Bibliography
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“Transformation Of A Tundra River From Heterotrophy To Autotrophy By Addition Of Phosphorus”. Science 229, no. 4720. Science (1985): 1383-1386. doi:10.1126/science.229.4720.1383.
. “Biological Response Of A Tundra River To Fertilization”. Ecology 74, no. 3. Ecology (1993): 653-672. doi:10.2307/1940794.
. “Daphnia Grazing On Natural Bacteria1”. Limnology And Oceanography 23. Limnology And Oceanography (1978): 1039–1044. doi:10.4319/lo.1978.23.5.1039.
. “Daphnia Grazing On Natural Bacteria”. Limnology And Oceanography 23. Limnology And Oceanography (1978): 1039-1044. doi:10.4319/lo.1978.23.5.1039.
. “Nitrogen And Phosphorus Concentration And Export For The Upper Kuparuk River On The North Slope Of Alaska In 1980”. Hydrobiologia 240. Hydrobiologia (1992): 61-69. doi:10.1007/BF00013452.
. “Clinal Variation In Stomatal Characteristics Of An Arctic Sedge, Eriophorum Vaginatum (Cyperaceae)”. American Journal Of Botany 99, no. 9. American Journal Of Botany (2012): 1562-1571. doi:10.3732/ajb.1100508.
. “A Continuous-Flow Periphyton Bioassay: Tests Of Nutrient Limitation In A Tundra Stream”. Limnology And Oceanography 28. Limnology And Oceanography (1983): 583-591. doi:10.4319/lo.1983.28.3.0583.
. “A Tracer Investigation Of Nitrogen Cycling In A Pristine Tundra River”. Canadian Journal Of Fisheries And Aquatic Sciences 54, no. 10. Canadian Journal Of Fisheries And Aquatic Sciences (1997): 2361-2367. doi:10.1139/f97-142.
. “Control Of Nitrogen Export From Watersheds By Headwater Streams”. Science 292, no. 5514. Science (2001): 86-90. doi:10.1126/science.1056874.
. “Carbon Flow In A Tundra Stream Ecosystem”. Canadian Journal Of Fisheries And Aquatic Sciences 43, no. 6. Canadian Journal Of Fisheries And Aquatic Sciences (1986): 1259-1270. doi:10.1139/f86-156.
. “Stable Isotopes In Ecosystem Studies”. Annual Review Of Ecology And Systematics 18. Annual Review Of Ecology And Systematics (1987): 293–320. doi:10.1146/annurev.es.18.110187.001453.
. “Cross-System Comparisons Elucidate Disturbance Complexities And Generalities”. Ecosphere 2, no. 7. Ecosphere (2011): 3-26. doi:10.1890/Es11-00115.1.
. “Tundra Avian Community Composition During Recovery From The Anaktuvuk River Fire”. International Journal Of Wildland Fire 27. International Journal Of Wildland Fire (2018): 69. doi:10.1071/wf17159.
. “Nestling Growth Rates In Relation To Food Abundance And Weather In The Arctic”. Auk 133, no. 2. Auk (2016): 261-272. doi:10.1642/AUK-15-111.1.
. “Effects Of Increased Temperature On Arctic Slimy Sculpin Cottus Cognatus Is Mediated By Food Availability: Implications For Climate Change”. Freshwater Biology. Freshwater Biology (2020). doi:10.1111/fwb.13659.
. “Effects Of Increased Temperature On Arctic Slimy Sculpin (Cottus Cognatus) Is Mediated By Food Availability: Implications For Climate Change”. Freshwater Biology 66. Freshwater Biology (2021): 549–561. doi:10.1111/fwb.13659.
. “Do Individual Plant Species Show Predictable Responses To Nitrogen Addition Across Multiple Experiments?”. Oikos 110. Oikos (2005): 547-555. doi:10.1111/j.0030-1299.2005.13792.x.
. “Recovery Of Arctic Tundra From Thermal Erosion Disturbance Is Constrained By Nutrient Accumulation: A Modeling Analysis”. Ecological Applications 25, no. 5. Ecological Applications (2015): 1271-1289. doi:10.1890/14-1323.1.
. “Comparison Of Instantaneous And Constant-Rate Stream Tracer Experiments Through Non-Parametric Analysis Of Residence Time Distributions”. Water Resources Research 44, no. 6. Water Resources Research (2008): W06404. doi:10.1029/2007WR006274.
. “Rapid Decline In River Icings Detected In Arctic Alaska: Implications For A Changing Hydrologic Cycle And River Ecosystems”. Geophysical Research Letters 44, no. 7. Geophysical Research Letters (2017): 3228 - 3235. doi:10.1002/2016GL072397.
. “Intraspecific Variation In Phenology Offers Resilience To Climate Change For \Textit{Eriophorum Vaginatum”. Arctic Science. Arctic Science (2021): 1–17. doi:10.1139/as-2020-0039.
. “Effects Of Natural Disturbance On Stream Communities: A Habitat Template Analysis Of Arctic Headwater Streams: Habitat Template, Disturbance, And Arctic Stream Communities”. Freshwater Biology 56. Freshwater Biology (2011): 1342–1357. doi:10.1111/j.1365-2427.2011.02573.x.
. “Food Web Structure And Function In Two Arctic Streams With Contrasting Disturbance Regimes”. Freshwater Biology 51, no. 7. Freshwater Biology (2006): 1249-1263. doi:10.1111/j.1365-2427.2006.01567.x.
. “Ecotypic Differences In The Phenology Of The Tundra Species \Textit{Eriophorum Vaginatum Reflect Sites Of Origin”. Ecology And Evolution 7. Ecology And Evolution (2017): 9775–9786. doi:10.1002/ece3.3445.
. “Ecotypic Differences In The Phenology Of The Tundra Species Eriophorum Vaginatum Reflect Sites Of Origin”. Ecology And Evolution 7, no. 22. Ecology And Evolution (2017): 9775 - 9786. doi:10.1002/ece3.3445.
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