Microbial mediation of salinity stress response varies by plant genotype and provenance over time

Although it is becoming widely appreciated that microbes can enhance plant tolerance to environmental stress, the nature of microbial mediation of exposure responses is not well understood. We addressed this deficit by examining whether microbial mediation of plant responses to elevated salinity is...

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Published inMolecular ecology Vol. 31; no. 17; pp. 4571 - 4585
Main Authors Lumibao, Candice Y., Torres Martínez, Lorena, Megonigal, J. Patrick, Bael, Sunshine A., Blum, Michael J.
Format Journal Article
LanguageEnglish
Published Oxford Blackwell Publishing Ltd 01.09.2022
Subjects
coastal marsh
Coastal marshes
Endophytes
Environmental conditions
Environmental stress
Evolution
Genotype & phenotype
Genotypes
Inoculation
Mediation
Microbial activity
Microorganisms
Plant communities
Plant stress
plant‐microbe interaction
resurrection ecology
Salinity
Salinity effects
Schoenoplectus americanus
Seed banks
Seeds
soil microbes
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Summary:Although it is becoming widely appreciated that microbes can enhance plant tolerance to environmental stress, the nature of microbial mediation of exposure responses is not well understood. We addressed this deficit by examining whether microbial mediation of plant responses to elevated salinity is contingent on the environment and factors intrinsic to the host. We evaluated the influence of contrasting environmental conditions relative to host genotype, provenance and evolution by conducting a common‐garden experiment utilizing ancestral and descendant cohorts of Schoenoplectus americanus genotypes recovered from two 100+ year coastal marsh seed banks. We compared S. americanus productivity and trait variation as well as associated endophytic microbial communities according to plant genotype, provenance, and age cohort under high and low salinity stress with and without native soil inoculation. The magnitude and direction of microbial mediation of S. americanus responses to elevated salinity varied according to individual genotype, provenance, as well as temporal shifts in genotypic variation and G × E (gene by environment) interactions. Relationships differed between plant traits and the structure of endosphere communities. Our findings indicate that plant‐microbe associations and microbial mediation of plant stress are not only context‐dependent but also dynamic. Our results additionally suggest that evolution can shape the fate of marsh ecosystems by altering how microbes confer plant tolerance to pressures linked to global change.
ISSN:0962-1083
1365-294X
DOI:10.1111/mec.16603