Differential interaction between two Glomus intraradices strains and a phosphate solubilizing bacterium in maize rhizosphere

Arbuscular mycorrhizal (AM) fungi and phosphate solubilizing bacteria (PSB) have a positive effect on plant productivity primarily through increasing phosphate availability. In order to study the interaction between AM fungi and PSB, we used . Bacillus megaterium, a PSB isolated from the sterilized...

Descripción completa

Guardado en:
Detalles Bibliográficos
Autores principales: Fernández, Laura, Bompadre, María Josefina, Pérgola, Mariana, Silvani, Vanesa Analía, Godeas, Alicia Margarita
Publicado: 2012
Materias:
Bacillus megaterium
Extraradical-mycelium growth patterns
Glomus intraradices
Microbial interactions
arbuscular mycorrhiza
bacterium
biological production
fungus
greenhouse ecosystem
growth rate
host plant
hypothesis testing
inoculation
interspecific interaction
maize
nutrient availability
persistence
phosphate
phytomass
rhizosphere
root colonization
spore
Arbuscular
Bacteria (microorganisms)
Fungi
Glomus
Zea mays
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00314056_v55_n4_p227_FernandezBidondo
http://hdl.handle.net/20.500.12110/paper_00314056_v55_n4_p227_FernandezBidondo
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_00314056_v55_n4_p227_FernandezBidondo
record_format dspace
spelling paper:paper_00314056_v55_n4_p227_FernandezBidondo2023-06-08T14:57:02Z Differential interaction between two Glomus intraradices strains and a phosphate solubilizing bacterium in maize rhizosphere Fernández, Laura Bompadre, María Josefina Pérgola, Mariana Silvani, Vanesa Analía Godeas, Alicia Margarita Bacillus megaterium Extraradical-mycelium growth patterns Glomus intraradices Microbial interactions arbuscular mycorrhiza bacterium biological production fungus greenhouse ecosystem growth rate host plant hypothesis testing inoculation interspecific interaction maize nutrient availability persistence phosphate phytomass rhizosphere root colonization spore Arbuscular Bacillus megaterium Bacteria (microorganisms) Fungi Glomus Glomus intraradices Zea mays Arbuscular mycorrhizal (AM) fungi and phosphate solubilizing bacteria (PSB) have a positive effect on plant productivity primarily through increasing phosphate availability. In order to study the interaction between AM fungi and PSB, we used . Bacillus megaterium, a PSB isolated from the sterilized surface of AM germinated spores, and two strains of the AM fungus . Glomus intraradices with different mycelial architecture. A greenhouse experiment was designed with maize as host plant with the addition of tribasic calcium phosphate. We tested the hypothesis that PSB, intimately linked with AM fungi, could interact differentially with the two AM strains. We concluded that inoculation with the PSB positively affected maize mycorrhization. Insoluble phosphate alone did not influence the AM extraradical mycelium (ERM) length and maize mycorrhization when bacteria were not inoculated. The results provide evidence that the adverse effect on infectivity for some AM strains might be caused by solubilized phosphorus release to the rhizosphere by PSB. Differences related to the mycelium architecture of each AM strain were observed: the density of PSB in rhizosphere soil was significantly higher only with the GA8 strain coinciding with the highest values of maize biomass. The density of bacteria associated with GA8 mycelium could be the result of the transfer of photosynthates through the rhizosphere; this close contact would favor the persistence of the intimate relationship between PSB and AM hyphae. In the bacteria-free treatments, soil adherence was not significantly altered. Although the highest development of ERM occurred with GA5, plants inoculated with GA8 showed the highest values for soil adherence. This may be due to the AM mycelium which modifies bacterial persistence in the rhizosphere and consequently soil adherence. Our results show that for potential applications, some characteristics of the AM strains are key in the selection of the AM fungi-PSB combinations. These include the tolerance to soluble phosphorus, the rate of root colonization, and ERM development that favors the persistence of bacteria in rhizosphere soil. © 2012 Elsevier GmbH. Fil:Fernández Bidondo, L. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Bompadre, J. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Pergola, M. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Silvani, V. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Godeas, A. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. 2012 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00314056_v55_n4_p227_FernandezBidondo http://hdl.handle.net/20.500.12110/paper_00314056_v55_n4_p227_FernandezBidondo
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Bacillus megaterium
Extraradical-mycelium growth patterns
Glomus intraradices
Microbial interactions
arbuscular mycorrhiza
bacterium
biological production
fungus
greenhouse ecosystem
growth rate
host plant
hypothesis testing
inoculation
interspecific interaction
maize
nutrient availability
persistence
phosphate
phytomass
rhizosphere
root colonization
spore
Arbuscular
Bacillus megaterium
Bacteria (microorganisms)
Fungi
Glomus
Glomus intraradices
Zea mays
spellingShingle Bacillus megaterium
Extraradical-mycelium growth patterns
Glomus intraradices
Microbial interactions
arbuscular mycorrhiza
bacterium
biological production
fungus
greenhouse ecosystem
growth rate
host plant
hypothesis testing
inoculation
interspecific interaction
maize
nutrient availability
persistence
phosphate
phytomass
rhizosphere
root colonization
spore
Arbuscular
Bacillus megaterium
Bacteria (microorganisms)
Fungi
Glomus
Glomus intraradices
Zea mays
Fernández, Laura
Bompadre, María Josefina
Pérgola, Mariana
Silvani, Vanesa Analía
Godeas, Alicia Margarita
Differential interaction between two Glomus intraradices strains and a phosphate solubilizing bacterium in maize rhizosphere
topic_facet Bacillus megaterium
Extraradical-mycelium growth patterns
Glomus intraradices
Microbial interactions
arbuscular mycorrhiza
bacterium
biological production
fungus
greenhouse ecosystem
growth rate
host plant
hypothesis testing
inoculation
interspecific interaction
maize
nutrient availability
persistence
phosphate
phytomass
rhizosphere
root colonization
spore
Arbuscular
Bacillus megaterium
Bacteria (microorganisms)
Fungi
Glomus
Glomus intraradices
Zea mays
description Arbuscular mycorrhizal (AM) fungi and phosphate solubilizing bacteria (PSB) have a positive effect on plant productivity primarily through increasing phosphate availability. In order to study the interaction between AM fungi and PSB, we used . Bacillus megaterium, a PSB isolated from the sterilized surface of AM germinated spores, and two strains of the AM fungus . Glomus intraradices with different mycelial architecture. A greenhouse experiment was designed with maize as host plant with the addition of tribasic calcium phosphate. We tested the hypothesis that PSB, intimately linked with AM fungi, could interact differentially with the two AM strains. We concluded that inoculation with the PSB positively affected maize mycorrhization. Insoluble phosphate alone did not influence the AM extraradical mycelium (ERM) length and maize mycorrhization when bacteria were not inoculated. The results provide evidence that the adverse effect on infectivity for some AM strains might be caused by solubilized phosphorus release to the rhizosphere by PSB. Differences related to the mycelium architecture of each AM strain were observed: the density of PSB in rhizosphere soil was significantly higher only with the GA8 strain coinciding with the highest values of maize biomass. The density of bacteria associated with GA8 mycelium could be the result of the transfer of photosynthates through the rhizosphere; this close contact would favor the persistence of the intimate relationship between PSB and AM hyphae. In the bacteria-free treatments, soil adherence was not significantly altered. Although the highest development of ERM occurred with GA5, plants inoculated with GA8 showed the highest values for soil adherence. This may be due to the AM mycelium which modifies bacterial persistence in the rhizosphere and consequently soil adherence. Our results show that for potential applications, some characteristics of the AM strains are key in the selection of the AM fungi-PSB combinations. These include the tolerance to soluble phosphorus, the rate of root colonization, and ERM development that favors the persistence of bacteria in rhizosphere soil. © 2012 Elsevier GmbH.
author Fernández, Laura
Bompadre, María Josefina
Pérgola, Mariana
Silvani, Vanesa Analía
Godeas, Alicia Margarita
author_facet Fernández, Laura
Bompadre, María Josefina
Pérgola, Mariana
Silvani, Vanesa Analía
Godeas, Alicia Margarita
author_sort Fernández, Laura
title Differential interaction between two Glomus intraradices strains and a phosphate solubilizing bacterium in maize rhizosphere
title_short Differential interaction between two Glomus intraradices strains and a phosphate solubilizing bacterium in maize rhizosphere
title_full Differential interaction between two Glomus intraradices strains and a phosphate solubilizing bacterium in maize rhizosphere
title_fullStr Differential interaction between two Glomus intraradices strains and a phosphate solubilizing bacterium in maize rhizosphere
title_full_unstemmed Differential interaction between two Glomus intraradices strains and a phosphate solubilizing bacterium in maize rhizosphere
title_sort differential interaction between two glomus intraradices strains and a phosphate solubilizing bacterium in maize rhizosphere
publishDate 2012
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00314056_v55_n4_p227_FernandezBidondo
http://hdl.handle.net/20.500.12110/paper_00314056_v55_n4_p227_FernandezBidondo
work_keys_str_mv AT fernandezlaura differentialinteractionbetweentwoglomusintraradicesstrainsandaphosphatesolubilizingbacteriuminmaizerhizosphere
AT bompadremariajosefina differentialinteractionbetweentwoglomusintraradicesstrainsandaphosphatesolubilizingbacteriuminmaizerhizosphere
AT pergolamariana differentialinteractionbetweentwoglomusintraradicesstrainsandaphosphatesolubilizingbacteriuminmaizerhizosphere
AT silvanivanesaanalia differentialinteractionbetweentwoglomusintraradicesstrainsandaphosphatesolubilizingbacteriuminmaizerhizosphere
AT godeasaliciamargarita differentialinteractionbetweentwoglomusintraradicesstrainsandaphosphatesolubilizingbacteriuminmaizerhizosphere
_version_ 1768545867717935104

Ejemplares similares