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Journal Abstract Search

183 related items for PubMed ID: 25712194

  • 1. Dynamic variation of the microbial community structure during the long-time mono-fermentation of maize and sugar beet silage.
    Klang J, Theuerl S, Szewzyk U, Huth M, Tölle R, Klocke M.
    Microb Biotechnol; 2015 Sep; 8(5):764-75. PubMed ID: 25712194
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  • 2. Functionally redundant but dissimilar microbial communities within biogas reactors treating maize silage in co-fermentation with sugar beet silage.
    Langer SG, Ahmed S, Einfalt D, Bengelsdorf FR, Kazda M.
    Microb Biotechnol; 2015 Sep; 8(5):828-36. PubMed ID: 26200922
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  • 3. Microbial community analysis of a biogas-producing completely stirred tank reactor fed continuously with fodder beet silage as mono-substrate.
    Klocke M, Mähnert P, Mundt K, Souidi K, Linke B.
    Syst Appl Microbiol; 2007 Mar; 30(2):139-51. PubMed ID: 16697135
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  • 4. Nexus between the microbial diversity level and the stress tolerance within the biogas process.
    Klang J, Szewzyk U, Bock D, Theuerl S.
    Anaerobe; 2019 Apr; 56():8-16. PubMed ID: 30633970
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  • 7. Co-Digestion of Sugar Beet Silage Increases Biogas Yield from Fibrous Substrates.
    Ahmed S, Einfalt D, Kazda M.
    Biomed Res Int; 2016 Apr; 2016():2147513. PubMed ID: 27807538
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  • 8. Microbial community structure and dynamics during anaerobic digestion of various agricultural waste materials.
    Ziganshin AM, Liebetrau J, Pröter J, Kleinsteuber S.
    Appl Microbiol Biotechnol; 2013 Jun; 97(11):5161-74. PubMed ID: 23624683
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  • 9. Metagenome changes in the mesophilic biogas-producing community during fermentation of the green alga Scenedesmus obliquus.
    Wirth R, Lakatos G, Böjti T, Maróti G, Bagi Z, Kis M, Kovács A, Ács N, Rákhely G, Kovács KL.
    J Biotechnol; 2015 Dec 10; 215():52-61. PubMed ID: 26087313
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  • 11. Is the continuous two-stage anaerobic digestion process well suited for all substrates?
    Lindner J, Zielonka S, Oechsner H, Lemmer A.
    Bioresour Technol; 2016 Jan 10; 200():470-6. PubMed ID: 26519699
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  • 12. Characteristics of on-demand biogas production by using sugar beet silage.
    Ahmed S, Kazda M.
    Anaerobe; 2017 Aug 10; 46():114-121. PubMed ID: 28465255
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  • 13. Effect of a Profound Feedstock Change on the Structure and Performance of Biogas Microbiomes.
    Klang J, Szewzyk U, Bock D, Theuerl S.
    Microorganisms; 2020 Jan 25; 8(2):. PubMed ID: 31991721
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  • 15. Microbial community structure in anaerobic co-digestion of grass silage and cow manure in a laboratory continuously stirred tank reactor.
    Wang H, Tolvanen K, Lehtomäki A, Puhakka J, Rintala J.
    Biodegradation; 2010 Feb 25; 21(1):135-46. PubMed ID: 19642000
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  • 16. Effect of enzymatic pretreatment on anaerobic co-digestion of sugar beet pulp silage and vinasse.
    Ziemiński K, Kowalska-Wentel M.
    Bioresour Technol; 2015 Mar 25; 180():274-80. PubMed ID: 25618496
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  • 17. Development of microbial populations in the anaerobic hydrolysis of grass silage for methane production.
    Wang H, Vuorela M, Keränen AL, Lehtinen TM, Lensu A, Lehtomäki A, Rintala J.
    FEMS Microbiol Ecol; 2010 Jun 25; 72(3):496-506. PubMed ID: 20337709
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  • 18. Bacteria and archaea involved in anaerobic digestion of distillers grains with solubles.
    Ziganshin AM, Schmidt T, Scholwin F, Il'inskaya ON, Harms H, Kleinsteuber S.
    Appl Microbiol Biotechnol; 2011 Mar 25; 89(6):2039-52. PubMed ID: 21061007
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  • 19. Foam formation in biogas plants caused by anaerobic digestion of sugar beet.
    Moeller L, Lehnig M, Schenk J, Zehnsdorf A.
    Bioresour Technol; 2015 Feb 25; 178():270-277. PubMed ID: 25446785
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  • 20. Molecular analysis of the biomass of a fluidized bed reactor treating synthetic vinasse at anaerobic and micro-aerobic conditions.
    Rodríguez E, Lopes A, Fdz-Polanco M, Stams AJ, García-Encina PA.
    Appl Microbiol Biotechnol; 2012 Mar 25; 93(5):2181-91. PubMed ID: 21861082
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