Bibliography
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“Arctic Bosmina Morphology And Copepod Predation”. Limnology And Oceanography 24. Limnology And Oceanography (1979): 564-568. doi:10.4319/lo.1979.24.3.0564.
. “Heterocope, An Important Predator Structuring Arctic Pond Zooplankton Communities: A Mesocosm Study”. Vereinigung Verhandlungen International Limnologie 27. Vereinigung Verhandlungen International Limnologie (2001): 3686-3689. doi:10.1080/03680770.1998.11902517.
. “A Zooplankton Bioassay Chamber For Lab And Field Use”. Journal Of Plankton Research 3. Journal Of Plankton Research (1981): 561-566. doi:10.1093/plankt/3.4.561.
. “Nutrient Addition Prompts Rapid Destabilization Of Organic Matter In An Arctic Tundra Ecosystem”. Ecosystems 11. Ecosystems (2008): 16-25. doi:10.1007/s10021-007-9104-1.
. “Drivers Of Nitrogen Transfer In Stream Food Webs Across Continents”. Ecology 98, no. 12. Ecology (2017): 3044 - 3055. doi:10.1002/ecy.2009.
. “Nitrogen Uptake By Arctic Soil Microbes And Plants In Relation To Soil Nitrogen Supply”. Ecology 85. Ecology (2004): 955-962. doi:10.1890/03-0084.
. “Groundwater Flow And Exchange Across The Land Surface Explain Carbon Export Patterns In Continuous Permafrost Watersheds”. Geophysical Research Letters 45. Geophysical Research Letters (2018): 7596 - 7605. doi:10.1029/2018GL078140.
. “Large Loss Of Co2 In Winter Observed Across The Northern Permafrost Region”. Nature Climate Change 9. Nature Climate Change (2019): 852–857. doi:10.1038/s41558-019-0592-8.
. “Experimental Metatranscriptomics Reveals The Costs And Benefits Of Dissolved Organic Matter Photo‐Alteration For Freshwater Microbes”. Environmental Microbiology 22, no. 8. Environmental Microbiology (2020): 3505 - 3521. doi:10.1111/1462-2920.15121.
. “Fine Root Production And Nutrient Content In Wet And Moist Arctic Tundras As Influenced By Chronic Fertilization”. Plant And Soil 242. Plant And Soil (2002): 107-113. doi:10.1023/A:1019646124768.
. “Effects Of Temperature And Substrate Quality On Element Mineralization In 6 Arctic Soils”. Ecology 72, no. 1. Ecology (1991): 242-253. doi:10.2307/1938918.
. “N-15 Natural Abundances And N Use By Tundra Plants”. Oecologia 107, no. 3. Oecologia (1996): 386-394. doi:10.1007/bf00328456.
. “Inter-Biome Comparison Of Factors Controlling Stream Metabolism”. Freshwater Biology 46. Freshwater Biology (2001): 1503-1517. doi:10.1046/j.1365-2427.2001.00773.x.
. “Neglected Characters In Larval Morphology As Tools In Taxonomy And Phylogeny Of Chironomidae”. Entomologica Scandiinavica 10. Entomologica Scandiinavica (1979): 27-36.
. “Effects Of Soil Nutrient Availability On The Role Of Sexual Reproduction In An Alaskan Tundra Plant Community”. Arctic, Antarctic And Alpine Research 43, no. 4. Arctic, Antarctic And Alpine Research (2011): 612-620. doi:10.1657/1938-4246-43.4.612.
. “Using Sound Pressure To Estimate Reaeration In Streams”. Journal Of The North American Benthological Society 26, no. 1. Journal Of The North American Benthological Society (2007): 28-37. doi:10.1899/0887-3593(2007)26%5B28:USPTER%5D2.0.CO;2.
. “Ch4 Oxidation By Tundra Wetlands As Measured By A Selective Inhibitor Technique”. Journal Of Geophysical Research: Atmospheres 103, no. D22. Journal Of Geophysical Research: Atmospheres (1998): 29093-29106. doi:10.1029/97JD03519.
. “Climate And Litter Quality Controls On Decomposition: An Analysis Of Modeling Approaches”. Global Biogeochemical Cycles 13, no. 2. Global Biogeochemical Cycles (1999): 575-589. doi:10.1029/1998GB900014.
. “Top-Down Is Bottom-Up: Does Predation In The Rhizosphere Regulate Aboveground Production?”. Ecology 84. Ecology (2003): 84-857. doi:10.1890/0012-9658(2003)084%5B0846:TIBDPI%5D2.0.CO;2.
. “Modeling Trophic Pathways, Nutrient Cycling, And Dynamic Stability In Soils”. Pedobiologia 49. Pedobiologia (2005): 499-510. doi:10.1016/j.pedobi.2005.05.008.
. “Enzymatic And Detrital Influences On The Structure, Function, And Dynamics Of Spatially-Explicit Model Ecosystems”. Biogeochemistry 117, no. 1. Biogeochemistry (2014): 205-227. doi:10.1007/s10533-013-9932-3.
. “The Expanding Footprint Of Rapid Arctic Change”. Earth's Future 7. Earth's Future (2019): 212–218. doi:10.1029/2018ef001088.
. “Controls On Seed Production And Seed Germinability In Eriophorum Vaginatum”. Global Change Biology 3, no. S1. Global Change Biology (1997): 80-88. doi:10.1111/j.1365-2486.1997.gcb130.x.
. “Climate Change Effects On Northern Terrestrial And Freshwater Ecosystems: Current Status Assessment”. Chemosphere - Global Change Science 1, no. 4. Chemosphere - Global Change Science (1999): 493-495. doi:10.1016/S1465-9972(99)00041-0.
. “Comparative Transcriptomics Of An Arctic Foundation Species, Tussock Cottongrass (Eriophorum Vaginatum), During An Extreme Heat Event”. Scientific Reports 10, no. 1. Scientific Reports (2020). doi:10.1038/s41598-020-65693-8.
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