Bibliography
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“Controls On Production Of Bryophytes In Arctic Tundra Stream”. Freshwater Biology 32. Freshwater Biology (1994): 455-466. doi:10.1111/j.1365-2427.1994.tb01139.x.
. “Regional Climate Model Simulation Of Surface Moisture Flux Variations In Northern Terrestrial Regions”. Atmospheric And Climate Sciences 08, no. 01. Atmospheric And Climate Sciences (2018): 29 - 54. doi:10.4236/acs.2018.81003.
. “Modern And Historic Atmospheric Mercury Fluxes In Northern Alaska: Global Sources And Arctic Depletion”. Environmental Science And Technology 39. Environmental Science And Technology (2005): 557-568. doi:10.1021/es049128x.
. “Microbial Film Formation On Metals In An Enriched Arctic River”. Biofouling 1. Biofouling (1989): 301-311. doi:10.1080/08927018909378118.
. “A Microcalorimetric Investigation Of The Effect Of High Molecular Weight Organics On Epilithic Microbial Metabolism”. Archiv Fur Hydrobiologie Beiheft 31. Archiv Fur Hydrobiologie Beiheft (1988): 195-201.
. “Stable Isotope Diagrams Of Freshwater Food Webs”. Ecology 72, no. 6. Ecology (1991): 2293-2297. doi:10.2307/1941580.
. “Reproduction Of Eriophorum Vaginatum By Seed In Alaskan Tussock Tundra”. Journal Of Ecology 74, no. 1. Journal Of Ecology (1986): 1-18. doi:10.2307/2260345.
. “Demographic Patterns Of Seedling Establishment And Growth Of Native Graminoids In An Alaskan Tundra Disturbance”. Journal Of Applied Ecology 20, no. 3. Journal Of Applied Ecology (1983): 965-980. doi:10.2307/2403140.
. “Growth Responses Of Sphagnum Hollows To A Growing Season Lengthening Manipulation In Alaskan Arctic Tundra”. Polar Biology 36, no. 1. Polar Biology (2013): 41-50. doi:10.1007/s00300-012-1236-x.
. “A Comparison Of Whole And Thin-Sectioned Otolith Aging Techniques And Validation Of Annuli For Arctic Grayling”. Northwest Science 71, no. 3. Northwest Science (1997): 224-232. http://hdl.handle.net/2376/1243.
. “Controls Of Benthic Nitrogen Fixation And Primary Production From Nutrient Enrichment Of Oligotrophic Arctic Lakes”. Ecosystems 16. Ecosystems (2013): 1150-1564. doi:10.1007/s10021-013-9701-0.
. “The Effects Of Grazing By The Snail Lymnaea Elodes On Benthic N2 Fixation And Primary Production In Oligotrophic, Arctic Lakes”. Limnology And Oceanography 52, no. 6. Limnology And Oceanography (2007): 2398–2409. doi:10.4319/lo.2007.52.6.2398.
. “A Micro-Bioassay For Epilithon Using Nutrient-Diffusing Artificial Substrata”. Journal Of Freshwater Ecology 5, no. 2. Journal Of Freshwater Ecology (1989): 171-176. doi:10.1080/02705060.1989.9665226.
. “Measuring Nutrient Availability In Arctic Soils Using Ion-Exchange Resins: A Field Test”. Soil Science Society Of America Journal 58, no. 4. Soil Science Society Of America Journal (1994): 1154-1162. doi:10.2136/sssaj1994.03615995005800040021x.
. “Biogeochemical Diversity Along A Riverside Toposequence In Arctic Alaska”. Ecological Monographs 61, no. 4. Ecological Monographs (1991): 415-435. doi:10.2307/2937049.
. “Soil Carbon Availability Decouples Net Nitrogen Mineralization And Net Nitrification Across United States Long Term Ecological Research Sites”. Biogeochemistry 162, no. 1. Biogeochemistry (2023): 13 - 24. doi:10.1007/s10533-022-01011-w.
. “The Trophic Interactions Of Young Arctic Grayling (Thymallus Arcticus) In An Arctic Tundra Stream”. Freshwater Biology 39, no. 4. Freshwater Biology (1998): 637-648. doi:10.1046/j.1365-2427.1998.00314.x.
. “Predicting Hydrologic Function With Aquatic Gene Fragments”. Water Resources Research 54. Water Resources Research (2018): 2424-2435. doi:10.1002/2017WR021974.
. “Comparison Of In-Channel Mobile-Immobile Zone Exchange During Instantaneous And Constant-Rate Stream Tracer Additions: Implications For Design And Interpretation Of Non-Conservative Tracer Experiments”. Journal Of Hydrology 357, no. 1-2. Journal Of Hydrology (2008): 112-1124. doi:10.1016/j.jhydrol.2008.05.006.
. “Effects Of Hillslope Thermokarst In Northern Alaska”. Eos, Transactions American Geophysical Union 90, no. 4. Eos, Transactions American Geophysical Union (2009): 29-30. doi:10.1029/2009EO040001.
. “Neighbor Effects On Germination, Survival And Growth In Two Arctic Tundra Plant Communities”. Ecography 29. Ecography (2006): 44-56. doi:10.1111/j.2005.0906-7590.04096.x.
. “Dry Heath Arctic Tundra Responses To Long-Term Nutrient And Light Manipulation”. Arctic, Antarctic And Alpine Research 34, no. 2. Arctic, Antarctic And Alpine Research (2002): 211-218. doi:10.2307/1552473.
. “Effects Of Long-Term Nutrient Additions On Arctic Tundra, Stream, And Lake Ecosystems: Beyond Npp”. Oecologia. Oecologia (2016). doi:10.1007/s00442-016-3716-0.
. “Above- And Belowground Responses Of Arctic Tundra Ecosystems To Altered Soil Nutrients And Mammalian Herbivory”. Ecology 93, no. 7. Ecology (2012): 1683-1694. doi:10.1890/11-1631.1.
. “Long-Term Mammalian Herbivory And Nutrient Addition Alter Lichen Community Structure In Alaskan Dry Heath Tundra”. Arctic, Antarctic And Alpine Research 40, no. 1. Arctic, Antarctic And Alpine Research (2008): 65-73. doi:10.1657/1523-0430(06-087)%5BGough%5D2.0.Co;2.
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