Estudo da comunidade de bactérias metanotróficas em uma cronossequência de solos da Amazônia.

Tessaro, Simone

doi:10.11606/d.42.2013.tde-23042013-090105

Cited by 3 publications

(4 citation statements)

References 148 publications

(127 reference statements)

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“…Using soils from the same region, without homogenization, Kroeger et al (2021) carried out incubations with atmospheres at 30,000 ppm of 13 CH 4 over seven months, resulting in an enrichment of methanotrophs in forest soils. However, investigating forest soils from the western Amazon, the enrichment for isolation with minimal mineral medium under an atmosphere of 100,000 ppm 13 CH 4 , Tessaro (2013) observed total uptake of methane after 60 hours of incubation, suggesting that different soils might result in very distinct methane uptake rates that are related to soil community composition and edaphic factors.…”

Section: Discussionmentioning

confidence: 98%

“…However, investigating forest soils from the western Amazon, the enrichment for isolation with minimal mineral medium under an atmosphere of 100,000 ppm 13 CH4, Tessaro (2013) observed total uptake of methane after 60 hours of incubation, suggesting that different soils might result in very distinct methane uptake rates that are related to soil community composition and edaphic factors.…”

Section: Discussionmentioning

confidence: 99%

“…Members of Methylocella sp., a genus within the Beijerinckiaceae, were detected in acidic pasture soils in the same region by Kroeger et al (2021), but without observation of Methylocaldum sp. Tessaro (2013) detected Methylocaldum sp . in forest and pasture samples in the Western Amazon, but not Beijerinckiaceae.…”

Section: Discussionmentioning

confidence: 99%

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Liming pasture soils in the Amazon region promotes low-affinity methane oxidation by type I and II methanotrophs

de Souza,

Nakamura,

Kroeger

et al. 2024

Preprint

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In the Amazon Forest region, cattle pastures are the main land use subsequent to deforestation. This land-use change affects the soil microbial community and methane fluxes, shifting the soil from a methane sink to a source. Soil physical and chemical attributes are changed due to slash-and-burn processes, including an increased soil pH after forest-to-pasture conversion. Without amendments, the pasture soils can become acidic again resulting in many cases in soil degradation. Liming is a standard management practice to increase soil pH while decreasing Al3+availability. Liming is important to recover these degraded lands and increase soil fertility, but its impact on soil methane cycling in tropical soils is unknown. Here we investigated the role of soil pH on methane uptake under high concentrations of the gas. The top layer of forest (pH 4.1) and adjacent pasture soils (pH 4.8) from the Eastern Amazon were subjected to liming treatment (final pH 5.8) and incubated with ∼10,000 ppm of13CH4for 24 days to label DNA with13C. Soil DNA was evaluated with Stable Isotopic Probing (SIP-DNA), methanotrophic abundance was quantified (pmoAgene), and high throughput sequencing of 16SrRNAwas performed. Liming increased the methane uptake in both forest (∼10%) and pasture (∼25%) soils. MethanotrophsMethylocaldum sp. (type I) and Beijerinckaceae (type II) were identified to actively incorporate carbon from methane in limed pasture soils. In limed forest soils,Nitrososphaeraceae,Lysobactersp., andAcidothermus sp. were identified as13C-enriched taxa. The enrichment of the archaeal familyNitrososphaeraceae, known as ammonia oxidizers, is correlated with an increase of ammonia monooxygenase genes, which code for an enzyme complex with wide substrate specificity that can also perform methane oxidation. In conclusion, liming Amazonian pasture soils not only contributes to the fertility and recovery of degraded areas but also has the potential to improve the oxidation of methane at high concentrations of this gas.

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Section: Discussionmentioning

confidence: 98%

Section: Discussionmentioning

confidence: 99%

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Liming pasture soils in the Amazon region promotes low-affinity methane oxidation by type I and II methanotrophs

de Souza,

Nakamura,

Kroeger

et al. 2024

Preprint

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“…As bactérias metanotróficas constituem um grupo único de microrganismos, fisiologicamente distinto por sua habilidade em utilizar o CH 4 como única fonte de C e energia com a capacidade de oxidá-lo biologicamente, proporcionando uma grande economia de energia em comparação com a assimilação de carbono por organismos autotróficos. Estas representam um importante papel no fluxo líquido de metano no sistema solo-atmosfera, formando uma barreira biológica no solo (TESSARO, 2012;COSTELLO;LIDSTROM, 1999;MADIGAN et al, 2012).…”

Section: Produção E Oxidação Do Metanounclassified

Microbiologia do solo

Cardoso

Andreote

2020

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Enrichment and activity of methanotrophic microorganisms from municipal wastewater sludge

Siniscalchi

Vale

Dell'Isola

et al. 2015

Environmental Technology

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In this study, methanotrophic microorganisms were enriched from a municipal wastewater sludge taken from an Upflow Anaerobic Sludge Blanket reactor. The enrichment was performed in a sequencing batch reactor (SBR) with an autotrophic medium containing nitrite and nitrate. The microbial community composition of the inoculum and of the enrichment culture after 100 days of SBR operation was investigated and compared with the help of data obtained from 454 pyrosequencing analyses. The nitrite and nitrate removal efficiencies were 68% and 53%, respectively, probably due to heterotrophic denitrification. Archaeal cells of the anaerobic methanotrophic Archaic (ANME)-I and ANME-II groups were detected by polymerase chain reaction throughout the whole cultivation period. Pyrosequencing analysis showed that community composition was different among the two samples analysed. The dominant phyla found in the inoculum were Synergistestes, Firmicutes and Euryarchaeota, while Planctomycetes, Verrucomicrobia, Chloroflexi and Proteobacteria prevailed in the enriched biomass. The cultivation conditions decreased Methanobacterium abundance from 8% to 1%, and enriched for methanotrophic bacteria such as Methylocaldum, Methylocistis and Methylosinus. Sequences of Methylocaldum sp. accounted for 2.5% of the total reads. The presence and high predominance of Verrucomicrobia in the enriched biomass suggested that other unknown methanotrophic species related to that phylum might also have occurred in the reactor. Anaerobic methane oxidation activity was measured for both samples, and showed that the activity of the enrichment culture was nearly three times higher than the activity of the inoculum. Taken together, these results showed that the inoculum type and cultivation conditions were properly suited for methanotrophic enrichment.

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Estudo da comunidade de bactérias metanotróficas em uma cronossequência de solos da Amazônia.

Cited by 3 publications

References 148 publications

Liming pasture soils in the Amazon region promotes low-affinity methane oxidation by type I and II methanotrophs

Liming pasture soils in the Amazon region promotes low-affinity methane oxidation by type I and II methanotrophs

Microbiologia do solo

Enrichment and activity of methanotrophic microorganisms from municipal wastewater sludge

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