Bibliography
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“Access Pipes For Sampling Through Thick Ice”. Hydrobiologia 240. Hydrobiologia (1992): 267-269. doi:10.1007/Bf00013468.
. “Active Layer Freeze-Thaw And Water Storage Dynamics In Permafrost Environments Inferred From Insar”. Remote Sensing Of Environment 248. Remote Sensing Of Environment (2020): 112007. doi:10.1016/j.rse.2020.112007.
. “Adding 15N Tracers To Ecosystem Experiments”. In Stable Isotopes In The Biosphere, 171-192. Stable Isotopes In The Biosphere. Kyoto: Kyoto University Press, 1995.
. “Adrenocortical Responses To Stress On The Leading Edge Of A Northward Range Expansion In White-Crowned Sparrows”. Society Of Integrative And Comparative Biology’s (Sicb) Annual Meeting. Society Of Integrative And Comparative Biology’s (Sicb) Annual Meeting. Austin, TX, 2014.
. “Adrenocortical Responses To Stress On The Leading Edge Of A Northward Range Expansion In White-Crowned Sparrows”. Society Of Integrative And Comparative Biology’s (Sicb) Annual Meeting. Society Of Integrative And Comparative Biology’s (Sicb) Annual Meeting. Austin, TX, 2014.
. “Arctic Amplification Of Global Warming Strengthened By Sunlight Oxidation Of Permafrost Carbon To Co 2”. Geophysical Research Letters 47, no. 12. Geophysical Research Letters (2020). doi:10.1029/2020GL087085.
. “Arctic Canopy Photosynthetic Efficiency Enhanced Under Diffuse Light, Linked To A Reduction In The Fraction Of The Canopy In Deep Shade”. New Phytologist 202, no. 4. New Phytologist (2014): 1267-1276. doi:10.1111/nph.12750.
. “The Arctic Freshwater System: Changes And Impacts”. Journal Of Geophysical Research: Biogeosciences 112, no. G4. Journal Of Geophysical Research: Biogeosciences (2007): G04S54. doi:10.1029/2006JG000353.
. “The Arctic Freshwater System: Changes And Impacts”. Journal Of Geophysical Research: Biogeosciences 112, no. G4. Journal Of Geophysical Research: Biogeosciences (2007): G04S54. doi:10.1029/2006JG000353.
. “Is Arctic Greening Consistent With The Ecology Of Tundra? Lessons From An Ecologically Informed Mass Balance Model”. Environmental Research Letters 13, no. 12. Environmental Research Letters (2018): 125007. doi:10.1088/1748-9326/aaeb50.
. “Assessing The Prevalence, Products, And Pathways Of Dissolved Organic Matter Partial Photo-Oxidation In Arctic Surface Waters”. Environmental Science: Processes & Impacts 22. Environmental Science: Processes & Impacts (2020): 1214–1223. doi:10.1039/C9EM00504H.
. “Asynchrony Among Local Communities Stabilises Ecosystem Function Of Metacommunities”. Ecology Letters 20, no. 12. Ecology Letters (2017): 1534 - 1545. doi:10.1111/ele.12861.
. “Asynchrony Among Local Communities Stabilises Ecosystem Function Of Metacommunities”. Ecology Letters 20, no. 12. Ecology Letters (2017): 1534 - 1545. doi:10.1111/ele.12861.
. “Autumn Migratory Departure Is Influenced By Reproductive Timing And Weather In An Arctic Passerine”. Journal Of Ornithology. Journal Of Ornithology (2020). doi:10.1007/s10336-020-01754-z.
. “Bioavailability Of Dissolved Organic Carbon Across A Hillslope Chronosequence In The Kuparuk River Region, Alaska”. Soil Biology And Biochemistry 79. Soil Biology And Biochemistry (2014): 25-33. doi:10.1016/j.soilbio.2014.08.020.
. “Biomass Offsets Little Or None Of Permafrost Carbon Release From Soils, Streams, And Wildfire: An Expert Assessment”. Environmental Research Letters 11. Environmental Research Letters (2016): 034014. doi:10.1088/1748-9326/11/3/034014.
. “Biomass Offsets Little Or None Of Permafrost Carbon Release From Soils, Streams, And Wildfire: An Expert Assessment”. Environmental Research Letters 11. Environmental Research Letters (2016): 034014. doi:10.1088/1748-9326/11/3/034014.
. “Biotime: A Database Of Biodiversity Time Series For The Anthropocene”. Global Ecology And Biogeography 27. Global Ecology And Biogeography (2018): 760-786. doi:10.1111/geb.12729.
. “Biotime: A Database Of Biodiversity Time Series For The Anthropocene”. Global Ecology And Biogeography 27. Global Ecology And Biogeography (2018): 760-786. doi:10.1111/geb.12729.
. “Biotime: A Database Of Biodiversity Time Series For The Anthropocene”. Global Ecology And Biogeography 27. Global Ecology And Biogeography (2018): 760-786. doi:10.1111/geb.12729.
. “Biotime: A Database Of Biodiversity Time Series For The Anthropocene”. Global Ecology And Biogeography 27. Global Ecology And Biogeography (2018): 760-786. doi:10.1111/geb.12729.
. “Biotime: A Database Of Biodiversity Time Series For The Anthropocene”. Global Ecology And Biogeography 27. Global Ecology And Biogeography (2018): 760-786. doi:10.1111/geb.12729.
. “Biotime: A Database Of Biodiversity Time Series For The Anthropocene”. Global Ecology And Biogeography 27. Global Ecology And Biogeography (2018): 760-786. doi:10.1111/geb.12729.
. “Biotime: A Database Of Biodiversity Time Series For The Anthropocene”. Global Ecology And Biogeography 27. Global Ecology And Biogeography (2018): 760-786. doi:10.1111/geb.12729.
. “Biotime: A Database Of Biodiversity Time Series For The Anthropocene”. Global Ecology And Biogeography 27. Global Ecology And Biogeography (2018): 760-786. doi:10.1111/geb.12729.
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