Bibliography

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Eugster, W., J. A Laundre, Jon Eugster, and George W Kling. Long-Term Reliability Of The Figaro Tgs 2600 Solid-State Methane Sensor Under Low-Arctic Conditions At Toolik Lake, Alaska. Atmospheric Measurement Techniques 13, no. 5. Atmospheric Measurement Techniques (2020): 2681 - 2695. doi:10.5194/amt-13-2681-2020.
Shaver, Gaius R, and F Stuart Chapin III. Long-Term Responses To Factorial, Npk Fertilizer Treatment By Alaskan Wet And Moist Tundra Sedge Species. Ecography 18, no. 3. Ecography (1995): 259-275. doi:10.1111/j.1600-0587.1995.tb00129.x.
Buzby, K. M, and Linda A Deegan. Long-Term Survival Of Adult Arctic Grayling (Thymallus Arcticus) In The Kuparuk River, Alaska. Canadian Journal Of Fisheries And Aquatic Sciences 61, no. 10. Canadian Journal Of Fisheries And Aquatic Sciences (2004): 1954-1964. doi:10.1139/F04-126.
DeSlippe, J. R, M. Hartmann, S. W Simard, and W. W Mohn. Long-Term Warming Alters The Composition Of Arctic Soil Microbial Communities. Fems Microbiol Ecol 82, no. 2. Fems Microbiol Ecol (2012): 303-15. doi:10.1111/j.1574-6941.2012.01350.x.
Moore, John C. Lter And Lessons From Networked Lives.. In Long-Term Ecological Research: Changing The Nature Of Scientists.. Long-Term Ecological Research: Changing The Nature Of Scientists. New York, NY: Oxford University Press, 2016.
Hobbie, John E. Lter In The Arctic: Where Science Never Sleeps. In Long Term Ecological Research: Changing The Nature Of Scientists, 91-98. Long Term Ecological Research: Changing The Nature Of Scientists. New York, NY: Oxford University Press, 2016.
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Stout, James R. Macroinvertebrate Drift And Community Composition In An Arctic And Subarctic Stream In Alaska. Department Of Biological Sciences. Department Of Biological Sciences. University of Cincinnati, 1986.
Heffernan, J. B, P. A Soranno, M. J Angilletta, L. B Buckley, D. S Gruner, T. H Keitt, J. R Kellner, et al.. Macrosystems Ecology: Understanding Ecological Patterns And Processes At Continental Scales. Frontiers In Ecology And The Environment 12, no. 1. Frontiers In Ecology And The Environment (2014): 5-14. doi:10.1890/130017.
Rijkers, Ruud, Mark Dekker, Rien Aerts, and James T Weedon. Maximum Summer Temperatures Predict The Temperature Adaptation Of Arctic Soil Bacterial Communities. Biogeosciences Discussions. Biogeosciences Discussions (2022): 1–26. doi:10.5194/bg-2022-184.
Hobbie, John E. Measuring Heterotrophic Activity In Plankton. In Methods In Microbiology, Volume 22, 235-250. Methods In Microbiology, Volume 22. London: Academic Press, 1990.
Giblin, Anne E, J. A Laundre, K. J Nadelhoffer, and Gaius R Shaver. Measuring Nutrient Availability In Arctic Soils Using Ion-Exchange Resins: A Field Test. Soil Science Society Of America Journal 58, no. 4. Soil Science Society Of America Journal (1994): 1154-1162. doi:10.2136/sssaj1994.03615995005800040021x.
Bradford, John H, James P McNamara, William B Bowden, and Michael N Gooseff. Measuring Thaw Depth Beneath Arctic Streams Using Ground-Penetrating Radar. Hydrological Processes 19, no. 14. Hydrological Processes (2005): 2689-2699. doi:10.1002/Hyp.5781.
Fitzgerald, William F, Chad R Hammerschmidt, D. R Engstrom, Prentiss H Balcom, Carl H Lamborg, and C. M Tseng. Mercury In The Alaskan Arctic. In Alaska's Changing Arctic: Ecological Consequences For Tundra, Streams And Lakes, 287-302. Alaska's Changing Arctic: Ecological Consequences For Tundra, Streams And Lakes. New York, NY: Oxford University Press, 2014. doi:10.1093/acprof:osobl/9780199860401.003.0009.

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