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| Auteurs principaux: | , , , , , , |
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| Format: | Artículo científico |
| Langue: | en |
| Publié: |
Oecologia
2024
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| Sujets: | |
| Accès en ligne: | https://pubmed.ncbi.nlm.nih.gov/39658651/ |
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| _version_ | 1868266270314463233 |
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| author | Garces, Kylea Rose Hanley, Torrance C Deckert, Ron Noble, Allison Richards, Christina Gehring, Catherine Hughes, A Randall |
| author_facet | Garces, Kylea Rose Hanley, Torrance C Deckert, Ron Noble, Allison Richards, Christina Gehring, Catherine Hughes, A Randall Garces, Kylea Rose Hanley, Torrance C Deckert, Ron Noble, Allison Richards, Christina Gehring, Catherine Hughes, A Randall |
| collection | PubMed - marine biology |
| contents | Bacterial and fungal root endophytes alter survival, growth, and resistance to grazing in a foundation plant species. Garces, Kylea Rose Hanley, Torrance C Deckert, Ron Noble, Allison Richards, Christina Gehring, Catherine Hughes, A Randall Endophytes Plant Roots Herbivory Symbiosis Fungi Bacteria Plants host an array of microbial symbionts, including both bacterial and fungal endophytes located within their roots. While bacterial and fungal endophytes independently alter host plant growth, response to stress and susceptibility to disease, their combined effects on host plants are poorly studied. To tease apart interactions between co-occurring endophytes on plant growth, morphology, physiology, and survival we conducted a greenhouse experiment. Different genotypes of Spartina alterniflora, a foundational salt marsh species, were inoculated with one bacterial endophyte, Kosakonia oryzae, one fungal endophyte, Magnaporthales sp., or co-inoculated. Within the greenhouse, an unplanned herbivory event occurred which allowed insight into the ways bacteria, fungi, and co-inoculation of both endophytic microbes alters plant defense chemicals and changes herbivory. Broadly, the individual inoculation of the bacterial endophyte increased survival, whereas the fungal endophyte increased plant growth traits. Following the herbivory event, the proportion of stems grazed was reduced when plants were inoculated with the individual endophytes and further reduced when both endophytes were present. Across genotypes, anti-herbivore defense chemicals varied by individual and co-inoculation of endophytes. Bacterial inoculation and genotype interactively affected above:below-ground biomass and S. alterniflora survival of ungrazed plants. Overall, our results highlight the variable outcomes of endophyte inoculation on Spartina growth, morphology, phenolics, and survival. This study furthers our understanding of the combined effects of symbionts and plant multitrophic interactions. Further, exploring intra and inter specific effects of plant--microbe symbiosis may be key in better predicting ecosystem level outcomes, particularly in response to global change. |
| format | Artículo científico |
| id | pubmed_39658651 |
| institution | PubMed |
| language | en |
| publishDate | 2024 |
| publisher | Oecologia |
| record_format | pubmed |
| spellingShingle | Bacterial and fungal root endophytes alter survival, growth, and resistance to grazing in a foundation plant species. Garces, Kylea Rose Hanley, Torrance C Deckert, Ron Noble, Allison Richards, Christina Gehring, Catherine Hughes, A Randall Endophytes Plant Roots Herbivory Symbiosis Fungi Bacteria Bacterial and fungal root endophytes alter survival, growth, and resistance to grazing in a foundation plant species. Garces, Kylea Rose Hanley, Torrance C Deckert, Ron Noble, Allison Richards, Christina Gehring, Catherine Hughes, A Randall Endophytes Plant Roots Herbivory Symbiosis Fungi Bacteria Plants host an array of microbial symbionts, including both bacterial and fungal endophytes located within their roots. While bacterial and fungal endophytes independently alter host plant growth, response to stress and susceptibility to disease, their combined effects on host plants are poorly studied. To tease apart interactions between co-occurring endophytes on plant growth, morphology, physiology, and survival we conducted a greenhouse experiment. Different genotypes of Spartina alterniflora, a foundational salt marsh species, were inoculated with one bacterial endophyte, Kosakonia oryzae, one fungal endophyte, Magnaporthales sp., or co-inoculated. Within the greenhouse, an unplanned herbivory event occurred which allowed insight into the ways bacteria, fungi, and co-inoculation of both endophytic microbes alters plant defense chemicals and changes herbivory. Broadly, the individual inoculation of the bacterial endophyte increased survival, whereas the fungal endophyte increased plant growth traits. Following the herbivory event, the proportion of stems grazed was reduced when plants were inoculated with the individual endophytes and further reduced when both endophytes were present. Across genotypes, anti-herbivore defense chemicals varied by individual and co-inoculation of endophytes. Bacterial inoculation and genotype interactively affected above:below-ground biomass and S. alterniflora survival of ungrazed plants. Overall, our results highlight the variable outcomes of endophyte inoculation on Spartina growth, morphology, phenolics, and survival. This study furthers our understanding of the combined effects of symbionts and plant multitrophic interactions. Further, exploring intra and inter specific effects of plant--microbe symbiosis may be key in better predicting ecosystem level outcomes, particularly in response to global change. |
| title | Bacterial and fungal root endophytes alter survival, growth, and resistance to grazing in a foundation plant species. |
| topic | Endophytes Plant Roots Herbivory Symbiosis Fungi Bacteria |
| url | https://pubmed.ncbi.nlm.nih.gov/39658651/ |