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

Export 185 results:
Author [ Title(Desc)] Type Year
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M
Huebner DChristine, Bret‐Harte MSyndonia.  2019.  Microsite conditions in retrogressive thaw slumps may facilitate increased seedling recruitment in the Alaskan Low Arctic.
Lenz J, Grosse G, Jones BM, Anthony K.MWalter, Katey M, Bobrov A, Wulf S, Wetterich S.  2016.  Mid‐Wisconsin to Holocene Permafrost and Landscape Dynamics based on a Drained Lake Basin Core from the Northern Seward Peninsula, Northwest Alaska. 27(1):56-75.
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.
Tan Z, Zhuang Q, Shurpali NJ, Marushchak ME, Biasi C, Eugster W, Anthony KWalter.  2017.  Modeling CO 2 emissions from A rctic lakes: Model development and site‐level study. 9(5):2190-2213.
Rastetter EB.  Submitted.  Modeling for Understanding v. Modeling for Numbers. :1-7.
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.
Nicolsky DJ, Romanovsky VE.  2018.  Modeling long‐term permafrost degradation. 123(8):1756-1771.
Tan Z, Zhuang Q, Anthony KWalter.  2015.  Modeling methane emissions from arctic lakes: Model development and site‐level study. 7(2):459-483.
Genet H., McGuire A.D, Barrett K., Breen A., Euskirchen ES, Johnstone J.F, Kasischke E.S, Melvin A.M, Bennett A., Mack M.C et al..  2013.  Modeling the effects of fire severity and climate warming on active layer thickness and soil carbon storage of black spruce forests across the landscape in interior Alaska. Environmental Research LettersEnvironmental Research LettersEnvironmental Research Letters. 8
Greene S, Anthony KMWalter, Archer D, Sepulveda-Jauregui A, Martinez-Cruz K.  2014.  Modeling the impediment of methane ebullition bubbles by seasonal lake ice. 11(23):6791-6811.
Merck M.F, Neilson B.T.  2012.  Modelling in-pool temperature variability in a beaded arctic stream. Hydrological ProcessesHydrological ProcessesHydrological Processes. 26:3921-3933.
Peltola O, Vesala T, Gao Y, Raty O, Alekseychik P, Aurela M, Choinicki B, Desai A.R., Dolman A.J., Euskirchen ES.  Submitted.  Monthly Gridded Data Product of Northern Wetland Methane Emissions Based on Upscaling Eddy Covariance Observations. Earth System Science Data.
Chipman ML, Kling GW, Lundstrom CC, Hu FSheng.  2016.  Multiple thermo-erosional episodes during the past six millennia: Implications for the response of Arctic permafrost to climate change. 44(6):439-442.
Xu X, Riley WJ, Koven CD, Billesbach DP, Chang RY-W, Commane R, Euskirchen ES, Hartery S, Harazono Y, Iwata H.  2016.  A multi-scale comparison of modeled and observed seasonal methane emissions in northern wetlands. 13(17)
N
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.
Perez-Harguindeguy N., Diaz S., Garnier E., Lavorel S., Poorter H., Jaureguiberry P., Bret-Harte MS, Cornwell W.K, Craine J.M, Gurvich D.E et al..  2013.  New handbook for standardised measurement of plant functional traits worldwide. Australian Journal of BotanyAustralian Journal of BotanyAustralian Journal of Botany. 61:167-234.
Sepulveda-Jauregui A., Martinez-Cruz K., Strohm A., Anthony K.MWalter, Thalasso F..  2012.  A new method for field measurement of dissolved methane in water using infrared tunable diode laser absorption spectroscopy. Limnology and Oceanography-MethodsLimnology and Oceanography-MethodsLimnology and Oceanography-Methods. 10:560-567.
Yano Y., Shaver GR, Rastetter E.B, Giblin A.E, Laundre J.A.  2013.  Nitrogen dynamics in arctic tundra soils of varying age: differential responses to fertilization and warming. OecologiaOecologiaOecologia. 173:1575-1586.
Barboza PS, Van Someren LL, Gustine DD, M Bret‐Harte S.  2018.  The nitrogen window for arctic herbivores: plant phenology and protein gain of migratory caribou (Rangifer tarandus). 9(1)
McGraw JB, Turner JB, Souther S, Bennington CC, Vavrek MC, Shaver GR, Fetcher N.  2015.  Northward displacement of optimal climate conditions for ecotypes of Eriophorum vaginatum L. across a latitudinal gradient in Alaska. 21(10):3827-3835.
Garayshin VV, Nicolsky DJ, Romanovsky VE.  2018.  Numerical modeling of two-dimensional temperature field dynamics across non-deforming ice-wedge polygons.
P
Liljedahl AK, Boike J, Daanen RP, Fedorov AN, Frost GV, Grosse G, Hinzman LD, Iijma Y, Jorgenson JC, Matveyeva N.  2016.  Pan-Arctic ice-wedge degradation in warming permafrost and its influence on tundra hydrology. 9(4):312.
Shaver GR, Rastetter E.B, Salmon V., Street L.E, van de Weg M.J, Rocha A., van Wijk M.T, Williams M..  2013.  Pan-Arctic modelling of net ecosystem exchange of CO2. Philosophical Transactions of the Royal Society B-Biological SciencesPhilosophical Transactions of the Royal Society B-Biological SciencesPhilosophical Transactions of the Royal Society B-Biological Sciences. 368
Zimov SA, Zimov N.S, Chapin F.S.  2012.  The Past and Future of the Mammoth Steppe Ecosystem. Paleontology in Ecology and Conservation. :193-225.

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