Search results for "DENITRIFYING BACTERIA"

showing 10 items of 36 documents

Insights into the effect of soil pH on N(2)O and N(2) emissions and denitrifier community size and activity.

2010

ABSTRACT The objective of this study was to investigate how changes in soil pH affect the N 2 O and N 2 emissions, denitrification activity, and size of a denitrifier community. We established a field experiment, situated in a grassland area, which consisted of three treatments which were repeatedly amended with a KOH solution (alkaline soil), an H 2 SO 4 solution (acidic soil), or water (natural pH soil) over 10 months. At the site, we determined field N 2 O and N 2 emissions using the 15 N gas flux method and collected soil samples for the measurement of potential denitrification activity and quantification of the size of the denitrifying community by quantitative PCR of the narG , napA ,…

DenitrificationSoil testNitrogenNitrous OxideNITROUS-OXIDE EMISSIONSDINITROGENNITRIFICATIONApplied Microbiology and BiotechnologyDNA RibosomalMicrobial EcologyDenitrifying bacteriaSoilSoil pHRNA Ribosomal 16SNitrogen cycleNitritesSoil Microbiology[SDV.EE]Life Sciences [q-bio]/Ecology environmentEcologyNitrogen IsotopesChemistrySoil classificationBiodiversityHydrogen-Ion ConcentrationAgronomySoil waterMetagenomeABUNDANCESoil microbiologyNITRATEFood ScienceBiotechnologyApplied and environmental microbiology
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Ecology of Denitrifying Prokaryotes in Agricultural Soil

2007

Denitrification is a microbial respiratory process during which soluble nitrogen oxides are used as an alternative electron acceptor when oxygen is limiting. It results in considerable loss of nitrogen, which is the most limiting nutrient for crop production in agriculture. Denitrification is also of environmental concern, since it is the main biological process responsible for emissions of nitrous oxide, one of the six greenhouse gases considered by the Kyoto protocol. In addition to natural variations, agroecosystems are characterized by the use of numerous practices, such as fertilization and pesticide application, which can influence denitrification rates. This has been widely documente…

Denitrifying bacteriaDenitrificationEcologyAgriculturebusiness.industryGreenhouse gasPesticide applicationEnvironmental scienceKyoto ProtocolArable landbusinessHuman impact on the nitrogen cycle
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Molecular tools to assess the diversity and density of denitrifying bacteria in their habitats

2007

Publisher Summary This chapter describes the molecular tools to assess the diversity and density of denitrifying bacteria in their habitats. Genome sequencing and metagenomic projects might even provide new denitrification gene sequences, which could aid in designing more broad range primers. Most information is obtained by cloning and sequencing the polymerase chain reaction (PCR) amplicons, but a more rapid analysis is achieved using fingerprinting techniques. As all PCR-based analyses, the fingerprinting techniques are subjected to well-known biases introduced by, e.g., DNA extraction procedures, primer selection, and PCR conditions. For denitrifiers, the PCR-RFLP (restriction fragment l…

EcologydenitrifiersComputational biologyAmpliconBiologydggeDNA extraction[SDE.ES]Environmental Sciences/Environmental and SocietyDNA sequencing[SDE.BE] Environmental Sciences/Biodiversity and EcologyDenitrifying bacteriaTerminal restriction fragment length polymorphismMetagenomics[SDE.ES] Environmental Sciences/Environmental and SocietyRestriction fragment length polymorphism[SDE.BE]Environmental Sciences/Biodiversity and EcologyTemperature gradient gel electrophoresis
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Nitrous oxide from moving bed based integrated fixed film activated sludge membrane bioreactors

2017

Abstract The present paper reports the results of a nitrous oxide (N 2 O) production investigation in a moving bed based integrated fixed film activated sludge (IFAS) membrane bioreactor (MBR) pilot plant designed in accordance with the University of Cape Town layout for biological phosphorous removal. Gaseous and liquid samples were collected in order to measure the gaseous as well as the dissolved concentration of N 2 O. Furthermore, the gas flow rate from each reactor was measured and the gas flux was estimated. The results confirmed that the anoxic reactor represents the main source of nitrous oxide production. A significant production of N 2 O was, however, also found in the anaerobic …

Environmental EngineeringHydraulic retention timeNitrogen0208 environmental biotechnologySettore AGR/13 - Chimica AgrariaBioreactorNitrous Oxidechemistry.chemical_elementPilot Projects02 engineering and technology010501 environmental sciencesManagement Monitoring Policy and LawMembrane bioreactor01 natural sciencesEmission factorWaste Disposal FluidMBRDenitrifying bacteriachemistry.chemical_compoundBioreactorsBioreactorPilot ProjectEmission factor; IFAS; MBR; Nitrous oxide; UCT; Denitrification; Gases; Nitrogen; Nitrous Oxide; Phosphorus; Pilot Projects; Sewage; Waste Disposal Fluid; Bioreactors; Environmental Engineering; Waste Management and Disposal; Management Monitoring Policy and LawWaste Management and Disposal0105 earth and related environmental sciencesSewageSettore ICAR/03 - Ingegneria Sanitaria-AmbientaleChemistryGasePhosphoruPhosphorusGeneral MedicineNitrous oxideIFASNitrogen020801 environmental engineeringPilot plantActivated sludgeEnvironmental chemistryDenitrificationUCTGases
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Calibration of denitrifying activity of polyphosphate accumulating organisms in an extended ASM2d model

2010

Abstract This paper presents the results of an experimental study for the modelling and calibration of denitrifying activity of polyphosphate accumulating organisms (PAOs) in full-scale WWTPs that incorporate simultaneous nitrogen and phosphorus removal. The convenience of using different yields under aerobic and anoxic conditions for modelling biological phosphorus removal processes with the ASM2d has been demonstrated. Thus, parameter ηPAO in the model is given a physical meaning and represents the fraction of PAOs that are able to follow the DPAO metabolism. Using stoichiometric relationships, which are based on assumed biochemical pathways, the anoxic yields considered in the extended A…

Environmental EngineeringNitrogenElectronsPilot ProjectsModels BiologicalWaste Disposal FluidDenitrifying bacteriaPolyphosphatesCalibrationProcess optimizationAnaerobiosisWaste Management and DisposalAcetic AcidWater Science and TechnologyCivil and Structural EngineeringAutotrophic ProcessesNitratesBacteriaSewageChemistryEcological ModelingEnvironmental engineeringPhosphorusPollutionAnoxic watersOxygenPolyphosphate-accumulating organismsPilot plantActivated sludgeEnhanced biological phosphorus removalCalibrationBiological systemWater Research
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Importance of denitrifiers lacking the genes encoding the nitrous oxide reductase for N2O emissions from soil

2010

Analyses of the complete genomes of sequenced denitrifying bacteria revealed that approximately 1/3 have a truncated denitrification pathway, lacking the nosZ gene encoding the nitrous oxide reductase. We investigated whether the number of denitrifiers lacking the genetic ability to synthesize the nitrous oxide reductase in soils is important for the proportion of N2O emitted by denitrification. Serial dilutions of the denitrifying strain Agrobacterium tumefaciens C58 lacking the nosZ gene were inoculated into three different soils to modify the proportion of denitrifiers having the nitrous oxide reductase genes. The potential denitrification and N2O emissions increased when the size of ino…

Global and Planetary Changeeducation.field_of_studyDenitrificationEcologyPopulationDenitrification pathwayNitrous-oxide reductaseBiologyequipment and suppliesDenitrifying bacteriaMicrobial population biologyBotanyEnvironmental ChemistryMicrocosmeducationNitrogen cycleGeneral Environmental ScienceGlobal Change Biology
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Finding the missing link between diversity and activity using denitrifying bacteria as a model functional community

2005

The recent development and application of numerous methods mainly based on 16S rDNA analyses have brought insights into the questions of which and how many bacterial populations can be found in a given ecosystem. A new and challenging question for microbial ecologists has emerged from the exploration of this diversity: what is its significance for ecosystem functioning? We propose the denitrifying bacteria as a model microbial community for understanding the relationship between community structure and activity, and have summarized the recent progress in studies of this functional community.

Microbiology (medical)BacteriaNitrogenEcology[SDV]Life Sciences [q-bio]media_common.quotation_subjectbactérie dénitrifianteCommunity structureBiodiversityBiologyMicrobiologyDenitrifying bacteriaInfectious Diseasesnitrite reductasebacterial populationMicrobial population biologyRNA Ribosomal 16S[SDE]Environmental Sciencesmolecular analysisEcosystemnitrate-reducing communityGENETIQUE DES POPULATIONSEcosystemDiversity (politics)media_commonCurrent Opinion in Microbiology
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Corrigendum to “Quantification of denitrifying bacteria in soils by nirK gene targeted real-time PCR” [J. Microbiol. Methods 59 (2004) 327–335]

2005

Microbiology (medical)Denitrifying bacteriaReal-time polymerase chain reactionBiologyMolecular BiologyMicrobiologyGeneMicrobiologyJournal of Microbiological Methods
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Quantification of denitrifying bacteria in soils by nirK gene targeted real-time PCR.

2004

Abstract Denitrification, the reduction of nitrate to nitrous oxide or dinitrogen, is the major biological mechanism by which fixed nitrogen returns to the atmosphere from soil and water. Microorganisms capable of denitrification are widely distributed in the environment but little is known about their abundance since quantification is performed using fastidious and time-consuming MPN-based approaches. We used real-time PCR to quantify the denitrifying nitrite reductase gene (nirK), a key enzyme of the denitrifying pathway catalyzing the reduction of soluble nitrogen oxide to gaseous form. The real-time PCR assay was linear over 7 orders of magnitude and sensitive down to 102 copies by assa…

Microbiology (medical)Fastidious organismDNA BacterialDenitrificationNitrite ReductasesMicroorganismMolecular Sequence DataRhodobacter sphaeroidesBiologyMicrobiologyAchromobacter cycloclastesPolymerase Chain ReactionSensitivity and SpecificityMicrobiologychemistry.chemical_compoundDenitrifying bacteriaNitrateGram-Negative BacteriaEscherichia coliBradyrhizobiumMolecular BiologyPhylogenySoil MicrobiologyAlcaligenes faecalisBase SequenceSequence Analysis DNANitrite reductasebiology.organism_classificationchemistryBiochemistryNitrogen fixationBacteriaSinorhizobium melilotiJournal of microbiological methods
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Denitrification in pathogenic bacteria : for better or worst ?

2005

A large variety of physiological and taxonomic groups have the ability to use nitrogen oxides as alternative electron acceptors. Brucella spp. is an alpha-proteobacteriaceae that induces a persistent disease in some mammals. Recent work has revealed that a denitrifying gene cluster is important in the interaction of Brucella neotomoae with its host.

Microbiology (medical)Nitrite ReductasesDenitrification[SDV]Life Sciences [q-bio]Brucellamedicine.disease_causeMicrobiologyBrucellosisMicrobiologyMiceDenitrifying bacteriaNitrate Reductasesdenitrifying geneVirologyGene clustermedicineAnimalsNitrogen oxidesRELATION HOTE-PARASITEVirulencebiologyHost (biology)Brucella speciesbactérie dénitrifiantePathogenic bacteriabiology.organism_classificationBrucellaPersistent Diseasenitrogen oxidesInfectious Diseases[SDE]Environmental SciencesOxidoreductases
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