Structure, composition and metagenomic profile of soil microbiomes associated to agricultural land use and tillage systems in Argentine Pampas

Structure, composition and metagenomic profile of soil microbiomes associated to agricultural land use and tillage systems in Argentine Pampas

Agriculture is facing a major challenge nowadays: to increase crop production for food and energy while preserving ecosystem functioning and soil quality. Argentine Pampas is one of the main world producers of crops and one of the main adopters of conservation agriculture. Changes in soil chemical and physical properties of Pampas soils due to different tillage systems have been deeply studied. Still, not much evidence has been reported on the effects of agricultural practices on Pampas soil microbiomes. The aim of our study was to investigate the effects of agricultural land use on community structure, composition and metabolic profiles on soil microbiomes of Argentine Pampas. We also compared the effects associated to conventional practices with the effects of no-tillage systems. Our results confirmed the impact on microbiome structure and composition due to agricultural practices. The phyla Verrucomicrobia, Plactomycetes, Actinobacteria, and Chloroflexi were more abundant in non cultivated soils while Gemmatimonadetes, Nitrospirae and WS3 were more abundant in cultivated soils. Effects on metabolic metagenomic profiles were also observed. The relative abundance of genes assigned to transcription, protein modification, nucleotide transport and metabolism, wall and membrane biogenesis and intracellular trafficking and secretion were higher in cultivated fertilized soils than in non cultivated soils. We also observed significant differences in microbiome structure and taxonomic composition between soils under conventional and notillage systems. Overall, our results suggest that agronomical land use and the type of tillage system have induced microbiomes to shift their life-history strategies. Microbiomes of cultivated fertilized soils (i.e. higher nutrient amendment) presented tendencies to copiotrophy while microbiomes of non cultivated homogenous soils appeared to have a more oligotrophic life-style. Additionally, we propose that conventional tillage systems may promote copiotrophy more than notillage systems by decreasing soil organic matter stability and therefore increasing nutrient availability.

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Main Authors: Carbonetto, B., Rascovan, N., Alvarez, R., Mentaberry, A., Vázquez, M. P.
Format: info:eu-repo/semantics/article biblioteca
Language:eng
Subjects:ACTINOBACTERIA, AGRICULTURAL LAND, ARGENTINA, BACTERIAL GENE, BACTERIUM, CHLOROFLEXI, COMMUNITY STRUCTURE, CONSERVATION TILLAGE, CONTROLLED STUDY, GEMMATIMONADETES, METAGENOMICS, NITROSPIRAE, NO TILLAGE, NONHUMAN, PAMPAS, PLANCTOMYCETES, POPULATION ABUNDANCE, SOIL MICROFLORA, SPECIES COMPOSITION, TILLAGE, VERRUCOMICROBIA,
Online Access:http://ri.agro.uba.ar/greenstone3/library/collection/arti/document/2014carbonetto
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spelling snrd:2014carbonetto2021-10-15T16:56:07Z Carbonetto, B. Rascovan, N. Alvarez, R. Mentaberry, A. Vázquez, M. P. 2014 Agriculture is facing a major challenge nowadays: to increase crop production for food and energy while preserving ecosystem functioning and soil quality. Argentine Pampas is one of the main world producers of crops and one of the main adopters of conservation agriculture. Changes in soil chemical and physical properties of Pampas soils due to different tillage systems have been deeply studied. Still, not much evidence has been reported on the effects of agricultural practices on Pampas soil microbiomes. The aim of our study was to investigate the effects of agricultural land use on community structure, composition and metabolic profiles on soil microbiomes of Argentine Pampas. We also compared the effects associated to conventional practices with the effects of no-tillage systems. Our results confirmed the impact on microbiome structure and composition due to agricultural practices. The phyla Verrucomicrobia, Plactomycetes, Actinobacteria, and Chloroflexi were more abundant in non cultivated soils while Gemmatimonadetes, Nitrospirae and WS3 were more abundant in cultivated soils. Effects on metabolic metagenomic profiles were also observed. The relative abundance of genes assigned to transcription, protein modification, nucleotide transport and metabolism, wall and membrane biogenesis and intracellular trafficking and secretion were higher in cultivated fertilized soils than in non cultivated soils. We also observed significant differences in microbiome structure and taxonomic composition between soils under conventional and notillage systems. Overall, our results suggest that agronomical land use and the type of tillage system have induced microbiomes to shift their life-history strategies. Microbiomes of cultivated fertilized soils (i.e. higher nutrient amendment) presented tendencies to copiotrophy while microbiomes of non cultivated homogenous soils appeared to have a more oligotrophic life-style. Additionally, we propose that conventional tillage systems may promote copiotrophy more than notillage systems by decreasing soil organic matter stability and therefore increasing nutrient availability. application/pdf 10.1371/journal.pone.0099949 1932-6203 http://ri.agro.uba.ar/greenstone3/library/collection/arti/document/2014carbonetto eng info:eu-repo/semantics/openAccess openAccess http://ri.agro.uba.ar/greenstone3/library/page/biblioteca#section4 Plos One Vol.9, no.6 e99949 http://www.plosone.org/ ACTINOBACTERIA AGRICULTURAL LAND ARGENTINA BACTERIAL GENE BACTERIUM CHLOROFLEXI COMMUNITY STRUCTURE CONSERVATION TILLAGE CONTROLLED STUDY GEMMATIMONADETES METAGENOMICS NITROSPIRAE NO TILLAGE NONHUMAN PAMPAS PLANCTOMYCETES POPULATION ABUNDANCE SOIL MICROFLORA SPECIES COMPOSITION TILLAGE VERRUCOMICROBIA Structure, composition and metagenomic profile of soil microbiomes associated to agricultural land use and tillage systems in Argentine Pampas info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion publishedVersion
institution UBA
collection DSpace
country Argentina
countrycode AR
component Bibliográfico
access En linea
databasecode dig-ubafa
tag biblioteca
region America del Sur
libraryname Biblioteca Facultad de Agronomía
language eng
topic ACTINOBACTERIA
AGRICULTURAL LAND
ARGENTINA
BACTERIAL GENE
BACTERIUM
CHLOROFLEXI
COMMUNITY STRUCTURE
CONSERVATION TILLAGE
CONTROLLED STUDY
GEMMATIMONADETES
METAGENOMICS
NITROSPIRAE
NO TILLAGE
NONHUMAN
PAMPAS
PLANCTOMYCETES
POPULATION ABUNDANCE
SOIL MICROFLORA
SPECIES COMPOSITION
TILLAGE
VERRUCOMICROBIA
ACTINOBACTERIA
AGRICULTURAL LAND
ARGENTINA
BACTERIAL GENE
BACTERIUM
CHLOROFLEXI
COMMUNITY STRUCTURE
CONSERVATION TILLAGE
CONTROLLED STUDY
GEMMATIMONADETES
METAGENOMICS
NITROSPIRAE
NO TILLAGE
NONHUMAN
PAMPAS
PLANCTOMYCETES
POPULATION ABUNDANCE
SOIL MICROFLORA
SPECIES COMPOSITION
TILLAGE
VERRUCOMICROBIA
spellingShingle ACTINOBACTERIA
AGRICULTURAL LAND
ARGENTINA
BACTERIAL GENE
BACTERIUM
CHLOROFLEXI
COMMUNITY STRUCTURE
CONSERVATION TILLAGE
CONTROLLED STUDY
GEMMATIMONADETES
METAGENOMICS
NITROSPIRAE
NO TILLAGE
NONHUMAN
PAMPAS
PLANCTOMYCETES
POPULATION ABUNDANCE
SOIL MICROFLORA
SPECIES COMPOSITION
TILLAGE
VERRUCOMICROBIA
ACTINOBACTERIA
AGRICULTURAL LAND
ARGENTINA
BACTERIAL GENE
BACTERIUM
CHLOROFLEXI
COMMUNITY STRUCTURE
CONSERVATION TILLAGE
CONTROLLED STUDY
GEMMATIMONADETES
METAGENOMICS
NITROSPIRAE
NO TILLAGE
NONHUMAN
PAMPAS
PLANCTOMYCETES
POPULATION ABUNDANCE
SOIL MICROFLORA
SPECIES COMPOSITION
TILLAGE
VERRUCOMICROBIA
Carbonetto, B.
Rascovan, N.
Alvarez, R.
Mentaberry, A.
Vázquez, M. P.
Structure, composition and metagenomic profile of soil microbiomes associated to agricultural land use and tillage systems in Argentine Pampas
description Agriculture is facing a major challenge nowadays: to increase crop production for food and energy while preserving ecosystem functioning and soil quality. Argentine Pampas is one of the main world producers of crops and one of the main adopters of conservation agriculture. Changes in soil chemical and physical properties of Pampas soils due to different tillage systems have been deeply studied. Still, not much evidence has been reported on the effects of agricultural practices on Pampas soil microbiomes. The aim of our study was to investigate the effects of agricultural land use on community structure, composition and metabolic profiles on soil microbiomes of Argentine Pampas. We also compared the effects associated to conventional practices with the effects of no-tillage systems. Our results confirmed the impact on microbiome structure and composition due to agricultural practices. The phyla Verrucomicrobia, Plactomycetes, Actinobacteria, and Chloroflexi were more abundant in non cultivated soils while Gemmatimonadetes, Nitrospirae and WS3 were more abundant in cultivated soils. Effects on metabolic metagenomic profiles were also observed. The relative abundance of genes assigned to transcription, protein modification, nucleotide transport and metabolism, wall and membrane biogenesis and intracellular trafficking and secretion were higher in cultivated fertilized soils than in non cultivated soils. We also observed significant differences in microbiome structure and taxonomic composition between soils under conventional and notillage systems. Overall, our results suggest that agronomical land use and the type of tillage system have induced microbiomes to shift their life-history strategies. Microbiomes of cultivated fertilized soils (i.e. higher nutrient amendment) presented tendencies to copiotrophy while microbiomes of non cultivated homogenous soils appeared to have a more oligotrophic life-style. Additionally, we propose that conventional tillage systems may promote copiotrophy more than notillage systems by decreasing soil organic matter stability and therefore increasing nutrient availability.
format info:eu-repo/semantics/article
topic_facet ACTINOBACTERIA
AGRICULTURAL LAND
ARGENTINA
BACTERIAL GENE
BACTERIUM
CHLOROFLEXI
COMMUNITY STRUCTURE
CONSERVATION TILLAGE
CONTROLLED STUDY
GEMMATIMONADETES
METAGENOMICS
NITROSPIRAE
NO TILLAGE
NONHUMAN
PAMPAS
PLANCTOMYCETES
POPULATION ABUNDANCE
SOIL MICROFLORA
SPECIES COMPOSITION
TILLAGE
VERRUCOMICROBIA
author Carbonetto, B.
Rascovan, N.
Alvarez, R.
Mentaberry, A.
Vázquez, M. P.
author_facet Carbonetto, B.
Rascovan, N.
Alvarez, R.
Mentaberry, A.
Vázquez, M. P.
author_sort Carbonetto, B.
title Structure, composition and metagenomic profile of soil microbiomes associated to agricultural land use and tillage systems in Argentine Pampas
title_short Structure, composition and metagenomic profile of soil microbiomes associated to agricultural land use and tillage systems in Argentine Pampas
title_full Structure, composition and metagenomic profile of soil microbiomes associated to agricultural land use and tillage systems in Argentine Pampas
title_fullStr Structure, composition and metagenomic profile of soil microbiomes associated to agricultural land use and tillage systems in Argentine Pampas
title_full_unstemmed Structure, composition and metagenomic profile of soil microbiomes associated to agricultural land use and tillage systems in Argentine Pampas
title_sort structure, composition and metagenomic profile of soil microbiomes associated to agricultural land use and tillage systems in argentine pampas
url http://ri.agro.uba.ar/greenstone3/library/collection/arti/document/2014carbonetto
work_keys_str_mv AT carbonettob structurecompositionandmetagenomicprofileofsoilmicrobiomesassociatedtoagriculturallanduseandtillagesystemsinargentinepampas
AT rascovann structurecompositionandmetagenomicprofileofsoilmicrobiomesassociatedtoagriculturallanduseandtillagesystemsinargentinepampas
AT alvarezr structurecompositionandmetagenomicprofileofsoilmicrobiomesassociatedtoagriculturallanduseandtillagesystemsinargentinepampas
AT mentaberrya structurecompositionandmetagenomicprofileofsoilmicrobiomesassociatedtoagriculturallanduseandtillagesystemsinargentinepampas
AT vazquezmp structurecompositionandmetagenomicprofileofsoilmicrobiomesassociatedtoagriculturallanduseandtillagesystemsinargentinepampas
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