Bibliography
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“Primary Production Of An Arctic Watershed: An Uncertainty Analysis”. Ecological Applications 11, no. 6. Ecological Applications (2001): 1800-1816. doi:10.1890/1051-0761%282001%29011%5B1800%3APPOAAW%5D2.0.CO%3B2.
. “Identifying Differences In Carbon Exchange Among Arctic Ecosystem Types”. Ecosystems 9, no. 2. Ecosystems (2006): 288-304. doi:10.1007/s10021-005-0146-y.
. “Vegetation Characteristics And Primary Productivity Along An Arctic Transect: Implications For Scaling-Up”. Journal Of Ecology 87, no. 5. Journal Of Ecology (1999): 885-898. doi:10.1046/j.1365-2745.1999.00404.x.
. “Arctic Canopy Photosynthetic Efficiency Enhanced Under Diffuse Light, Linked To A Reduction In The Fraction Of The Canopy In Deep Shade”. New Phytologist 202, no. 4. New Phytologist (2014): 1267-1276. doi:10.1111/nph.12750.
. “The Controls On Net Ecosystem Productivity Along An Arctic Transect: A Model Comparison With Flux Measurements”. Global Change Biology 6, no. S1. Global Change Biology (2000): 116-126. doi:10.1046/j.1365-2486.2000.06016.x.
. “Soil Nutrient Availability Affects Tundra Plant Community Composition And Plant–Vole Interactions”. Arctic, Antarctic, And Alpine Research 56. Arctic, Antarctic, And Alpine Research (2024): 2356276. doi:10.1080/15230430.2024.2356276.
. “Linking The Green And Brown Worlds: The Prevalence And Effect Of Multichannel Feeding In Food Webs”. Ecology 95, no. 12. Ecology (2014): 3376 - 3386. doi:10.1890/13-1721.1.
. “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.
. “A Coupled Field And Modeling Approach For The Analysis Of Nitrogen Cycling In Streams”. Journal Of The North American Benthological Society 18. Journal Of The North American Benthological Society (1999): 199-221. doi:10.2307/1468461.
. “Relationship Between River Size And Nutrient Removal”. Geophysical Research Letters 33, no. 6. Geophysical Research Letters (2006): L06410. doi:10.1029/2006GL025845.
. “Stream Dissolved Organic Matter In Permafrost Regions Shows Surprising Compositional Similarities But Negative Priming And Nutrient Effects”. Global Biogeochemical Cycles 35. Global Biogeochemical Cycles (2021). doi:10.1029/2020gb006719.
. “Ecosystem Feedbacks And Cascade Processes: Understanding Their Role In The Responses Of Arctic And Alpine Ecosystems To Environmental Change”. Global Change Biology 15, no. 5. Global Change Biology (2009): 1153-1172. doi:10.1111/j.1365-2486.2008.01801.x.
. “A Test Of Functional Convergence In Carbon Fluxes From Coupled C And N Cycles In Arctic Tundra”. Ecological Modelling 383. Ecological Modelling (2018): 31 - 40. doi:10.1016/j.ecolmodel.2018.05.017.
. “The Development And Field Test Of A Tactical Model Of The Planktivorous Feeding Of White Crappie (Pomoxis Annularis)”. Ecological Monographs 54, no. 1. Ecological Monographs (1984): 65-98. doi:10.2307/1942456.
. “Climate Impacts On Arctic Freshwater Ecosystems And Fisheries: Background, Rationale And Approach Of The Arctic Climate Impact Assessment (Acia)”. Ambio 35, no. 7. Ambio (2006): 326-329. doi:10.1579/0044-7447%282006%2935%5B326%3ACIOAFE%5D2.0.CO%3B2.
. “Effects Of Ultraviolet Radiation And Contaminant-Related Stressors On Arctic Freshwater Ecosystems”. Ambio 35, no. 7. Ambio (2006): 388-401. doi:10.1579%2F0044-7447(2006)35%5B388%3AEOURAC%5D2.0.CO%3B2.
. “Key Findings, Science Gaps And Policy Recommendations”. Ambio 35, no. 7. Ambio (2006): 411-415. doi:10.1579/0044-7447%282006%2935%5B411%3AKFSGAP%5D2.0.CO%3B2.
. “Climate Change Effects On Aquatic Biota, Ecosystem Structure And Function”. Ambio 35, no. 7. Ambio (2006): 359-369. doi:10.1579/0044-7447%282006%2935%5B359%3ACCEOAB%5D2.0.CO%3B2.
. “Epigeal Spider (Araneae) Communities In Moist Acidic And Dry Heath Tundra At Toolik Lake, Alaska”. Arctic, Antarctic And Alpine Research 43, no. 2. Arctic, Antarctic And Alpine Research (2011): 301-312. doi:10.1657/1938-4246-43.2.301.
. “Linx I And Ii: Lessons Learned And Emerging Questions”. Frontiers In Environmental Science 7. Frontiers In Environmental Science (2019): 181. doi:10.3389/fenvs.2019.00181.
. “Solar‐Induced Chlorophyll Fluorescence Exhibits A Universal Relationship With Gross Primary Productivity Across A Wide Variety Of Biomes”. Global Change Biology 25. Global Change Biology (2019). doi:10.1111/gcb.14565.
. “Solar-Induced Chlorophyll Fluorescence Exhibits A Universal Relationship With Gross Primary Productivity Across A Wide Variety Of Biomes”. Global Change Biology 25, no. 4. Global Change Biology (2019): e4 - e6. doi:10.1111/gcb.14565.
. “Ecological Scaling Laws Link Individual Body Size Variation To Population Abundance Fluctuation”. Oikos 125. Oikos (2016): 288–299. doi:10.1111/oik.03100.
. “Temperature And Vegetation Seasonality Diminishment Over Northern Lands”. Nature Climate Change 3. Nature Climate Change (2013): 581-586. doi:10.1038/nclimate1836.
. “Nitrogen Dynamics In A Small Arctic Watershed: Retention And Downhill Movement Of 15N”. Ecological Monographs 80, no. 2. Ecological Monographs (2010): 331-351. doi:10.1890/08-0773.1.
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