AON Bibliography (UAF, MBL and our other project partners)

Export 185 results:
[ Author(Desc)] Title Type Year
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H
Hobbie JE, Kling GW.  2014.  Alaska's changing Arctic: Ecological consequences for tundra, streams, and lakes. :352.
Huebner DChristine, Bret‐Harte MSyndonia.  2019.  Microsite conditions in retrogressive thaw slumps may facilitate increased seedling recruitment in the Alaskan Low Arctic.
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Ichii K, Ueyama M, Kondo M, Saigusa N, Kim J, Alberto MCarmelita, Ardö J, Euskirchen ES, Kang M, Hirano T.  2017.  New data‐driven estimation of terrestrial CO2 fluxes in Asia using a standardized database of eddy covariance measurements, remote sensing data, and support vector regression. 122(4):767-795.
Iversen C.M, Sloan V.L., Sullivan P.F, Euskirchen ES, McGuire A.D, Norby R.J, Walker A.P., Warren J.M., Wullschleger S.D.  2015.  The unseen iceberg: Plant roots in arctic tundra. New Phytologist. 205(1):34-58.
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Jahn M., Sachs T., Mansfeldt T., Overesch M..  2010.  Global climate change and its impacts on the terrestrial Arctic carbon cycle with special regards to ecosystem components and the greenhouse-gas balance. Journal of Plant Nutrition and Soil ScienceJournal of Plant Nutrition and Soil ScienceJournal of Plant Nutrition and Soil Science. 173:627-643.
Janowicz J.R, Stuefer S.L, Sand K., Leppänen L..  2017.  Measuring winter precipitation and snow on the ground in northern polar regions. Hydrology Researchhr. 48(4):884-901.
Jiang Y, Rastetter EB, Rocha AV, Pearce AR, Kwiatkowski BL, Shaver G.R.  2015.  Modeling carbon–nutrient interactions during the early recovery of tundra after fire. Ecological Applications. 25(6):1640-1652.
Jiang Y, Rastetter EB, Shaver GR, Rocha AV, Zhuang Q, Kwiatkowski BL.  2016.  Modeling long-term changes in tundra carbon balance following wildfire, climate change, and potential nutrient addition. Ecological ApplicationsEcol Appl. :n/a-n/a.
Jiang Y, Rocha AV, Rastetter EB, Shaver GR, Mishra U, Zhuang Q, Kwiatkowski BL.  2016.  C–N–P interactions control climate driven changes in regional patterns of C storage on the North Slope of Alaska. 31(1):195-213.
Johnson D.R, Lara M.J, Shaver GR, Batzli G.O, Shaw J.D, Tweedie C.E.  2011.  Exclusion of brown lemmings reduces vascular plant cover and biomass in Arctic coastal tundra: resampling of a 50+ year herbivore exclosure experiment near Barrow, Alaska. Environmental Research LettersEnvironmental Research LettersEnvironmental Research Letters. 6
Jones J, Groffman P, Blair J, Davis F, Dugan H, Euskirchen ES, Frey S.D, Harms T, Hinckley E.-L., Kosmala M et al..  Submitted.  The age of network science: Emerging synergies between NEON and US LTER networks. Bioscience.
K
Kade A, M Bret‐Harte S, Euskirchen ES, Edgar C, Fulweber RA.  2012.  Upscaling of CO2 fluxes from heterogeneous tundra plant communities in Arctic Alaska. 117(G4)
Karjalainen O, Aalto J, Luoto M, Westermann S, Romanovsky VE, Nelson FE, Etzelmüller B, Hjort J.  2019.  Circumpolar permafrost maps and geohazard indices for near-future infrastructure risk assessments. 6:190037.
Kaverin DA, Melnichuk EB, Shiklomanov NI, Kakunov NB, Pastukhov AV, Shiklomanov AN.  2018.  Long‐term changes in the ground thermal regime of an artificially drained thaw‐lake basin in the Russian European north. 29(1):49-59.
Keller K., Blum J.D, Kling G.W.  2010.  Stream geochemistry as an indicator of increasing permafrost thaw depth in an arctic watershed. Chemical GeologyChemical GeologyChemical Geology. 273:76-81.
Kholodov AL, Natali S, Loranty MM, Romanovsky VE.  2016.  Mechanisms of vegetation protective effect on thermal state of permafrost in Alaska..
Kling GW, Adams HE, Bettez ND, Bowden WB, Crump BC, Giblin AE, Judd KE, Keller K, Kipphut GW, Rastetter ER.  2014.  LandÔÇôWater Interactions. Alaska's Changing Arctic: Ecological Consequences for Tundra, Streams, and LakesAlaska's Changing Arctic: Ecological Consequences for Tundra, Streams, and Lakes. :143.
Knapp A.K, Smith M.D, Hobbie S.E, Collins S.L, Fahey T.J, Hansen G.JA, Landis D.A, La Pierre K.J, Melillo J.M, Seastedt T.R et al..  2012.  Past, Present, and Future Roles of Long-Term Experiments in the LTER Network. BioscienceBioscienceBioscience. 62:377-389.
Knox SH, Jackson RB, Poulter B, McNicol G, Fluet-Chouenard E, Zhang Z, Hugelius G, Bousquet P, Canadell JG, Saunois M et al..  Submitted.  FLUXNET-CH4 Synthesis Activity: Objectives, Observations, and Future Directions. Bulletin of the American Meteorological Society.
Kobayashi H, Yunus AP, Nagai S, Sugiura K, Kim Y, Van Dam B, Nagano H, Zona D, Harazono Y, M Bret-Harte S.  2016.  Latitudinal gradient of spruce forest understory and tundra phenology in Alaska as observed from satellite and ground-based data. 177:160-170.
Kovach IM, Qian N, Bencsura A.  1994.  Efficient product clearance through exit channels in substrate hydrolysis by acetylcholinesterase. 349(1):60-64.
Kushida K, Hobara S, Tsuyuzaki S, Kim Y, Watanabe M, Setiawan Y, Harada K, Shaver GR, Fukuda M.  2015.  Spectral indices for remote sensing of phytomass, deciduous shrubs, and productivity in Alaskan Arctic tundra. 36(17):4344-4362.
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Lang S.I, Cornelissen J.HC, Shaver GR, Ahrens M., Callaghan T.V, Molau U., Braak C.JFTer, Holzer A., Aerts R..  2012.  Arctic warming on two continents has consistent negative effects on lichen diversity and mixed effects on bryophyte diversity. Global Change BiologyGlobal Change Biology. 18:1096-1107.
Langer M., Westerman S., Anthony K.MWalter, Wischnewski K., Boike J..  2014.  Frozen ponds- production and storage of methane during the arctic winter. Biogeosciences Discuss.Biogeosciences Discuss.. 11
Lara M.J., McGuire A.D, Euskirchen ES, Tweedie C.E, Hinkel K., Skurikhin A, Romanovsky V.E, Grosse G., Bolton W., Genet H..  0.  Century time-scale change in peak growing season CO2 and CH4 flux in response to change in ice-wedge polygonal tundra, on the Barrow Peninsula in Arctic Alaska.. Global Change BiologyGlobal Change Biology.

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