Bibliography
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“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 Effects Of Snow, Soil Microenvironment, And Soil Organic Matter Quality On N Availability In Three Alaskan Arctic Plant Communities”. Ecosystems 14, no. 5. Ecosystems (2011): 804-817. doi:10.1007/s10021-011-9447-5.
. “Long-Term Experimental Warming And Nutrient Additions Increase Productivity In Tall Deciduous Shrub Tundra”. Ecosphere 6, no. 5. Ecosphere (2014): Article 72. doi:10.1890/es13-00281.1.
. “Effects Of Arctic Shrub Expansion On Biophysical Vs. Biogeochemical Drivers Of Litter Decomposition”. Ecology 95, no. 7. Ecology (2014): 1861-1875. doi:10.1890/13-2221.1.
. “A Note On Surface Humidity Measurements In The Cold Canadian Environment”. Boundary Layer Meteorology 102. Boundary Layer Meteorology (2002): 491-497. doi:10.1023/A:1013890729982.
. “An Approach To Using Snow Areal Depletion Curves Inferred From Modis And Its Application For Land Surface Modelling In Alaska”. Hydrological Processes 19, no. 14. Hydrological Processes (2005): 1755-2774. doi:10.1002/hyp.5784.
. “Modeling Snowcover Hyeterogeneity Over Complex Terrain For Regional And Global Climate Models”. Journal Of Hydrometeorology 5. Journal Of Hydrometeorology (2004): 33-48. doi:10.1175/1525-7541(2004)005%3C0033:MSHOCA%3E2.0.CO;2.
. “The Water Budget Of The Kuparuk Basin, Alaska”. Journal Of Hydrometeorology 6, no. 5. Journal Of Hydrometeorology (2005): 633-655. doi:10.1175/JHM434.1.
. “Characteristics And Trends Of River Discharge, Into Hudson, James, And Ungava Bays, 1964 - 1994”. Journal Of Climate 18, no. 14. Journal Of Climate (2005): 2540-2557. doi:10.1175/JCLI3440.1.
. “Oxygen Dynamics In Permafrost Thaw Lakes: Anaerobic Bioreactors In The Canadian Subarctic”. Limnology And Oceanography 60, no. 5. Limnology And Oceanography (2015): 1656-1670. doi:10.1002/lno.10126.
. “Long-Term Warming Alters The Composition Of Arctic Soil Microbial Communities”. Fems Microbiol Ecol 82, no. 2. Fems Microbiol Ecol (2012): 303-15. doi:10.1111/j.1574-6941.2012.01350.x.
. “Long-Term Experimental Manipulation Of Climate Alters The Ectomycorrhizal Community Of Betula Nana In Arctic Tundra”. Global Change Biology 17, no. 4. Global Change Biology (2011): 1625-1636. doi:10.1111/j.1365-2486.2010.02318.x.
. “Below-Ground Carbon Transfer Among Betula Nana May Increase With Warming In Arctic Tundra”. New Phytologist 192, no. 3. New Phytologist (2011): 689-698. doi:10.1111/j.1469-8137.2011.03835.x.
. “Linking Functional Diversity And Social Actor Strategies In A Framework For Interdisciplinary Analysis Of Nature's Benefits To Society”. Proceedings Of The National Academy Of Sciences 108, no. 3. Proceedings Of The National Academy Of Sciences (2011): 895-902. doi:10.1073/pnas.1017993108.
. “Carbon And Nitrogen Stoichiometry And Nitrogen Cycling Rates In Streams”. Oecologia 140, no. 3. Oecologia (2004): 458-467. doi:10.1007/s00442-004-1599-y.
. “N Uptake As A Function Of Concentration In Streams”. Journal Of The North American Benthological Society 21, no. 2. Journal Of The North American Benthological Society (2002): 206-220. doi:10.2307/1468410.
. “Biotime: A Database Of Biodiversity Time Series For The Anthropocene”. Global Ecology And Biogeography 27. Global Ecology And Biogeography (2018): 760-786. doi:10.1111/geb.12729.
. “Clonal Diversity In An Expanding Community Of Arctic Salix Spp. And A Model For Recruitment Modes Of Arctic Plants”. Arctic, Antarctic And Alpine Research 42, no. 4. Arctic, Antarctic And Alpine Research (2010): 406-411. doi:10.1657/1938-4246.42.4.406.
. “The Contribution Of Mosses To The Carbon And Water Exchange Of Arctic Ecosystems: Quantification And Relationship With System Properties”. Plant, Cell And Environment 30. Plant, Cell And Environment (2007): 1205-1215. doi:10.1111/j.1365-3040.2007.01697.x.
. “Routine Measurement Of Dissolved Inorganic 15N In Streamwater”. Environmental Monitoring And Assessment 55. Environmental Monitoring And Assessment (1999): 211-220. doi:10.1023/A:1006194307747.
. “A Catchment-Based Approach To Modeling Land Surface Processes In A Gcm - Part Ii: Parameter Estimation And Model Demonstration”. Journal Of Geophysical Research: Atmospheres 105, no. 24823-24838. Journal Of Geophysical Research: Atmospheres (2000). doi:10.1029/2000JD900328.
. “Long-Term Experimental Warming And Fertilization Have Opposing Effects On Ectomycorrhizal Root Enzyme Activity And Fungal Community Composition In Arctic Tundra”. Soil Biology And Biochemistry 154. Soil Biology And Biochemistry (2021): 108151. doi:10.1016/j.soilbio.2021.108151.
. “Is Competition Important To Arctic Zooplankton Community Structure?”. Freshwater Biology 49, no. 9. Freshwater Biology (2004): 1103-1111. doi:10.1111/j.1365-2427.2004.01250.x.
. “The Hydraulic Characteristics And Geochemistry Of Hyporheic And Parafluvial Zones In Arctic Tundra Streams, North Slope, Alaska”. Advances In Water Resources 26. Advances In Water Resources (2003): 907-923. doi:10.1016/S0309-1708(03)00078-2.
. “Plot-Scale Evidence Of Tundra Vegetation Change And Links To Recent Summer Warming”. Nature Climate Change 2, no. 6. Nature Climate Change (2012): 453-457. doi:10.1038/nclimate1465.
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