2021
A Microbial Consortium Removing Phosphates under Conditions of Cyclic Aerobic-Anaerobic Cultivation
Pelevina A, Berestovskaya Y, Grachev V, Dorofeeva I, Sorokin V, Dorofeev A, Kallistova A, Nikolaev Y, Kotlyarov R, Beletskii A, Ravin N, Pimenov N, Mardanov A. A Microbial Consortium Removing Phosphates under Conditions of Cyclic Aerobic-Anaerobic Cultivation. Microbiology 2021, 90: 66-77. DOI: 10.1134/s0026261721010082.Peer-Reviewed Original ResearchSequential batch reactorRRNA gene fragmentsHigh-throughput sequencingAbundance of BacteroidetesClass BetaproteobacteriaLaboratory sequential batch reactorCommunity compositionAbundance of heterotrophsBeta-ProteobacteriaGene fragmentsFamily RhodocyclaceaeDecreased diversityInflowing mediumGenus ZoogloeaGenusHighest phosphorus removalPhosphorus removalAnaerobic conditionsBatch reactorCandidatus AccumulibacterReactor operationGenus DechloromonasAbundanceRemove phosphateIncoming media
2020
Investigation of Formation and Development of Anammox Biofilms by Light, Epifluorescence, and Electron Microscopy
Kallistova A, Nikolaev Y, Mardanov A, Berestovskaya Y, Grachev V, Kostrikina N, Pelevina A, Ravin N, Pimenov N. Investigation of Formation and Development of Anammox Biofilms by Light, Epifluorescence, and Electron Microscopy. Microbiology 2020, 89: 708-719. DOI: 10.1134/s0026261720060077.Peer-Reviewed Original ResearchSequencing batch reactorAnammox bacteriaBiofilm formationExtracellular polymeric substancesLaboratory sequencing batch reactorRRNA gene fragmentsHigh-throughput sequencingElectron microscopyAnaerobic organotrophsRod-shapedGene fragmentsAnammox biofilmPhyla ChloroflexiAnammox bacteria CaAnammox processColony ageBiomass retentionGenus CaBatch reactorEpifluorescence microscopyBiofilmBacteriaSulfate reducersStructural organizationAnammox
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