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“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.
. “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.
. “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.
. “Plant-Herbivore Interactions In Alaskan Arctic Tundra Change With Soil Nutrient Availability”. Oikos 116, no. 3. Oikos (2007): 407-418. doi:10.1111/j.0030-1299.2007.15449.x.
. “Effects Of Increased Soil Nutrients On Seed Rain: A Role For Seed Dispersal In The Greening Of The Arctic?”. Arctic, Antarctic And Alpine Research 47, no. 1. Arctic, Antarctic And Alpine Research (2015): 27-34. doi:10.1657/AAAR0014-055.
. “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.
. “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.
. “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.
. “Conducting Research At The Arctic Lter: Bridging Community And Ecosystem Ecology Via Collaborations”. In Long Term Ecological Research: Changing The Nature Of Scientists, 83-90. Long Term Ecological Research: Changing The Nature Of Scientists. New York, NY: Oxford University Press, 2016.
. “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.
. “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.
. “Ecological Monitoring At Toolik Field Station: Lessons Learned And Challenges Ahead”. Arctic Biodiversity Congress. Arctic Biodiversity Congress. Trondheim, Norway, 2014.
. “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.
. “Responses Of Moist Non-Acidic Arctic Tundra To Altered Environment: Productivity, Biomass And Species Richness”. Oikos 103. Oikos (2003): 204-216. doi:10.1034/j.1600-0706.2003.12363.x.
. “Effects Of Global Change On Arctic Plants And Our Native Prairies (Invited Speaker)”. Native Plant Society Of Texas, Dallas Chapter. Native Plant Society Of Texas, Dallas Chapter. Dallas, TX, 2013.
. “Vascular Plant Species Richness In Alaskan Arctic Tundra: The Importance Of Soil Ph”. Journal Of Ecology 88, no. 1. Journal Of Ecology (2000): 54-66. doi:10.1046/j.1365-2745.2000.00426.x.
. “Effects Of Fish Predation On Larval Chironomid (Diptera, Chironomidae) Communities In An Arctic Ecosystem”. Hydrobiologia 240. Hydrobiologia (1992): 203-212. doi:10.1007/Bf00013461.
. “Effects Of Fish Predation On Chironomid (Diptera: Chironomidae) Communities In Arctic Lakes”. University of Minnesota, 1990.
. “Environmental Control And Intersite Variations Of Phenolics In Betula Nana In Tundra Ecosystems”. New Phytologist 151. New Phytologist (2001): 227-236. doi:10.1046/j.1469-8137.2001.00149.x.
. “Microbes In Thawing Permafrost: The Unknown Variable In The Climate Change Equation”. International Society For Microbial Ecology Journal 6, no. 4. International Society For Microbial Ecology Journal (2012): 709-712. doi:10.1038/ismej.2011.163.
. “Interactions Between Canopy Structure And Leaf Trait Distribution In Arctic Shrub Communities”. School Of Geosciences. School Of Geosciences. University of Edinburgh, 2013.
. “Estimating Aboveground Biomass Of Low-Stature Arctic Shrubs With Terrestrial Lidar”. American Geophysical Union Annual Meeting. American Geophysical Union Annual Meeting. San Francisco, CA, 2014.
. “The Role Of Leaf Carbon Exchange In Arctic Shrub Expansion”. Department Of Ecology, Evolution And Environmental Biology. Department Of Ecology, Evolution And Environmental Biology. Columbia University, 2009.
. “High-Resolution Mapping Of Aboveground Shrub Biomass In Arctic Tundra Using Airborne Lidar And Imagery”. Remote Sensing Of Environment 184. Remote Sensing Of Environment (2016): 361 - 373. doi:10.1016/j.rse.2016.07.026.
. “Estimating Aboveground Biomass And Leaf Area Of Low-Stature Arctic Shrubs With Terrestrial Lidar”. Remote Sensing Environment 164. Remote Sensing Environment (2015): 26-35. doi:10.1016/j.rse.2015.02.023.
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