Bacteria diversity and microbial biomass in forest, pasture and fallow soils in the southwestern Amazon basin

Cenciani, Karina; Lambais, Márcio Rodrigues; Cerri, Carlos Clemente; Azevedo, Lucas Carvalho Basilio; Feigl, Brigitte Josefine

doi:10.1590/s0100-06832009000400015

Cited by 51 publications

(70 citation statements)

References 28 publications

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“…Only in Brazil the total area is 5.1 million km 2 (Fearnside, 2005). Despite its great beauty and exuberance, the Amazon rainforest is found in soils of low fertility, while its maintenance depends on the cycling of nutrients from vegetation covering (Cenciani et al, 2009). The quality and soil fertility are defined from the point of view of some essential attributes that maintain the agricultural productivity, namely as: soil ability to promote plant growth, water supply and nutrient processing, efficient gases exchange in the atmosphere-soil interface and the activity of micro and macro organisms (Dilly & Nannipieri, 2001).…”

Section: Microbial Biomass In Amazonian Soilsmentioning

confidence: 99%

“…In this context it is highlighted the role of soil microbial biomass (SMB), defined as the living portion of soil organic matter, excluding roots and larger organisms than, approximately, 5000 m 3 . The microbial biomass comprises the dormant and the metabolically active organisms in the soil; performing a primary role for maintenance and the products of microbial recycling are then absorbed by plant roots (Cenciani et al, 2009). Soil quality or even "soil health" can be analyzed by the activity of microbial biomass, one of few active fractions of organic matter, sensitive to tillage and that can be quantified.…”

Section: Microbial Biomass In Amazonian Soilsmentioning

confidence: 99%

“…The quality and soil fertility are defined from the point of view of some essential attributes that maintain the agricultural productivity, namely as: soil ability to promote plant growth, water supply and nutrient processing, efficient gases exchange in the atmosphere-soil interface and the activity of micro and macro organisms (Dilly & Nannipieri, 2001). In this context it is highlighted the role of soil microbial biomass (SMB), defined as the living portion of soil organic matter, excluding roots and larger organisms than, approximately, 5000 m 3 (Cenciani et al, 2009). In recent years many technological advances and the development of new and independent cultivation techniques led microbiologists to explore more precisely the "black box" of soil microbial diversity.…”

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confidence: 99%

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Genetic and Functional Diversities of Microbial Communities in Amazonian Soils Under Different Land Uses and Cultivation

Cenciani¹,

Mazzetto²,

Lammel³

et al. 2011

Biomass - Detection, Production and Usage

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Section: Microbial Biomass In Amazonian Soilsmentioning

confidence: 99%

Section: Microbial Biomass In Amazonian Soilsmentioning

confidence: 99%

mentioning

confidence: 99%

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Genetic and Functional Diversities of Microbial Communities in Amazonian Soils Under Different Land Uses and Cultivation

Cenciani¹,

Mazzetto²,

Lammel³

et al. 2011

Biomass - Detection, Production and Usage

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“…In this context, Brazil has been slowing down deforestation by trying to make better use of already cleared land (Tollefson, 2010). However, the establishment of policies for the sustainable use of land in the Amazon region requires considering not only the diversity of flora and fauna but also the aspects of microbial ecology and biogeochemistry represented in this region as well (Piccolo et al, 1994;Borneman & Triplett, 1997;Moraes et al, 2002;Cenciani et al, 2009;Chaves et al, 2009;Jesus et al, 2009;O'Neill et al, 2009;Pazinato et al, 2010).…”

Section: Introductionmentioning

confidence: 99%

Land-use systems affect Archaeal community structure and functional diversity in western Amazon soils

Navarrete¹,

Taketani²,

Mendes³

et al. 2011

Rev. Bras. Ciênc. Solo

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SUMMARYThe study of the ecology of soil microbial communities at relevant spatial scales is primordial in the wide Amazon region due to the current land use changes. In this study, the diversity of the Archaea domain (community structure) and ammonia-oxidizing Archaea (richness and community composition) were investigated using molecular biology- (H' = 1,9629; D = 0,1715), cultivo agrícola (H' = 1,4613; D = 0,3309) e floresta secundária (H' = 0,8633; D = 0,5405

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“…Determination of significant shifts in the structure of the bacterial community, based on the profiles of 16S rRNA gene amplicons after denaturing gradient gel electrophoresis (PCR-DGGE), were observed in soils under forest, pasture, organic, and conventional management systems (Cookson et al, 2007;Liu et al, 2007;Cenciani et al, 2009;Rachid et al, 2012). …”

Section: Introductionmentioning

confidence: 99%

Early Changes in Soil Metabolic Diversity and Bacterial Community Structure in Sugarcane under Two Harvest Management Systems

Azevedo

Morais

Lambais

2015

Rev. Bras. Ciênc. Solo

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Preharvest burning is widely used in brazil for sugarcane cropping. however, due to environmental restrictions, harvest without burning is becoming the predominant option. Consequently, changes in the microbial community are expected from crop residue accumulation on the soil surface, as well as alterations in soil metabolic diversity as of the first harvest. Because biological properties respond quickly and can be used to monitor environmental changes, we evaluated soil metabolic diversity and bacterial community structure after the first harvest under sugarcane management without burning compared to management with preharvest burning. soil samples were collected under three sugarcane varieties (sP813250, sP801842 and rb72454) and two harvest management systems (without and with preharvest burning). Microbial biomass C (MbC), carbon (C) substrate utilization profiles, bacterial community structure (based on profiles of 16S rRNA gene amplicons), and soil chemical properties were determined. MbC was not different among the treatments. C-substrate utilization and metabolic diversity were lower in soil without burning, except for the evenness index of C-substrate utilization. soil samples under the variety sP801842 showed the greatest changes in substrate utilization and metabolic diversity, but showed no differences in bacterial community structure, regardless of the harvest management system. in conclusion, combined analysis of soil chemical and microbiological data can detect early changes in microbial metabolic capacity and diversity, with lower values in management without burning. However, after the first harvest, there were no changes in the soil bacterial community structure detected by PCr-DggE under the sugarcane variety

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Bacteria diversity and microbial biomass in forest, pasture and fallow soils in the southwestern Amazon basin

Cited by 51 publications

References 28 publications

Genetic and Functional Diversities of Microbial Communities in Amazonian Soils Under Different Land Uses and Cultivation

Genetic and Functional Diversities of Microbial Communities in Amazonian Soils Under Different Land Uses and Cultivation

Land-use systems affect Archaeal community structure and functional diversity in western Amazon soils

Early Changes in Soil Metabolic Diversity and Bacterial Community Structure in Sugarcane under Two Harvest Management Systems

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