Epichloë exudates promote in vitro and in vivo arbuscular mycorrhizal fungi development and plant growth

Background and aims: We studied, through exudates employment, the effect of Epichloë (endophytic fungi), both independently and in association with Bromus auleticus (grass), on arbuscular mycorrhizal fungi (AMF) colonization, host and neighbouring plants biomass production and soil changes. Methods:...

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Autores principales: Vignale, M.V., Iannone, L.J., Scervino, J.M., Novas, M.V.
Formato: JOUR
Materias:
Bromus auleticus
Epichloë tembladerae
Seed-soil microbe interactions
Symbiosis
arbuscular mycorrhiza
biological development
biomass allocation
colonization
dose-response relationship
endophyte
experiment
exudation
fungus
grass
growth
host
seed
soil microorganism
soil property
symbiosis
Bromus
Daucus carota
Fungi
Gigaspora rosea
Rhizophagus
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_0032079X_v422_n1-2_p267_Vignale
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling todo:paper_0032079X_v422_n1-2_p267_Vignale2023-10-03T14:44:52Z Epichloë exudates promote in vitro and in vivo arbuscular mycorrhizal fungi development and plant growth Vignale, M.V. Iannone, L.J. Scervino, J.M. Novas, M.V. Bromus auleticus Epichloë tembladerae Seed-soil microbe interactions Symbiosis arbuscular mycorrhiza biological development biomass allocation colonization dose-response relationship endophyte experiment exudation fungus grass growth host seed soil microorganism soil property symbiosis Bromus Daucus carota Fungi Gigaspora rosea Rhizophagus Background and aims: We studied, through exudates employment, the effect of Epichloë (endophytic fungi), both independently and in association with Bromus auleticus (grass), on arbuscular mycorrhizal fungi (AMF) colonization, host and neighbouring plants biomass production and soil changes. Methods: Through in vitro and greenhouse experiments, Epichloë endophytes effect on AMF development was evaluated. In vitro studies of exudates effect on Gigaspora rosea and Rhizophagus intraradices were performed using root or endophyte exudates. A 6-month greenhouse experiment was conducted to determine Bromus auleticus endophytic status effect and endophyte exudates role in biomass production, neighbouring plants mycorrhizal colonization and soil properties. Results: Endophyte exudates and E+ plant root exudates promoted in vitro AMF development in the pre-infective stage of G. rosea and in carrot root culture mycelium of R. intraradices in a dose-response relationship, while control media and E- plants exudates had no effect. R. intraradices colonization and plant growth was clearly increased by endophytes and their exudates. Conclusions: This is the first work evidencing the direct effect of Epichloë endophytes and infected plants root exudates on AMF extramatrical development. While higher levels of AMF colonization were observed in E+ plants, no clear effect was detected in neighbouring plants colonization, plant biomass or soil properties. © 2017, Springer International Publishing Switzerland. Fil:Iannone, L.J. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Scervino, J.M. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Novas, M.V. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_0032079X_v422_n1-2_p267_Vignale
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Bromus auleticus
Epichloë tembladerae
Seed-soil microbe interactions
Symbiosis
arbuscular mycorrhiza
biological development
biomass allocation
colonization
dose-response relationship
endophyte
experiment
exudation
fungus
grass
growth
host
seed
soil microorganism
soil property
symbiosis
Bromus
Daucus carota
Fungi
Gigaspora rosea
Rhizophagus
spellingShingle Bromus auleticus
Epichloë tembladerae
Seed-soil microbe interactions
Symbiosis
arbuscular mycorrhiza
biological development
biomass allocation
colonization
dose-response relationship
endophyte
experiment
exudation
fungus
grass
growth
host
seed
soil microorganism
soil property
symbiosis
Bromus
Daucus carota
Fungi
Gigaspora rosea
Rhizophagus
Vignale, M.V.
Iannone, L.J.
Scervino, J.M.
Novas, M.V.
Epichloë exudates promote in vitro and in vivo arbuscular mycorrhizal fungi development and plant growth
topic_facet Bromus auleticus
Epichloë tembladerae
Seed-soil microbe interactions
Symbiosis
arbuscular mycorrhiza
biological development
biomass allocation
colonization
dose-response relationship
endophyte
experiment
exudation
fungus
grass
growth
host
seed
soil microorganism
soil property
symbiosis
Bromus
Daucus carota
Fungi
Gigaspora rosea
Rhizophagus
description Background and aims: We studied, through exudates employment, the effect of Epichloë (endophytic fungi), both independently and in association with Bromus auleticus (grass), on arbuscular mycorrhizal fungi (AMF) colonization, host and neighbouring plants biomass production and soil changes. Methods: Through in vitro and greenhouse experiments, Epichloë endophytes effect on AMF development was evaluated. In vitro studies of exudates effect on Gigaspora rosea and Rhizophagus intraradices were performed using root or endophyte exudates. A 6-month greenhouse experiment was conducted to determine Bromus auleticus endophytic status effect and endophyte exudates role in biomass production, neighbouring plants mycorrhizal colonization and soil properties. Results: Endophyte exudates and E+ plant root exudates promoted in vitro AMF development in the pre-infective stage of G. rosea and in carrot root culture mycelium of R. intraradices in a dose-response relationship, while control media and E- plants exudates had no effect. R. intraradices colonization and plant growth was clearly increased by endophytes and their exudates. Conclusions: This is the first work evidencing the direct effect of Epichloë endophytes and infected plants root exudates on AMF extramatrical development. While higher levels of AMF colonization were observed in E+ plants, no clear effect was detected in neighbouring plants colonization, plant biomass or soil properties. © 2017, Springer International Publishing Switzerland.
format JOUR
author Vignale, M.V.
Iannone, L.J.
Scervino, J.M.
Novas, M.V.
author_facet Vignale, M.V.
Iannone, L.J.
Scervino, J.M.
Novas, M.V.
author_sort Vignale, M.V.
title Epichloë exudates promote in vitro and in vivo arbuscular mycorrhizal fungi development and plant growth
title_short Epichloë exudates promote in vitro and in vivo arbuscular mycorrhizal fungi development and plant growth
title_full Epichloë exudates promote in vitro and in vivo arbuscular mycorrhizal fungi development and plant growth
title_fullStr Epichloë exudates promote in vitro and in vivo arbuscular mycorrhizal fungi development and plant growth
title_full_unstemmed Epichloë exudates promote in vitro and in vivo arbuscular mycorrhizal fungi development and plant growth
title_sort epichloë exudates promote in vitro and in vivo arbuscular mycorrhizal fungi development and plant growth
url http://hdl.handle.net/20.500.12110/paper_0032079X_v422_n1-2_p267_Vignale
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AT iannonelj epichloeexudatespromoteinvitroandinvivoarbuscularmycorrhizalfungidevelopmentandplantgrowth
AT scervinojm epichloeexudatespromoteinvitroandinvivoarbuscularmycorrhizalfungidevelopmentandplantgrowth
AT novasmv epichloeexudatespromoteinvitroandinvivoarbuscularmycorrhizalfungidevelopmentandplantgrowth
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