Field response of rice paddy crop to Azospirillum inoculation physiology of rhizosphere bacterial communities and the genetic diversity of endophytic bacteria in different parts of the plants

Field response of rice paddy crop to Azospirillum inoculation physiology of rhizosphere bacterial communities and the genetic diversity of endophytic bacteria in different parts of the plants

The response of rice plants to the application of inoculant containing two Azospirillum brasilense strains was studied under field conditions. The experiment was performed as three treatments with four replicates in randomized complete blocks arranged as plots of 60 m2 in an area on a Vertic Argiudol soil type in the province of Entre Ríos, Argentina. The bacterial rhizosphere community and also the diazotrophic isolates obtained from control and inoculated rice plants were analyzed in relation to their physiology and biological nitrogen fixation [BNF]. The MPN of diazotrophs in the rhizosphere varied during the ontogenic cycle. The patterns of distribution of the microbial physiological activities obtained by principal component analysis of community-level physiological profiles [CLPP] showed differences in the utilization of carbon sources by the rhizosphere communities among treatments. Although the analyses of DGGE 16S and nifH profiles have not indicated that the inoculation influenced the genetic diversity of bacterial communities among treatments, they revealed that the banding profiles were altered in different parts of the rice plant by each Azospirillum inoculation treatment. These observations suggest that physiological responses of plant tissues to the inoculation may have occurred. According to agronomic parameters of each treatment, the Azospirillum inoculation increased aerial biomass at the tillering and grain-filling stages. Although the N content accumulated in rice plants increased by 16 and 50 kg ha-1, the BNF contribution could not be estimated under our experimental conditions by the 15N balance technique. Based on this field inoculation experiment to rice plants, it is noteworthy that our data suggest that due to Azospirillum inoculation the increase of total N accumulated in rice plants could be a tool to help farmers to improve production and maintain high input of plant residues, providing more organic matter to the soil and guaranteeing sustainability of the system.

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Main Authors: García de Salamone, Inés Eugenia, Di Salvo, Luciana Paula, Escobar Ortega, Jhovana S., Sorte, Paulo M. F. Boa, Urquiaga, Segundo, Teixeira, Kátia R. S.
Format: Texto biblioteca
Language:eng
Subjects:ENDOPHYTIC BACTERIAL COMMUNITY, GENETIC DIVERSITY, INOCULANT, N CONTENT, PGPB, RICE, AGRONOMY, BACTERIUM, CROP PRODUCTION, ENDOPHYTE, EXPERIMENTAL STUDY, FUNGUS, GENETIC VARIATION, INOCULATION, NITROGEN FIXATION, PHYSIOLOGICAL RESPONSE, PHYTOMASS, PRINCIPAL COMPONENT ANALYSIS, RHIZOSPHERE, SOIL ORGANIC MATTER, SOIL TYPE, SUSTAINABILITY, AZOSPIRILLUM, AZOSPIRILLUM BRASILENSE, BACTERIA [MICROORGANISMS], ,
Online Access:http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46547
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id KOHA-OAI-AGRO:46547
record_format koha
institution UBA FA
collection Koha
country Argentina
countrycode AR
component Bibliográfico
access En linea
En linea
databasecode cat-ceiba
tag biblioteca
region America del Sur
libraryname Biblioteca Central FAUBA
language eng
topic ENDOPHYTIC BACTERIAL COMMUNITY
GENETIC DIVERSITY
INOCULANT
N CONTENT
PGPB
RICE
AGRONOMY
BACTERIUM
CROP PRODUCTION
ENDOPHYTE
EXPERIMENTAL STUDY
FUNGUS
GENETIC VARIATION
INOCULATION
NITROGEN FIXATION
PHYSIOLOGICAL RESPONSE
PHYTOMASS
PRINCIPAL COMPONENT ANALYSIS
RHIZOSPHERE
SOIL ORGANIC MATTER
SOIL TYPE
SUSTAINABILITY
AZOSPIRILLUM
AZOSPIRILLUM BRASILENSE
BACTERIA [MICROORGANISMS]

ENDOPHYTIC BACTERIAL COMMUNITY
GENETIC DIVERSITY
INOCULANT
N CONTENT
PGPB
RICE
AGRONOMY
BACTERIUM
CROP PRODUCTION
ENDOPHYTE
EXPERIMENTAL STUDY
FUNGUS
GENETIC VARIATION
INOCULATION
NITROGEN FIXATION
PHYSIOLOGICAL RESPONSE
PHYTOMASS
PRINCIPAL COMPONENT ANALYSIS
RHIZOSPHERE
SOIL ORGANIC MATTER
SOIL TYPE
SUSTAINABILITY
AZOSPIRILLUM
AZOSPIRILLUM BRASILENSE
BACTERIA [MICROORGANISMS]
spellingShingle ENDOPHYTIC BACTERIAL COMMUNITY
GENETIC DIVERSITY
INOCULANT
N CONTENT
PGPB
RICE
AGRONOMY
BACTERIUM
CROP PRODUCTION
ENDOPHYTE
EXPERIMENTAL STUDY
FUNGUS
GENETIC VARIATION
INOCULATION
NITROGEN FIXATION
PHYSIOLOGICAL RESPONSE
PHYTOMASS
PRINCIPAL COMPONENT ANALYSIS
RHIZOSPHERE
SOIL ORGANIC MATTER
SOIL TYPE
SUSTAINABILITY
AZOSPIRILLUM
AZOSPIRILLUM BRASILENSE
BACTERIA [MICROORGANISMS]

ENDOPHYTIC BACTERIAL COMMUNITY
GENETIC DIVERSITY
INOCULANT
N CONTENT
PGPB
RICE
AGRONOMY
BACTERIUM
CROP PRODUCTION
ENDOPHYTE
EXPERIMENTAL STUDY
FUNGUS
GENETIC VARIATION
INOCULATION
NITROGEN FIXATION
PHYSIOLOGICAL RESPONSE
PHYTOMASS
PRINCIPAL COMPONENT ANALYSIS
RHIZOSPHERE
SOIL ORGANIC MATTER
SOIL TYPE
SUSTAINABILITY
AZOSPIRILLUM
AZOSPIRILLUM BRASILENSE
BACTERIA [MICROORGANISMS]
García de Salamone, Inés Eugenia
Di Salvo, Luciana Paula
Escobar Ortega, Jhovana S.
Sorte, Paulo M. F. Boa
Urquiaga, Segundo
Teixeira, Kátia R. S.
Field response of rice paddy crop to Azospirillum inoculation physiology of rhizosphere bacterial communities and the genetic diversity of endophytic bacteria in different parts of the plants
description The response of rice plants to the application of inoculant containing two Azospirillum brasilense strains was studied under field conditions. The experiment was performed as three treatments with four replicates in randomized complete blocks arranged as plots of 60 m2 in an area on a Vertic Argiudol soil type in the province of Entre Ríos, Argentina. The bacterial rhizosphere community and also the diazotrophic isolates obtained from control and inoculated rice plants were analyzed in relation to their physiology and biological nitrogen fixation [BNF]. The MPN of diazotrophs in the rhizosphere varied during the ontogenic cycle. The patterns of distribution of the microbial physiological activities obtained by principal component analysis of community-level physiological profiles [CLPP] showed differences in the utilization of carbon sources by the rhizosphere communities among treatments. Although the analyses of DGGE 16S and nifH profiles have not indicated that the inoculation influenced the genetic diversity of bacterial communities among treatments, they revealed that the banding profiles were altered in different parts of the rice plant by each Azospirillum inoculation treatment. These observations suggest that physiological responses of plant tissues to the inoculation may have occurred. According to agronomic parameters of each treatment, the Azospirillum inoculation increased aerial biomass at the tillering and grain-filling stages. Although the N content accumulated in rice plants increased by 16 and 50 kg ha-1, the BNF contribution could not be estimated under our experimental conditions by the 15N balance technique. Based on this field inoculation experiment to rice plants, it is noteworthy that our data suggest that due to Azospirillum inoculation the increase of total N accumulated in rice plants could be a tool to help farmers to improve production and maintain high input of plant residues, providing more organic matter to the soil and guaranteeing sustainability of the system.
format Texto
topic_facet
ENDOPHYTIC BACTERIAL COMMUNITY
GENETIC DIVERSITY
INOCULANT
N CONTENT
PGPB
RICE
AGRONOMY
BACTERIUM
CROP PRODUCTION
ENDOPHYTE
EXPERIMENTAL STUDY
FUNGUS
GENETIC VARIATION
INOCULATION
NITROGEN FIXATION
PHYSIOLOGICAL RESPONSE
PHYTOMASS
PRINCIPAL COMPONENT ANALYSIS
RHIZOSPHERE
SOIL ORGANIC MATTER
SOIL TYPE
SUSTAINABILITY
AZOSPIRILLUM
AZOSPIRILLUM BRASILENSE
BACTERIA [MICROORGANISMS]
author García de Salamone, Inés Eugenia
Di Salvo, Luciana Paula
Escobar Ortega, Jhovana S.
Sorte, Paulo M. F. Boa
Urquiaga, Segundo
Teixeira, Kátia R. S.
author_facet García de Salamone, Inés Eugenia
Di Salvo, Luciana Paula
Escobar Ortega, Jhovana S.
Sorte, Paulo M. F. Boa
Urquiaga, Segundo
Teixeira, Kátia R. S.
author_sort García de Salamone, Inés Eugenia
title Field response of rice paddy crop to Azospirillum inoculation physiology of rhizosphere bacterial communities and the genetic diversity of endophytic bacteria in different parts of the plants
title_short Field response of rice paddy crop to Azospirillum inoculation physiology of rhizosphere bacterial communities and the genetic diversity of endophytic bacteria in different parts of the plants
title_full Field response of rice paddy crop to Azospirillum inoculation physiology of rhizosphere bacterial communities and the genetic diversity of endophytic bacteria in different parts of the plants
title_fullStr Field response of rice paddy crop to Azospirillum inoculation physiology of rhizosphere bacterial communities and the genetic diversity of endophytic bacteria in different parts of the plants
title_full_unstemmed Field response of rice paddy crop to Azospirillum inoculation physiology of rhizosphere bacterial communities and the genetic diversity of endophytic bacteria in different parts of the plants
title_sort field response of rice paddy crop to azospirillum inoculation physiology of rhizosphere bacterial communities and the genetic diversity of endophytic bacteria in different parts of the plants
url http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46547
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spelling KOHA-OAI-AGRO:465472022-10-27T14:50:04Zhttp://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46547AAGField response of rice paddy crop to Azospirillum inoculation physiology of rhizosphere bacterial communities and the genetic diversity of endophytic bacteria in different parts of the plantsGarcía de Salamone, Inés EugeniaDi Salvo, Luciana PaulaEscobar Ortega, Jhovana S.Sorte, Paulo M. F. BoaUrquiaga, SegundoTeixeira, Kátia R. S.textengapplication/pdfThe response of rice plants to the application of inoculant containing two Azospirillum brasilense strains was studied under field conditions. The experiment was performed as three treatments with four replicates in randomized complete blocks arranged as plots of 60 m2 in an area on a Vertic Argiudol soil type in the province of Entre Ríos, Argentina. The bacterial rhizosphere community and also the diazotrophic isolates obtained from control and inoculated rice plants were analyzed in relation to their physiology and biological nitrogen fixation [BNF]. The MPN of diazotrophs in the rhizosphere varied during the ontogenic cycle. The patterns of distribution of the microbial physiological activities obtained by principal component analysis of community-level physiological profiles [CLPP] showed differences in the utilization of carbon sources by the rhizosphere communities among treatments. Although the analyses of DGGE 16S and nifH profiles have not indicated that the inoculation influenced the genetic diversity of bacterial communities among treatments, they revealed that the banding profiles were altered in different parts of the rice plant by each Azospirillum inoculation treatment. These observations suggest that physiological responses of plant tissues to the inoculation may have occurred. According to agronomic parameters of each treatment, the Azospirillum inoculation increased aerial biomass at the tillering and grain-filling stages. Although the N content accumulated in rice plants increased by 16 and 50 kg ha-1, the BNF contribution could not be estimated under our experimental conditions by the 15N balance technique. Based on this field inoculation experiment to rice plants, it is noteworthy that our data suggest that due to Azospirillum inoculation the increase of total N accumulated in rice plants could be a tool to help farmers to improve production and maintain high input of plant residues, providing more organic matter to the soil and guaranteeing sustainability of the system.The response of rice plants to the application of inoculant containing two Azospirillum brasilense strains was studied under field conditions. The experiment was performed as three treatments with four replicates in randomized complete blocks arranged as plots of 60 m2 in an area on a Vertic Argiudol soil type in the province of Entre Ríos, Argentina. The bacterial rhizosphere community and also the diazotrophic isolates obtained from control and inoculated rice plants were analyzed in relation to their physiology and biological nitrogen fixation [BNF]. The MPN of diazotrophs in the rhizosphere varied during the ontogenic cycle. The patterns of distribution of the microbial physiological activities obtained by principal component analysis of community-level physiological profiles [CLPP] showed differences in the utilization of carbon sources by the rhizosphere communities among treatments. Although the analyses of DGGE 16S and nifH profiles have not indicated that the inoculation influenced the genetic diversity of bacterial communities among treatments, they revealed that the banding profiles were altered in different parts of the rice plant by each Azospirillum inoculation treatment. These observations suggest that physiological responses of plant tissues to the inoculation may have occurred. According to agronomic parameters of each treatment, the Azospirillum inoculation increased aerial biomass at the tillering and grain-filling stages. Although the N content accumulated in rice plants increased by 16 and 50 kg ha-1, the BNF contribution could not be estimated under our experimental conditions by the 15N balance technique. Based on this field inoculation experiment to rice plants, it is noteworthy that our data suggest that due to Azospirillum inoculation the increase of total N accumulated in rice plants could be a tool to help farmers to improve production and maintain high input of plant residues, providing more organic matter to the soil and guaranteeing sustainability of the system.ENDOPHYTIC BACTERIAL COMMUNITYGENETIC DIVERSITYINOCULANTN CONTENTPGPBRICEAGRONOMYBACTERIUMCROP PRODUCTIONENDOPHYTEEXPERIMENTAL STUDYFUNGUSGENETIC VARIATIONINOCULATIONNITROGEN FIXATIONPHYSIOLOGICAL RESPONSEPHYTOMASSPRINCIPAL COMPONENT ANALYSISRHIZOSPHERESOIL ORGANIC MATTERSOIL TYPESUSTAINABILITYAZOSPIRILLUMAZOSPIRILLUM BRASILENSEBACTERIA [MICROORGANISMS]Plant and Soil

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