Bibliography
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“Convergence Of Soil Nitrogen Isotopes Across Global Climate Gradients”. Scientific Reports 5. Scientific Reports (2015): 8280. doi:10.1038/srep08280.
. “Synchrony And Seasonality In Bacterioplankton Communities Of Two Temperate Rivers”. Limnology And Oceanography 50, no. 6. Limnology And Oceanography (2005): 1718-1729. doi:10.4319/lo.2005.50.6.1718.
. “Microbial Diversity In Arctic Freshwaters Is Structured By Inoculation Of Microbes From Soils”. International Society For Microbial Ecology Journal 6, no. 9. International Society For Microbial Ecology Journal (2012): 1629-1639. doi:10.1038/ismej.2012.9.
. “Biogeography Of Bacterioplankton In Lakes And Streams Of An Arctic Tundra Catchment”. Ecology 88, no. 6. Ecology (2007): 1365-1378. doi:10.1890/06-0387.
. “Circumpolar Synchrony In Big River Bacterioplankton”. Proceedings Of The National Academy Of Sciences 106, no. 50. Proceedings Of The National Academy Of Sciences (2009): 21208-21212. doi:10.1073/pnas.0906149106.
. “Bacterioplankton Community Shifts In An Arctic Lake Correlate With Seasonal Changes In Organic Matter Source”. Applied And Environmental Microbiology 69, no. 4. Applied And Environmental Microbiology (2003): 2253-2268. doi:10.1128/AEM.69.4.2253-2268.2003.
. “Influences Of Slimy Sculpin (Cottus Cognatus) Predation On The Rocky Littoral Invertebrate Community Of An Arctic Lake”. Hydrobiologia 240, no. 1-3. Hydrobiologia (1992): 83-90. doi:10.1007/Bf00013454.
. “Competition And Coexistence Among The Grazing Snail Lymnaea, Chironomidae, And Microcrustacea In An Arctic Epilithic Lacustrine Community”. Ecology 64. Ecology (1983): 10-15. doi:10.2307/1937323.
. “Grazing And Nutrient Interactions In Controlling The Activity And Composition Of The Epilithic Algal Community Of An Arctic Lake”. Limnology And Oceanography 28, no. 1. Limnology And Oceanography (1983): 133-141. doi:10.4319/lo.1983.28.1.0133.
. “Summer Population Fluctuations, Feeding, And Growth Of Hydra In An Arctic Lake”. Limnology And Oceanography 26, no. 4. Limnology And Oceanography (1981): 697-708. doi:10.4319/lo.1981.26.4.0697.
. “Differential Responses Of Ecotypes To Climate In A Ubiquitous Arctic Sedge: Implications For Future Ecosystem C Cycling”. New Phytologist. New Phytologist (2019). doi:10.1111/nph.15790.
. “Range Shifts In A Foundation Sedge Potentially Induce Large Arctic Ecosystem Carbon Losses And Gainsabstract”. Environmental Research Letters 17, no. 4. Environmental Research Letters (2022): 045024. doi:10.1088/1748-9326/ac6005.
. “Insights Into The Tussock Growth Form With Model–Data Fusion”. New Phytologist. New Phytologist (2023). doi:10.1111/nph.18751.
. “An Open-Source, Durable, And Low-Cost Alternative To Commercially Available Soil Temperature Data Loggers”. Sensors 22. Sensors (2021): 148. doi:10.3390/s22010148.
. “How Long Do Population Level Field Experiments Need To Be? Utilising Data From The 40‐Year‐Old Lter Network”. Ecology Letters 24. Ecology Letters (2021): 1103–1111. doi:10.1111/ele.13710.
. “Lacustrine Leaf Wax Hydrogen Isotopes Indicate Strong Regional Climate Feedbacks In Beringia Since The Last Ice Age”. Quaternary Science Reviews 269. Quaternary Science Reviews (2021): 107130. doi:10.1016/j.quascirev.2021.107130.
. “Hydrogen Isotope Fractionation In Leaf Waxes In The Alaskan Arctic Tundra”. Geochimica Et Cosmochimica Acta 213. Geochimica Et Cosmochimica Acta (2017): 216 - 236. doi:10.1016/j.gca.2017.06.028.
. “Benthic Community Metabolism In Deep And Shallow Arctic Lakes During 13 Years Of Whole-Lake Fertilization”. Limnology And Oceanography 60, no. 5. Limnology And Oceanography (2015). doi:10.1002/lno.10120.
. “Effect Of Continuous Light On Leaf Wax Isotope Ratios In Betula Nana And Eriophorum Vaginatum: Implications For Arctic Paleoclimate Reconstructions”. Organic Geochemistry 125. Organic Geochemistry (2018): 70 - 81. doi:10.1016/j.orggeochem.2018.08.008.
. “Investigating The Controls On Soil Organic Matter Decomposition In Tussock Tundra Soil And Permafrost After Fire”. Soil Biology And Biochemistry 99. Soil Biology And Biochemistry (2016): 108 - 116. doi:10.1016/j.soilbio.2016.04.020.
. “Food Web Ecology: Playing Jenga And Beyond”. Science 309, no. 5731. Science (2005): 68-71. doi:10.1126/science.1096112.
. “Cumulative Nitrogen Input Drives Species Loss In Terrestrial Ecosystems”. Global Ecology And Biogeography 20, no. 6. Global Ecology And Biogeography (2011): 803-816. doi:10.1111/j.1466-8238.2011.00652.x.
. “Effects Of Fish Density And River Fertilization On Algal Standing Stocks, Invertebrate Communities, And Fish Production In An Arctic River”. Canadian Journal Of Fisheries And Aquatic Sciences 54, no. 2. Canadian Journal Of Fisheries And Aquatic Sciences (1997): 269-283. doi:10.1139/f96-268.
. “Whole River Fertilization Stimulates Fish Production In An Arctic Tundra River”. Canadian Journal Of Fisheries And Aquatic Sciences 49, no. 9. Canadian Journal Of Fisheries And Aquatic Sciences (1992): 1890-1901. doi:10.1139/F92-209.
. “Influence Of Environmental Variability On The Growth Of Age-0 And Adult Arctic Grayling”. Transactions Of The American Fisheries Society 128, no. 6. Transactions Of The American Fisheries Society (1999): 1163-1175. doi:10.1577/1548-8659(1999)128<1163:IOEVOT>2.0.CO;2.
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