomonads
title_full Biocontrol Traits Correlate With Resistance to Predation by Protists in Soil Pseudomonads
title_fullStr Biocontrol Traits Correlate With Resistance to Predation by Protists in Soil Pseudomonads
title_full_unstemmed Biocontrol Traits Correlate With Resistance to Predation by Protists in Soil Pseudomonads
title_sort biocontrol traits correlate with resistance to predation by protists in soil pseudomonads
publisher Frontiers Media S.A.
series Frontiers in Microbiology
issn 1664-302X
publishDate 2020-12-01
description Root-colonizing bacteria can support plant growth and help fend off pathogens. It is clear that such bacteria benefit from plant-derived carbon, but it remains ambiguous why they invest in plant-beneficial traits. We suggest that selection via protist predation contributes to recruitment of plant-beneficial traits in rhizosphere bacteria. To this end, we examined the extent to which bacterial traits associated with pathogen inhibition coincide with resistance to protist predation. We investigated the resistance to predation of a collection of Pseudomonas spp. against a range of representative soil protists covering three eukaryotic supergroups. We then examined whether patterns of resistance to predation could be explained by functional traits related to plant growth promotion, disease suppression and root colonization success. We observed a strong correlation between resistance to predation and phytopathogen inhibition. In addition, our analysis highlighted an important contribution of lytic enzymes and motility traits to resist predation by protists. We conclude that the widespread occurrence of plant-protective traits in the rhizosphere microbiome may be driven by the evolutionary pressure for resistance against predation by protists. Protists may therefore act as microbiome regulators promoting native bacteria involved in plant protection against diseases.
topic rhizobacteria
PGPR
protozoa
multitrophic interactions
biocontrol
url https://www.frontiersin.org/articles/10.3389/fmicb.2020.614194/full
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