Bibliography
“The Physical Limnology Of High Latitude Lakes”. In Polar Lakes And Rivers: Limnology Of Arctic And Antarctic Aquatic Ecosystems. Polar Lakes And Rivers: Limnology Of Arctic And Antarctic Aquatic Ecosystems. Oxford, U.K.: Oxford University Press, 2008.
. “Introduction To The Limnology Of High-Latitude Lake And River Ecosystems”. In Polar Lakes And Rivers: Limnology Of Arctic And Antarctic Aquatic Ecosystems., 23-Jan. Polar Lakes And Rivers: Limnology Of Arctic And Antarctic Aquatic Ecosystems. Oxford: Oxford University Press, 2008.
. “Reflecting On Alaska: Advanced Remote Sensing Approaches To Understand Tundra Vegetation Change (Invited Speaker)”. Columbia University, New York, NY, 2013.
. “Microbial Adaptations To Extreme Environments”. In Microorganisms In Action, 193-206. Microorganisms In Action. Oxford, England: Blackwell Scientific Publications, 1988.
. “Recovery Of Productivity And Species Diversity In Tussock Tundra Following Disturbance”. Arctic, Antarctic And Alpine Research 31, no. 3. Arctic, Antarctic And Alpine Research (1999): 254-258. doi:10.2307/1552254.
. “Inter-Annual Variability Of Plant Phenology In Tussock Tundra: Modelling Interactions Of Plant Productivity, Snowmelt, And Soil Thaw”. Global Change Biology 9, no. 5. Global Change Biology (2003): 743-758. doi:10.1046/j.1365-2486.2003.00625.x.
. “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.
. “Optical Instruments For Measuring Leaf Area Index In Low Vegetation: Application In Arctic Ecosystems”. Ecological Applications 15. Ecological Applications (2005): 1462-1470. doi:10.1890/03-5354.
. “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.
. “Tight Coupling Between Leaf Area Index And Foliage N Content In Arctic Plant Communities”. Oecologia 142, no. 3. Oecologia (2005): 421-427. doi:10.1007/s00442-004-1733-x.
. “Long-Term Warming Research In High-Latitude Ecosystems: Responses From Polar Ecosystems And Implications For Future Climate”. In Ecosystem Consequences Of Soil Warming. 1st ed. Ecosystem Consequences Of Soil Warming. Academic Press, 2019.
. “Factors Determining Plant Species Richness In Alaskan Arctic Tundra”. Journal Of Vegetation Science 14, no. 5. Journal Of Vegetation Science (2003): 711-720. doi:10.1111/j.1654-1103.2003.tb02203.x.
. “Response Of Dark Respiration To Temperature In Eriophorum Vaginatum From A 30-Year-Old Transplant Experiment In Alaska”. Plant Ecology And Diversity. Plant Ecology And Diversity (2012): 1-5. doi:10.1080/17550874.2012.729618.
. “Influence Of Topography On Soil Acidity And Hydrogen Ion Budgets In An Arctic Landscape”. Duke University, 1991.
. .
“Change In Surface Energy Balance In Alaska Due To Fire And Spring Warming, Based On Upscaling Eddy Covariance Measurements”. Journal Of Geophysical Research: Biogeosciences 119, no. 10. Journal Of Geophysical Research: Biogeosciences (2014): 1947-1969. doi:10.1002/2014jg002717.
. “Growing Season And Spatial Variations Of Carbon Fluxes Of Arctic And Boreal Ecosystems In Alaska (Usa)”. Ecological Applications 23, no. 8. Ecological Applications (2013): 1798-1816. doi:10.1890/11-0875.1.
. “Cycling Of Dissolved Elemental Mercury In Arctic Alaskan Lakes”. Geochemica Et Cosmochemica Acta 68, no. 6. Geochemica Et Cosmochemica Acta (2004): 1173-1184. doi:10.1016/j.gca.2003.07.023.
. “The Role Of Iron And Reactive Oxygen Species In The Production Of Co 2 In Arctic Soil Waters”. Geochimica Et Cosmochimica Acta 224, no. 1. Geochimica Et Cosmochimica Acta (2018): 80 - 95. doi:10.1016/j.gca.2017.12.022.
. “The Controls Of Iron And Oxygen On Hydroxyl Radical (•Oh) Production In Soils”. Soil Systems 3, no. 1. Soil Systems (2019): 1. doi:10.3390/soilsystems3010001.
. “Seasonal And Hydrologic Drivers Of Dissolved Organic Matter And Nutrients In The Upper Kuparuk River, Alaskan Arctic”. Biogeochemistry 103, no. 1-3. Biogeochemistry (2011): 109-124. doi:10.1007/s10533-010-9451-4.
. “Partitioning Assimilatory Nitrogen Uptake In Streams: An Analysis Of Stable Isotope Tracer Additions Across Continents”. Ecological Monographs 88, no. 1. Ecological Monographs (2018): 120 - 138. doi:10.1002/ecm.1280.
. “Emerging Opportunities And Challenges In Phenology: A Review”. Ecosphere 7, no. 8. Ecosphere (2016): e01436. doi:10.1002/ecs2.1436.
. “Modeling Co2 Emissions From Arctic Lakes: Model Development And Site-Level Study”. Journal Of Advances In Modeling Earth Systems 9. Journal Of Advances In Modeling Earth Systems (2017). doi:10.1002/2017MS001028.
. “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.
.