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Journal Abstract Search

512 related items for PubMed ID: 29802797

  • 1. Biotic responses buffer warming-induced soil organic carbon loss in Arctic tundra.
    Liang J, Xia J, Shi Z, Jiang L, Ma S, Lu X, Mauritz M, Natali SM, Pegoraro E, Penton CR, Plaza C, Salmon VG, Celis G, Cole JR, Konstantinidis KT, Tiedje JM, Zhou J, Schuur EAG, Luo Y.
    Glob Chang Biol; 2018 Oct; 24(10):4946-4959. PubMed ID: 29802797
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  • 2. Microbial functional diversity covaries with permafrost thaw-induced environmental heterogeneity in tundra soil.
    Yuan MM, Zhang J, Xue K, Wu L, Deng Y, Deng J, Hale L, Zhou X, He Z, Yang Y, Van Nostrand JD, Schuur EAG, Konstantinidis KT, Penton CR, Cole JR, Tiedje JM, Luo Y, Zhou J.
    Glob Chang Biol; 2018 Jan; 24(1):297-307. PubMed ID: 28715138
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  • 3. Contrasting above- and belowground organic matter decomposition and carbon and nitrogen dynamics in response to warming in High Arctic tundra.
    Blok D, Faucherre S, Banyasz I, Rinnan R, Michelsen A, Elberling B.
    Glob Chang Biol; 2018 Jun; 24(6):2660-2672. PubMed ID: 29235209
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  • 4. Responses of tundra soil microbial communities to half a decade of experimental warming at two critical depths.
    Johnston ER, Hatt JK, He Z, Wu L, Guo X, Luo Y, Schuur EAG, Tiedje JM, Zhou J, Konstantinidis KT.
    Proc Natl Acad Sci U S A; 2019 Jul 23; 116(30):15096-15105. PubMed ID: 31285347
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  • 5. Decadal warming causes a consistent and persistent shift from heterotrophic to autotrophic respiration in contrasting permafrost ecosystems.
    Hicks Pries CE, van Logtestijn RS, Schuur EA, Natali SM, Cornelissen JH, Aerts R, Dorrepaal E.
    Glob Chang Biol; 2015 Dec 23; 21(12):4508-19. PubMed ID: 26150277
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  • 7. Long-Term Warming in Alaska Enlarges the Diazotrophic Community in Deep Soils.
    Feng J, Penton CR, He Z, Van Nostrand JD, Yuan MM, Wu L, Wang C, Qin Y, Shi ZJ, Guo X, Schuur EAG, Luo Y, Bracho R, Konstantinidis KT, Cole JR, Tiedje JM, Yang Y, Zhou J.
    mBio; 2019 Feb 26; 10(1):. PubMed ID: 30808694
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  • 8. Warming-induced permafrost thaw exacerbates tundra soil carbon decomposition mediated by microbial community.
    Feng J, Wang C, Lei J, Yang Y, Yan Q, Zhou X, Tao X, Ning D, Yuan MM, Qin Y, Shi ZJ, Guo X, He Z, Van Nostrand JD, Wu L, Bracho-Garillo RG, Penton CR, Cole JR, Konstantinidis KT, Luo Y, Schuur EAG, Tiedje JM, Zhou J.
    Microbiome; 2020 Jan 17; 8(1):3. PubMed ID: 31952472
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  • 9. Dynamics of microbial communities and CO2 and CH4 fluxes in the tundra ecosystems of the changing Arctic.
    Kwon MJ, Jung JY, Tripathi BM, Göckede M, Lee YK, Kim M.
    J Microbiol; 2019 May 17; 57(5):325-336. PubMed ID: 30656588
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  • 12. Modeling long-term changes in tundra carbon balance following wildfire, climate change, and potential nutrient addition.
    Jiang Y, Rastetter EB, Shaver GR, Rocha AV, Zhuang Q, Kwiatkowski BL.
    Ecol Appl; 2017 Jan 17; 27(1):105-117. PubMed ID: 27898193
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  • 15. Fire severity effects on soil carbon and nutrients and microbial processes in a Siberian larch forest.
    Ludwig SM, Alexander HD, Kielland K, Mann PJ, Natali SM, Ruess RW.
    Glob Chang Biol; 2018 Dec 17; 24(12):5841-5852. PubMed ID: 30230664
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  • 16. Distinct Growth Responses of Tundra Soil Bacteria to Short-Term and Long-Term Warming.
    Propster JR, Schwartz E, Hayer M, Miller S, Monsaint-Queeney V, Koch BJ, Morrissey EM, Mack MC, Hungate BA.
    Appl Environ Microbiol; 2023 Mar 29; 89(3):e0154322. PubMed ID: 36847530
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  • 20. Warming of subarctic tundra increases emissions of all three important greenhouse gases - carbon dioxide, methane, and nitrous oxide.
    Voigt C, Lamprecht RE, Marushchak ME, Lind SE, Novakovskiy A, Aurela M, Martikainen PJ, Biasi C.
    Glob Chang Biol; 2017 Aug 29; 23(8):3121-3138. PubMed ID: 27862698
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