. “Climate Policy Implications Of Nonlinear Decline Of Arctic Land Permafrost And Other Cryosphere Elements”. Nature Communications, 2019, p. 1900.
Publications
Displaying 121 - 140 of 322
By year of publication, then alphabetical by title
- . “Competitor And Substrate Sizes And Diffusion Together Define Enzymatic Depolymerization And Microbial Substrate Uptake Rates”. Soil Biology And Biochemistry, 2019.
- . “Controls On Fine-Scale Spatial And Temporal Variability Of Plant-Available Inorganic Nitrogen In A Polygonal Tundra Landscape”. Ecosystems, 2019, pp. 528–543.
- . “Enhancing Global Change Experiments Through Integration Of Remote‐Sensing Techniques”. Frontiers In Ecology And The Environment, 2019, pp. 215 - 224.
- . “Evaluating Temporal Controls On Greenhouse Gas (Ghg) Fluxes In An Arctic Tundra Environment: An Entropy-Based Approach”. Science Of The Total Environment, 2019, pp. 284 - 299.
- . “Evaluation Of An Untargeted Nano-Liquid Chromatography-Mass Spectrometry Approach To Expand Coverage Of Low Molecular Weight Dissolved Organic Matter In Arctic Soil”. Scientific Reports, 2019.
- . “Expansion Of High-Latitude Deciduous Forests Driven By Interactions Between Climate Warming And Fire”. Nature Plants, 2019, pp. 952–958.
- . “Fluxnet-Methane Synthesis Activity: Objectives, Observations, And Future Directions”. Bulletin Of The American Meteorological Society, 2019, pp. 2607–2632.
- . “From The Arctic To The Tropics: Multibiome Prediction Of Leaf Mass Per Area Using Leaf Reflectance”. New Phytologist, 2019, pp. 1557-1568.
- . “Global Photosynthetic Capacity Is Optimized To The Environment”. Ecology Letters, 2019, pp. 506 - 517.
- . “Ion Concentrations In Ice Wedges: An Innovative Approach To Reconstruct Past Climate Variability”. Earth And Planetary Science Letters, 2019, pp. 58 - 66.
- . “Iron (Oxyhydr)Oxides Serve As Phosphate Traps In Tundra And Boreal Peat Soils”. Journal Of Geophysical Research: Biogeosciences, 2019, pp. 227 - 246.
- . “Large Loss Of Carbon Dioxide In Winter Observed Across The Northern Permafrost Region”. Nature Climate Change, 2019, pp. 852-857.
- . “Mechanistic Modeling Of Microtopographic Impacts On Carbon Dioxide And Methane Fluxes In An Alaskan Tundra Ecosystem Using The Clm‐Microbe Model”. Journal Of Advances In Modeling Earth Systems, 2019, p. 17.
- . “Modeling Anaerobic Soil Organic Carbon Decomposition In Arctic Polygon Tundra: Insights Into Soil Geochemical Influences On Carbon Mineralization”. Biogeosciences, 2019, pp. 663 - 680.
- . “Modeling Climate Change Impacts On An Arctic Polygonal Tundra: 1. Rates Of Permafrost Thaw Depend On Changes In Vegetation And Drainage”. Journal Of Geophysical Research: Biogeosciences, 2019, pp. 1308 - 1322.
- . “Modeling Climate Change Impacts On An Arctic Polygonal Tundra: 2. Changes In Carbon Dioxide And Methane Exchange Depend On Rates Of Permafrost Thaw As Affected By Changes In Vegetation And Drainage”. Journal Of Geophysicalresearch: Biogeosciences, 2019, pp. 1323 - 1341.
- . “No Evidence For Triose Phosphate Limitation Of Light‐Saturated Leaf Photosynthesis Under Current Atmospheric Carbon Dioxide Concentration”. Plant, Cell & Environment, 2019, pp. 3241 - 3252.
- . “Numerical Modeling Of Two-Dimensional Temperature Field Dynamics Across Non-Deforming Ice-Wedge Polygons”. Cold Regions Science And Technology, 2019, pp. 115 - 128.
- . “Radiocarbon Evidence That Millennial And Fast-Cycling Soil Carbon Are Equally Sensitive To Warming”. Nature Climate Change, 2019, pp. 467-471.