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Kremmers KA. Carbon and nitrogen dynamics along an Arctic tundra chronosequence. Notre Dame, IN: University of Notre Dame
Barnett BA. Carbon and nitrogen isotope ratios of caribou tissues, vascular plants, and lichens from northern Alaska. Fairbanks, AK: University of Alaska; 1994 p. 171.
Bettez ND. Changes in abundance, species composition and controls within the microbial loop of a fertilized arctic lake. Greensboro, NC: University of North Carolina; 1996 p. 129.
Gersony J. Changes in arctic vegetation and associated changes in resources for herbivorous arthropods. New York, NY: Columbia University; 2015.
Edwardson KJ. Characterization of hyporheic influences on the hydrology and geochemistry in contrasting arctic streams. Durham, NH: University of New Hampshire; 1997.
Asmus A. Characterizing the effects of climate change-induced shrub expansion on Arctic arthropod communities and food webs. Arlington, TX: University of Texas at Arlington; Submitted.
Hershey AE. Chironomid community structure in an arctic lake: The role of a predatory chironomic. Raleigh, NC: North Carolina State University; 1980 p. 100.
Evans R. Chironomid fossil remains: a bioindicator for post-glacial fish migration into Toolik Lake, Alaska. Cincinnati, OH: University of Cincinnati; 1995 p. 108.
Johnson CR. Coexistence and vertical distribution of two copepods Cyclops scutifer and Diaptomus pribilofensis in an oligotrophic Arctic lake. Greensboro, NC: University of North Carolina; 2004.
Fisher K. Comparing trophic level position of invertebrates in fish and fishless lakes in Arctic Alaska. Logan, UT: Utah State University; 2013.
Arscott DB. Comparison of epilithic algal and bryophyte metabolism in an arctic tundra stream, Alaska. Durham, NH: University of New Hampshire; 1997.
Hanson KL. A comparison of slimy sculpin (Cottus cognatus) populations in arctic lakes with implications for the role of piscivorous predators. Duluth, MN: University of Minnesota; 1993.
Johnson CR. Consumer-driven nutrient recycling in arctic Alaskan lakes: controls, importance for primary production, and influence on nutrient limitation. Logan, UT: Utah State University; 2009.
Weiss M. The contribution and environmental control of nitrogen fixation by lichens in upland Arctic tundra. Minneapolis, MN: University of Minnesota; 2003.
Cuker BE. Control of epilithic community structure in an arctic lake by vertebrate predation and invertebrate grazing. Raleigh, NC: North Carolina State University; 1981 p. 96.
Adams HE. Controls on bacterial productivity in arctic lakes and streams. Ann Arbor, MI: University of Michigan; 2010 p. 261.
Alexander-Ozinskas M. Controls on N accumulation and loss in Arctic tundra ecosystems. Providence, RI: Brown University; 2007.