Bibliography
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“Multi-Trophic Impacts Of Shrub Dominance On Arctic Arthropod Assemblages”. Society Of Integrative And Comparative Biology’s (Sicb) Annual Meeting. Society Of Integrative And Comparative Biology’s (Sicb) Annual Meeting. Austin, TX, 2014.
. “Model Responses To Co 2 And Warming Are Underestimated Without Explicit Representation Of Arctic Small‐Mammal Grazing”. Ecological Applications 32, no. 1. Ecological Applications (2022). doi:10.1002/eap.v32.110.1002/eap.2478.
. “Mammalian Herbivory Exacerbates Plant Community Responses To Long-Term Increased Soil Nutrients In Two Alaskan Tundra Plant Communities”. Arctic Science 4. Arctic Science (2018): 153-166. doi:10.1139/AS-2017-0025.
. “Luxury Consumption: A Possible Competitive Strategy In Above-Belowground Carbon Allocation For Slow-Growing Vegetation?”. Journal Of Ecology 91, no. 4. Journal Of Ecology (2003): 664-676. doi:10.1046/j.1365-2745.2003.00788.x.
. “Long-Term Warming Restructures Arctic Tundra Without Changing Net Soil Carbon Storage”. Nature 497. Nature (2013): 615-618. doi:10.1038/nature12129.
. “Long-Term Nutrient Addition Alters Arthropod Community Composition But Does Not Increase Total Biomass Or Abundance”. Oikos 127, no. 3. Oikos (2018): 460 - 471. doi:10.1111/oik.04398.
. “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.
. “Long-Term Ecosystem Level Experiments In Toolik Lake, Alaska, And Abisko, Northern Sweden: Generalizations And Differences In Ecosystem And Plant Type Responses To Global Change”. Global Change Biology 10, no. 1. Global Change Biology (2004): 105-123. doi:10.1111/j.1365-2486.2003.00719.x.
. “Litter Decomposition In Moist Acidic And Non-Acidic Tundra With Different Glacial Histories”. Oecologia 140. Oecologia (2004): 113-124. doi:10.1007/s00442-004-1556-9.
. “Lidar Gives A Bird’s Eye Perspective On Arctic Tundra Breeding Habitat.”. Remote Sensing Of Environment 184. Remote Sensing Of Environment (2016): 337-349. doi:10.1016/j.rse.2016.07.012.
. “Late-Season Snowfall Is Associated With Decreased Offspring Survival In Two Migratory Arctic-Breeding Songbird Species”. Journal Of Avian Biology 49, no. 9. Journal Of Avian Biology (2018). doi:10.1111/jav.01712.
. “Interannual Variability In Arctic Phenology And Reproductive Success In The White-Crowned Sparrow (Zonotrichia Leucophrys Gambelii) And Lapland Longspur (Calcarius Lapponicus)”. Society Of Integrative And Comparative Biology’s (Sicb) Annual Meeting. Society Of Integrative And Comparative Biology’s (Sicb) Annual Meeting. Austin, TX, 2014.
. “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.
. “Impacts Of Changing Seasonality And Potential For Trophic Mismatches In The Arctic”. Society For Integrative And Comparative Biology (Sicb) Annual Meeting. Society For Integrative And Comparative Biology (Sicb) Annual Meeting. Austin, TX, 2014.
. “How Herbivores Affect Plant Growth, Community Structure And Litter Decomposition In Alaskan Tundra: Implications For Responses To Climate Change”. Biology. Biology. University of Texas at Arlington, 2008. http://hdl.handle.net/10106/1048.
. “Herbivores In Arctic Ecosystems: Effects Of Climate Change And Implications For Carbon And Nutrient Cycling”. Annals Of The New York Academy Of Sciences 1516, no. 1. Annals Of The New York Academy Of Sciences (2022): 28 - 47. doi:10.1111/nyas.14863.
. “Greater Shrub Dominance Alters Breeding Habitat And Food Resources For Migratory Songbirds In Alaskan Arctic Tundra”. Global Change Biology 21, no. 4. Global Change Biology (2015): 1508-1520. doi:10.1111/gcb.12761.
. “Greater Deciduous Shrub Abundance Extends Tundra Peak Season And Increases Modeled Net Co2 Uptake”. Global Change Biology 21, no. 6. Global Change Biology (2015): 2394-2409. doi:10.1111/gcb.12852.
. “Greater Deciduous Shrub Abundance Extends Tundra Peak Season And Increases Modeled Net Carbon Dioxide Uptake”. American Geophysical Union Annual Meeting. American Geophysical Union Annual Meeting. San Francisco, CA, 2014.
. “Global Environmental Change And The Nature Of Aboveground Net Primary Productivity Responses: Insights From Long-Term Experiments”. Oecologia 177, no. 4. Oecologia (2015): 935-947. doi:10.1007/s00442-015-3230-9.
. “Global Change Effects On Plant Communities Are Magnified By Time And The Number Of Global Change Factors Imposed”. Proceedings Of The National Academy Of Sciences 116, no. 36. Proceedings Of The National Academy Of Sciences (2019): 17867 - 17873. doi:10.1073/pnas.1819027116.
. “Functional- And Abundance-Based Mechanisms Explain Diversity Loss Due To N Fertilization”. Proceedings Of The National Academy Of Sciences 102, no. 12. Proceedings Of The National Academy Of Sciences (2005): 4387-4392. doi:10.1073/pnas.0408648102.
. “Freshwater Arctic Tundra Wetlands”. In Wetland Habitats Of North America: Ecology And Conservation Concerns, 371-386. Wetland Habitats Of North America: Ecology And Conservation Concerns. University of California Press, 2012.
. “Foliar And Soil Nutrients In Tundra On Glacial Landscapes Of Contrasting Ages In Northern Alaska”. Oecologia 131, no. 3. Oecologia (2002): 453-462. doi:10.1007/s00442-002-0892-x.
. “Fertilization Effects On Species Density And Primary Productivity In Herbaceous Plant Communities”. Oikos 89, no. 3. Oikos (2000): 428-439. doi:10.1034/j.1600-0706.2000.890302.x.
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