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Journal Abstract Search

336 related items for PubMed ID: 28803698

  • 1. Genomics and Ecology of Novel N2O-Reducing Microorganisms.
    Hallin S, Philippot L, Löffler FE, Sanford RA, Jones CM.
    Trends Microbiol; 2018 Jan; 26(1):43-55. PubMed ID: 28803698
    [Abstract] [Full Text] [Related]

  • 2. Nitrous oxide reduction by two partial denitrifying bacteria requires denitrification intermediates that cannot be respired.
    LaSarre B, Morlen R, Neumann GC, Harwood CS, McKinlay JB.
    Appl Environ Microbiol; 2024 Jan 24; 90(1):e0174123. PubMed ID: 38078768
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  • 3. Respiratory transformation of nitrous oxide (N2O) to dinitrogen by Bacteria and Archaea.
    Zumft WG, Kroneck PM.
    Adv Microb Physiol; 2007 Jan 24; 52():107-227. PubMed ID: 17027372
    [Abstract] [Full Text] [Related]

  • 4. Intergenomic comparisons highlight modularity of the denitrification pathway and underpin the importance of community structure for N2O emissions.
    Graf DR, Jones CM, Hallin S.
    PLoS One; 2014 Jan 24; 9(12):e114118. PubMed ID: 25436772
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  • 5. A Dual Enrichment Strategy Provides Soil- and Digestate-Competent Nitrous Oxide-Respiring Bacteria for Mitigating Climate Forcing in Agriculture.
    Jonassen KR, Ormåsen I, Duffner C, Hvidsten TR, Bakken LR, Vick SHW.
    mBio; 2022 Jun 28; 13(3):e0078822. PubMed ID: 35638872
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  • 7. Nitrous oxide emission related to ammonia-oxidizing bacteria and mitigation options from N fertilization in a tropical soil.
    Soares JR, Cassman NA, Kielak AM, Pijl A, Carmo JB, Lourenço KS, Laanbroek HJ, Cantarella H, Kuramae EE.
    Sci Rep; 2016 Jul 27; 6():30349. PubMed ID: 27460335
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  • 9. Beyond denitrification: The role of microbial diversity in controlling nitrous oxide reduction and soil nitrous oxide emissions.
    Shan J, Sanford RA, Chee-Sanford J, Ooi SK, Löffler FE, Konstantinidis KT, Yang WH.
    Glob Chang Biol; 2021 Jun 27; 27(12):2669-2683. PubMed ID: 33547715
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  • 14. Eelgrass Sediment Microbiome as a Nitrous Oxide Sink in Brackish Lake Akkeshi, Japan.
    Nakagawa T, Tsuchiya Y, Ueda S, Fukui M, Takahashi R.
    Microbes Environ; 2019 Mar 30; 34(1):13-22. PubMed ID: 30504642
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  • 16. Denitrifying haloarchaea: sources and sinks of nitrogenous gases.
    Torregrosa-Crespo J, Bergaust L, Pire C, Martínez-Espinosa RM.
    FEMS Microbiol Lett; 2018 Feb 01; 365(3):. PubMed ID: 29237000
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  • 17. Effect of silicon on barley growth and N2O emission under flooding.
    Włodarczyk T, Balakhnina T, Matichenkov V, Brzezińska M, Nosalewicz M, Szarlip P, Fomina I.
    Sci Total Environ; 2019 Oct 01; 685():1-9. PubMed ID: 31170590
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  • 18. Denitrification and N2O:N2 production in temperate grasslands: processes, measurements, modelling and mitigating negative impacts.
    Saggar S, Jha N, Deslippe J, Bolan NS, Luo J, Giltrap DL, Kim DG, Zaman M, Tillman RW.
    Sci Total Environ; 2013 Nov 01; 465():173-95. PubMed ID: 23260378
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  • 19. The unaccounted yet abundant nitrous oxide-reducing microbial community: a potential nitrous oxide sink.
    Jones CM, Graf DR, Bru D, Philippot L, Hallin S.
    ISME J; 2013 Feb 01; 7(2):417-26. PubMed ID: 23151640
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  • 20. Benthic clade II-type nitrous oxide reducers suppress nitrous oxide emissions in shallow lakes.
    Song K, Wang S, Xu X, Ma J, Yang Y, Zeng Y, Li J, Zhou X, Zhou Y.
    Sci Total Environ; 2024 Jun 25; 931():172908. PubMed ID: 38697552
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