Search results for "Methanobacteriaceae"

showing 3 items of 3 documents

Group-specific quantification of methanotrophs in landfill gas-purged laboratory biofilters by tyramide signal amplification-fluorescence in situ hyb…

2008

The aim of this study was to quantitatively analyse methanotrophs in two laboratory landfill biofilters at different biofilter depths and at temperatures which mimicked the boreal climatic conditions. Both biofilters were dominated by type I methanotrophs. The biofilter depth profiles showed that type I methanotrophs occurred in the upper layer, where relatively high O(2) and low CH(4) concentrations were present, whereas type II methanotrophs were mostly distributed in the zone with high CH(4) and low O(2) concentrations. The number of type I methanotrophic cells declined when the temperature was raised from 15 degrees C to 23 degrees C, but increased when lowered to 5 degrees C. A slight …

MethanobacteriaceaeEnvironmental EngineeringType I methanotrophsBioengineeringmedicineWaste Management and DisposalIn Situ Hybridization FluorescenceDNA PrimersType II methanotrophsmedicine.diagnostic_testBase SequenceRenewable Energy Sustainability and the EnvironmentChemistryEnvironmental engineeringGeneral MedicineAmidesRefuse DisposalLandfill gasEnvironmental chemistrySoil waterAnaerobic oxidation of methaneBiofilterGasesOligonucleotide ProbesSignal amplificationFiltrationFluorescence in situ hybridizationBioresource technology
researchProduct

Widespread contribution of methane-cycle bacteria to the diets of lake profundal chironomid larvae.

2008

Reports of unexpectedly 13C-depleted chironomid larvae in lakes have led to an hypothesis that significant transfer of detrital organic matter to chironomid larvae may occur via methane-cycle bacteria. However, to date little is known of how such transfer might vary across species and lakes. We gathered data from 87 lakes to determine how widespread this phenomenon might be and to define boundaries for its likely magnitude. Carbon stable isotope values of chironomid larvae varied greatly between taxa. Very marked 13C-depletion was evident only in certain taxa, especially Chironomus plumosus, C. anthracinus, and C. tenuistylus, all characteristic of eutrophic or dystrophic lakes and known to…

chemistry.chemical_classificationCarbon IsotopesMethanobacteriaceaeFood ChainbiologyEcologyFresh Waterbiology.organism_classificationChironomidaeFood webChironomidaeOxygenchemistryLarvaparasitic diseasesChironomus plumosusAnimalsOrganic matterProfundal zoneBiomassHypolimnionEutrophicationMethaneEcology Evolution Behavior and SystematicsChironomus anthracinusEcology
researchProduct

Exploring the mechanisms by which reindeer droppings induce fen peat methane production

2021

Abstract Peatlands, especially fens, are known to emit methane. Reindeer (Rangifer tarandus) use mires mainly as spring and summer pastures. In this work we observed that adding reindeer droppings to fen peat increased the potential methane production by 40%. This became apparent when droppings originating from reindeer kept in pen or pasture in winter were added to methanogenic fen peat samples. The droppings introduced Methanobacteriaceae (Methanobrevibacter; > 90% of the mcrA MiSeq reads) to the peat, which was originally populated by Methanosarcinaceae, Methanosaetaceae, Methanoregulaceae, Methanobacteriaceae, Methanomassiliicoccaceae, Methanocellaceae and Methanomicrobiaceae. The origi…

PeatporosekvensointiMethanobacteriaceaeSoil SciencemetaaniMicrobiologyPastureMethanebakteeritturveRumenchemistry.chemical_compoundulosteetGrazinglaiduntaminenmethanogensturvemaatMethanosaetaceaegeographygeography.geographical_feature_categorybiologysequencingDNA04 agricultural and veterinary sciencesmcrA15. Life on landbiology.organism_classificationMethanobrevibacterqPCRmikrobistoAgronomychemistry13. Climate actionpeat040103 agronomy & agriculture0401 agriculture forestry and fisheriesEnvironmental sciencereindeerSoil Biology and Biochemistry
researchProduct