Bibliography
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“Hydrological Field Data From A Modeller's Perspective: Part 1. Diagnostic Tests For Model Structure”. Hydrological Processes 25, no. 4. Hydrological Processes (2011): 511-522. doi:10.1002/hyp.7841.
. “Hyporheic Exchange And Water Chemistry Of Two Arctic Tundra Streams Of Contrasting Geomorphology”. Journal Of Geophysical Research: Biogeosciences 113, no. G02029. Journal Of Geophysical Research: Biogeosciences (2008): 14pp. doi:10.1029/2007jg000549.
. “Identification Of Unrecognized Tundra Fire Events On The North Slope Of Alaska”. Journal Of Geophysical Research: Biogeosciences 118. Journal Of Geophysical Research: Biogeosciences (2013): 1334-1344. doi:10.1002/jgrg.20113.
. “Identifying Differences In Carbon Exchange Among Arctic Ecosystem Types”. Ecosystems 9, no. 2. Ecosystems (2006): 288-304. doi:10.1007/s10021-005-0146-y.
. “Imaging Thermal Stratigraphy In Freshwater Lakes Using Georadar”. Geophysical Research Letters 34, no. 24. Geophysical Research Letters (2007): L24405. doi:10.1029/2007gl032488.
. “The Impact Of Detailed Snow Physics On The Simulation Of Snow Cover And Subsurface Thermodynamics At Continental Scales”. Journal Of Hydrometeorology 2, no. 3. Journal Of Hydrometeorology (2001): 228-242. doi:10.1175/1525-7541(2001)002<0228%3ATIODSP>2.0.CO%3B2.
. “Impact Of Global Change On Biogeochemistry And Ecology Of An Arctic Freshwater System”. Polar Research 18, no. 2. Polar Research (1999): 207-214. doi:10.1111/j.1751-8369.1999.tb00295.x.
. “Impacts Of Female Body Size On Cannibalism And Juvenile Abundance In A Dominant Arctic Spider”. Journal Of Animal Ecology 89, no. 8. Journal Of Animal Ecology (2020): 1788 - 1798. doi:10.1111/jane.v89.810.1111/1365-2656.13230.
. “The Importance Of Secondary Growth To Plant Responses To Snow In The Arctic”. Functional Ecology 33. Functional Ecology (2019): 1050–1066. doi:10.1111/1365-2435.13323.
. “Improvements In And Environmental Applications Of Double Vial Radiorespirometry For The Study Of Microbial Mineralization”. Applied And Environmental Microbiology 45. Applied And Environmental Microbiology (1983): 255-259. https://aem.asm.org/content/45/1/255.
. “Improving Biogeochemical Knowledge Through Technological Innovation”. Frontiers In Ecology And The Environment 9, no. 1. Frontiers In Ecology And The Environment (2011): 37-43. doi:10.1890/100004.
. “Improving Lake Mixing Process Simulations In The Community Land Model By Using K Profile Parameterization”. Hydrology And Earth System Sciences 23, no. 12. Hydrology And Earth System Sciences (2019): 4969 - 4982. doi:10.5194/hess-23-4969-2019.
. “Improving Lake Mixing Process Simulations In The Community Land Model By Using K Profile Parameterization”. Hydrology And Earth System Sciences 23. Hydrology And Earth System Sciences (2019): 4969–4982. doi:10.5194/hess-23-4969-2019.
. “Incident Radiation And The Allocation Of Nitrogen Within Arctic Plant Canopies: Implications For Predicting Gross Primary Productivity”. Global Change Biology 18, no. 9. Global Change Biology (2012): 2838-2852. doi:10.1111/j.1365-2486.2012.02754.x.
. “Incorporating Clonal Growth Form Clarifies The Role Of Plant Height In Response To Nitrogen Addition”. Oecologia 169, no. 4. Oecologia (2012): 1053-1062. doi:10.1007/s00442-012-2264-5.
. “Increased Ectomycorrhizal Fungal Abundance After Long-Term Fertilization And Warming Of Two Arctic Tundra Ecosystems”. New Phytologist 171, no. 2. New Phytologist (2006): 391-404. doi:10.1111/j.1469-8137.2006.01778.x.
. “Increasing Leaf Temperature Reduces The Suppression Of Isoprene Emission By Elevated Co2 Concentration”. Science Of The Total Environment 481. Science Of The Total Environment (2014): 352-359. doi:10.1016/j.scitotenv.2014.02.065.
. “Increasing River Discharge In The Eurasian Arctic: Consideration Of Dams, Permafrost Thaw, And Fires As Potential Agents Of Change”. Journal Of Geophysical Research: Atmospheres 109, no. D18. Journal Of Geophysical Research: Atmospheres (2004): no. 18102. doi:10.1029/2004JD004583.
. “Individualistic Growth Response Of Tundra Plant Species To Environmental Manipulations In The Field”. Ecology 66, no. 2. Ecology (1985): 564-576. doi:10.2307/1940405.
. “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.
. “The Influence Of Light And Nutrient Addition Upon The Sediment Chemistry Of Iron In An Arctic Lake”. Hydrobiologia 240, no. 1-3. Hydrobiologia (1992): 91-101. doi:10.1007/978-94-011-2720-2_9.
. “Influence Of Morphology And Permafrost Dynamics On Hyporheic Exchange In Arctic Headwater Streams Under Warming Climate Conditions”. Geophysical Research Letters 35, no. 2. Geophysical Research Letters (2008): L02501. doi:10.1029/2007GL032049.
. “Influence Of Stream Size On Ammonium And Suspended Particulate Nitrogen Processing”. Limnology And Oceanography 46, no. 1. Limnology And Oceanography (2001): 1-13. doi:10.4319/lo.2001.46.1.0001.
. “Influence Of Temperature And Light On Rates Of Inorganic Nitrogen Transport By Algae In An Arctic Lake”. Canadian Journal Of Fisheries And Aquatic Sciences 41, no. 9. Canadian Journal Of Fisheries And Aquatic Sciences (1984): 1310-1318. doi:10.1139/f84-160.
. “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.
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