about
Anaerobic Fungi: A Potential Source of Biological H2 in the Oceanic CrustTrace element and temperature effects on microbial communities and links to biogas digester performance at high ammonia levelsBioaugmentation of syntrophic acetate-oxidizing culture in biogas reactors exposed to increasing levels of ammoniaSyntrophaceticus schinkii gen. nov., sp. nov., an anaerobic, syntrophic acetate-oxidizing bacterium isolated from a mesophilic anaerobic filter.Microbial Community Structure in a Serpentine-Hosted Abiotic Gas Seepage at the Chimaera Ophiolite, Turkey.Tepidanaerobacter acetatoxydans sp. nov., an anaerobic, syntrophic acetate-oxidizing bacterium isolated from two ammonium-enriched mesophilic methanogenic processes.Changes in the acetogenic population in a mesophilic anaerobic digester in response to increasing ammonia concentration.Methanogenic population and CH₄ production in swedish dairy cows fed different levels of forage.Expression of barley SUSIBA2 transcription factor yields high-starch low-methane rice.Ammonia threshold for inhibition of anaerobic digestion of thin stillage and the importance of organic loading rateThe microbial community structure in industrial biogas plants influences the degradation rate of straw and cellulose in batch testsEffect of Nickel Levels on Hydrogen Partial Pressure and Methane Production in Methanogens.Bacterial community composition and fhs profiles of low- and high-ammonia biogas digesters reveal novel syntrophic acetate-oxidising bacteria.Quantification of syntrophic acetate-oxidizing microbial communities in biogas processes.Methane Production in Dairy Cows Correlates with Rumen Methanogenic and Bacterial Community Structure.Biogas Production: Microbiology and Technology.Novel Syntrophic Populations Dominate an Ammonia-Tolerant Methanogenic Microbiome.Draft Genome Sequence of the Cellulolytic Strain Clostridium sp. Bc-iso-3 Isolated from an Industrial-Scale Anaerobic Digester.Complete Genome Sequence of the Methanogen Methanoculleus bourgensis BA1 Isolated from a Biogas Reactor.Semi-continuous anaerobic co-digestion of cow manure and steam-exploded Salix with recirculation of liquid digestate.In situ ammonia production as a sanitation agent during anaerobic digestion at mesophilic temperature.The effect of substrate and operational parameters on the abundance of sulphate-reducing bacteria in industrial anaerobic biogas digesters.Biogas production from wheat straw and manure--impact of pretreatment and process operating parameters.Detection of novel syntrophic acetate-oxidizing bacteria from biogas processes by continuous acetate enrichment approaches.Effects on enteric methane production and bacterial and archaeal communities by the addition of cashew nut shell extract or glycerol-an in vitro evaluation.Comparison of operating strategies for increased biogas production from thin stillage.Effect of start-up strategies and electrode materials on carbon dioxide reduction on bio-cathodes.Comparative characterization of digestate versus pig slurry and cow manure - Chemical composition and effects on soil microbial activity.Importance of inoculum source and initial community structure for biogas production from agricultural substrates.Syntrophic acetate oxidation in industrial CSTR biogas digesters.Genome-Guided Analysis of Clostridium ultunense and Comparative Genomics Reveal Different Strategies for Acetate Oxidation and Energy Conservation in Syntrophic Acetate-Oxidising Bacteria.Substrate-Induced Response in Biogas Process Performance and Microbial Community Relates Back to Inoculum SourceImproved bio-energy yields via sequential ethanol fermentation and biogas digestion of steam exploded oat strawImpact of trace element addition on degradation efficiency of volatile fatty acids, oleic acid and phenyl acetate and on microbial populations in a biogas digesterSulfide level in municipal sludge digesters affects microbial community response to long-chain fatty acid loadsEffects of thermal hydrolytic pre-treatment on biogas process efficiency and microbial community structure in industrial- and laboratory-scale digestersInoculum Source Determines Acetate and Lactate Production during Anaerobic Digestion of Sewage Sludge and Food WasteVolatile fatty acids production via mixed culture fermentation: Revealing the link between pH, inoculum type and bacterial compositionGrowth Characteristics and Thermodynamics of Syntrophic Acetate Oxidizers
P50
Q28597232-1BE8763B-275F-4E44-B30A-76B92292AE1BQ28607397-D723EAF3-5F20-4D2C-B1C0-C3ABCE1C07A2Q28714301-E2EF1BCC-D522-45C6-9F14-2661AAA42D11Q33603594-065E6347-F708-4F58-B746-C6315DA3057AQ33750696-AB59B3E1-DC29-41BA-ADE2-9BB0893001E4Q33874972-BB15FC36-AC10-4F86-90BA-BDB911B06739Q34003428-66B2FB55-D52D-4CDA-A894-15421683832CQ34323530-E55C3494-D66B-4CD4-A0AC-54F278D623E3Q34486350-22E7D074-AEAE-4306-A7A8-B68F2F9693E6Q35873574-FE9DE78F-D0D2-49E2-BC4C-F83BA24E0062Q36058520-4041E80C-18CD-4C57-BEC4-3B0790E3984AQ36228579-3525CF61-5B43-481E-A16D-D92637D91C4BQ36625471-99165CD8-A9C8-427A-BC4A-A06528A02FF6Q36860527-87D54725-EB6E-4051-B2E6-420D44BD163FQ37647559-1C386858-D7DB-484C-B9EC-16FA3CADD2B6Q38901720-FD281E1E-758D-407F-9F45-F6C9890BBFA8Q39206321-E9D3C154-82D7-4945-8FF0-0B40E162F77DQ41608301-AEE1CF60-EF41-4A21-9A87-676C0E1FAC1AQ42009479-994020B7-99E4-4771-81DD-34DF2E58DB17Q43312957-E5483FB4-61A5-453F-879B-96EDFC6B9D9CQ43358068-9BF06E84-3388-445F-8773-D7C8244E6F24Q44506569-2A1B8D61-0BB6-468D-8C32-71D0FAFAB87EQ44845633-33889B89-DEAF-4FFA-9B9C-C7D1D90ADDB9Q46241471-1B4CF672-EB1A-4343-9044-997B22DE7877Q46870319-5E75F25F-EBCA-4173-BDA4-A72067A2785DQ46932233-D9BD7E28-2586-4CB2-9943-5D784A42C279Q47267354-C63339DA-212A-4ECA-9C53-F3BBAFAB1B72Q48008658-3B1A5D12-86E4-43CF-918A-15D155A580F6Q50018407-DE1CF29E-E174-46AF-82FF-AE8C62908166Q50800652-70F8637A-8E72-4526-9133-B5ECBC6808DBQ54994074-AC7D9F58-322C-4A73-AB20-1A56A02840CDQ58799946-02419646-F7BD-4CC4-B753-6658266AD8EEQ61445952-ACF9E625-C056-42B7-A48B-C5EA9BB4A627Q84342708-F2DFE858-448E-4827-ACE4-0CFFFA886143Q91175912-1E45C0E4-3A5E-493C-A03F-E720BE37EE37Q92222172-9321EF72-2940-4057-9AE7-9FD1665C5ADCQ92257057-572C4FE1-E32D-49D5-AE26-3894B7CE74BBQ92501565-50A969B9-F041-4B05-8B36-D9F1B4CCE45DQ93129078-68A69139-1806-43A6-B453-72A8857B5812
P50
description
investigador
@es
researcher
@en
wetenschapper
@nl
name
A Schnürer
@en
A Schnürer
@nl
type
label
A Schnürer
@en
A Schnürer
@nl
prefLabel
A Schnürer
@en
A Schnürer
@nl
P31
P496
0000-0003-0038-553X