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PUBMED FOR HANDHELDS

Journal Abstract Search


525 related items for PubMed ID: 30218544

  • 1. Linking permafrost thaw to shifting biogeochemistry and food web resources in an arctic river.
    Kendrick MR, Huryn AD, Bowden WB, Deegan LA, Findlay RH, Hershey AE, Peterson BJ, Beneš JP, Schuett EB.
    Glob Chang Biol; 2018 Dec; 24(12):5738-5750. PubMed ID: 30218544
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  • 4. Permafrost collapse alters soil carbon stocks, respiration, CH4 , and N2O in upland tundra.
    Abbott BW, Jones JB.
    Glob Chang Biol; 2015 Dec; 21(12):4570-87. PubMed ID: 26301544
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  • 5. Degrading permafrost river catchments and their impact on Arctic Ocean nearshore processes.
    Mann PJ, Strauss J, Palmtag J, Dowdy K, Ogneva O, Fuchs M, Bedington M, Torres R, Polimene L, Overduin P, Mollenhauer G, Grosse G, Rachold V, Sobczak WV, Spencer RGM, Juhls B.
    Ambio; 2022 Feb; 51(2):439-455. PubMed ID: 34850356
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  • 6. 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; 21(12):4508-19. PubMed ID: 26150277
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  • 7. Humic substances-part 7: the biogeochemistry of dissolved organic carbon and its interactions with climate change.
    Porcal P, Koprivnjak JF, Molot LA, Dillon PJ.
    Environ Sci Pollut Res Int; 2009 Sep; 16(6):714-26. PubMed ID: 19462191
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  • 9. Permafrost thaw and implications for the fate and transport of tritium in the Canadian north.
    Bond MJ, Carr J.
    J Environ Radioact; 2018 Dec; 192():295-311. PubMed ID: 30015315
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  • 10. Impact of freeze-thaw cycles on organic carbon and metals in waters of permafrost peatlands.
    Payandi-Rolland D, Shirokova LS, Labonne F, Bénézeth P, Pokrovsky OS.
    Chemosphere; 2021 Sep; 279():130510. PubMed ID: 33862357
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  • 11. Increasing Alkalinity Export from Large Russian Arctic Rivers.
    Drake TW, Tank SE, Zhulidov AV, Holmes RM, Gurtovaya T, Spencer RGM.
    Environ Sci Technol; 2018 Aug 07; 52(15):8302-8308. PubMed ID: 29947507
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  • 13. Declining fungal diversity in Arctic freshwaters along a permafrost thaw gradient.
    Kluge M, Wauthy M, Clemmensen KE, Wurzbacher C, Hawkes JA, Einarsdottir K, Rautio M, Stenlid J, Peura S.
    Glob Chang Biol; 2021 Nov 07; 27(22):5889-5906. PubMed ID: 34462999
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  • 14. Dissolved Organic Matter Controls Seasonal and Spatial Selenium Concentration Variability in Thaw Lakes across a Permafrost Gradient.
    Pokrovsky OS, Bueno M, Manasypov RM, Shirokova LS, Karlsson J, Amouroux D.
    Environ Sci Technol; 2018 Sep 18; 52(18):10254-10262. PubMed ID: 30148609
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  • 15. Biogeochemistry of macrophytes, sediments and porewaters in thermokarst lakes of permafrost peatlands, western Siberia.
    Manasypov RM, Pokrovsky OS, Shirokova LS, Auda Y, Zinner NS, Vorobyev SN, Kirpotin SN.
    Sci Total Environ; 2021 Apr 01; 763():144201. PubMed ID: 33385841
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  • 16. 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 01; 24(6):2660-2672. PubMed ID: 29235209
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  • 17. Inland waters and their role in the carbon cycle of Alaska.
    Stackpoole SM, Butman DE, Clow DW, Verdin KL, Gaglioti BV, Genet H, Striegl RG.
    Ecol Appl; 2017 Jul 01; 27(5):1403-1420. PubMed ID: 28376236
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