Bibliography
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“Bioavailability Of Dissolved Organic Carbon Across A Hillslope Chronosequence In The Kuparuk River Region, Alaska”. Soil Biology And Biochemistry 79. Soil Biology And Biochemistry (2014): 25-33. doi:10.1016/j.soilbio.2014.08.020.
. “Biodiversity, Distributions And Adaptations Of Arctic Species In The Context Of Environmental Change”. Ambio 33, no. 7. Ambio (2004): 404-417. doi:10.1579/0044-7447-33.7.404.
. “Biogenic Silica Accumulation Varies Across Tussock Tundra Plant Functional Type”. Functional Ecology 31, no. 11. Functional Ecology (2017): 2177 - 2187. doi:10.1111/1365-2435.12912.
. “Biogeochemical Cycling Of Methylmercury In Lakes And Tundra Watersheds Of Arctic Alaska”. Environmental Science And Technology 40, no. 4. Environmental Science And Technology (2006): 1204-1211. doi:10.1021/es051322b.
. “Biogeochemical Diversity Along A Riverside Toposequence In Arctic Alaska”. Ecological Monographs 61, no. 4. Ecological Monographs (1991): 415-435. doi:10.2307/2937049.
. “Biogeochemical Responses Over 37 Years To Manipulation Of Phosphorus Concentrations In An Arctic River: The Upper Kuparuk River Experiment”. Hydrological Processes 35. Hydrological Processes (2021). doi:10.1002/hyp.14075.
. “A Biogeochemical Survey Of Rivers And Streams In The Mountains And Foot-Hills Province Of Arctic Alaska”. Archiv Fur Hydrobiologie Beiheft 115. Archiv Fur Hydrobiologie Beiheft (1989): 499-521.
. “The Biogeochemistry And Zoogeography Of Lakes And Rivers In Arctic Alaska”. Hydrobiologia 240. Hydrobiologia (1992): 1-14. doi:10.1007/Bf00013447.
. “Biogeochemistry Of Manganese- And Iron-Rich Sediments In Toolik Lake, Alaska”. Hydrobiologia 240. Hydrobiologia (1992): 45-59. doi:10.1007/bf00013451.
. “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.
. “Biological Response Of A Tundra River To Fertilization”. Ecology 74, no. 3. Ecology (1993): 653-672. doi:10.2307/1940794.
. “Biological Responses To Fertilization Of Oksrukuyik Creek, A Tundra Stream”. Journal Of The North American Benthological Society 17, no. 2. Journal Of The North American Benthological Society (1998): 190-209. doi:10.2307/1467962.
. “Biomass And Co2 Flux In Wet Sedge Tundras: Responses To Nutrients, Temperature, And Light”. Ecological Monographs 68, no. 1. Ecological Monographs (1998): 75-97. doi:10.1890/0012-9615(1998)068%5B0075:BACFIW%5D2.0.CO;2.
. “Biomass Offsets Little Or None Of Permafrost Carbon Release From Soils, Streams, And Wildfire: An Expert Assessment”. Environmental Research Letters 11. Environmental Research Letters (2016): 034014. doi:10.1088/1748-9326/11/3/034014.
. “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.
. “Blackfly (Diptera:simuliidae) Responses To Phosphorus Enrichment Of An Arctic Tundra Stream”. Hydrobiologia 240. Hydrobiologia (1992): 259-266. doi:10.1007/BF00013467.
. “Breeding On The Leading Edge Of A Northward Expansion: Differences In Morphology And The Stress Response Of The Arctic Gambel's White-Crowned Sparrow”. Oecologia 180, no. 1. Oecologia (2016): 33-44. doi:10.1007/s00442-015-3447-7.
. “Breeding On The Leading Edge Of A Northward Expansion: Differences In Morphology And The Stress Response Of The Arctic Gambel’s White-Crowned Sparrow”. Oecologia 180. Oecologia (2016): 33–44. doi:10.1007/s00442-015-3447-7.
. “Buoyancy Flux, Turbulence, And The Gas Transfer Coefficient In A Stratified Lake”. Geophysical Research Letters 37, no. 24. Geophysical Research Letters (2010): L24604. doi:10.1029/2010gl044164.
. “Burn Severity Influences Postfire Co2 Exchange In Arctic Tundra”. Ecological Applications 21, no. 2. Ecological Applications (2011): 477-89. doi:10.1890/10-0255.1.
. “Carbon And Nitrogen Cycling In Soils From Acidic And Nonacidic Tundra With Different Glacial Histories In Northern Alaska”. Ecosystems 5. Ecosystems (2002): 761-774. doi:10.1007/s10021-002-0185-6.
. “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.
. “Carbon Cycling In The Kuparuk Basin: Plant Production, Carbon Storage, And Sensitivity To Future Changes”. Journal Of Geophysical Research: Atmospheres 103, no. D22. Journal Of Geophysical Research: Atmospheres (1998): 29065-29073. doi:10.1029/98jd00804.
. “Carbon Dioxide Supersaturation In The Surface Waters Of Lakes”. Science 265, no. 5178. Science (1994): 1568-1570. doi:10.1126/science.265.5178.1568.
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