. “Responses Of Boreal Forest Ecosystems And Permafrost To Climate Change And Disturbances: A Modeling Perspective”. Arctic Hydrology, Permafrost And Ecosystems, Springer International Publishing, 2021, pp. 849 - 892.
Publications
Displaying 21 - 40 of 58
By year of publication, then alphabetical by title
- . “Shallow Soils Are Warmer Under Trees And Tall Shrubs Across Arctic And Boreal Ecosystems”. Environmental Research Letters, 2021, p. 015001.
- . “Soil Respiration Strongly Offsets Carbon Uptake In Alaska And Northwest Canada”. Environmental Research Letters, 2021, p. 084051.
- . “Statistical Upscaling Of Ecosystem Carbon Dioxide Fluxes Across The Terrestrial Tundra And Boreal Domain: Regional Patterns And Uncertainties”. Global Change Biology, 2021, pp. 4040 - 4059.
- . “Temporal, Spatial, And Temperature Controls On Organic Carbon Mineralization And Methanogenesis In Arctic High-Centered Polygon Soilsdata_Sheet_1.Docx”. Frontiers In Microbiology, 2021.
- . “Topographical Controls On Hillslope‐Scale Hydrology Drive Shrub Distributions On The Seward Peninsula, Alaska”. Journal Of Geophysical Research: Biogeosciences, 2021.
- . “Triose Phosphate Utilization Limitation: An Unnecessary Complexity In Terrestrial Biosphere Model Representation Of Photosynthesis”. New Phytologist, 2021.
- . “Untargeted Exometabolomics Provides A Powerful Approach To Investigate Biogeochemical Hotspots With Vegetation And Polygon Type In Arctic Tundra Soils”. Soil Systems, 2021, p. 10.
- . “Water Balance Response Of Permafrost-Affected Watersheds To Changes In Air Temperatures”. Environmental Research Letters, 2021, p. 084054.
- . “A Modeling Toolbox For Permafrost Landscapes”. Eos, Transactions, American Geophysical Union, 2018.
- . “A Subgrid Approach For Modeling Microtopography Effects On Overland Flow”. Water Resources Research, 2018, pp. 6153 - 6167.
- . “A Synthesis Dataset Of Permafrost-Affected Soil Thermal Conditions For Alaska, Usa”. Earth System Science Data, 2018, pp. 2311 - 2328.
- . “Accelerated Nutrient Cycling And Increased Light Competition Will Lead To 21St Century Shrub Expansion In North American Arctic Tundra”. Journal Of Geophysical Research: Biogeosciences, 2018, pp. 1683 - 1701.
- . “An Intermediate-Scale Model For Thermal Hydrology In Low-Relief Permafrost-Affected Landscapes”. Computational Geosciences, 2018.
- . “Characterization Of Iron Oxide Nanoparticle Films At The Air–Water Interface In Arctic Tundra Waters”. Science Of The Total Environment, 2018, pp. 1460-1468.
- . “Dependence Of The Evolution Of Carbon Dynamics In The Northern Permafrost Region On The Trajectory Of Climate Change”. Proceedings Of The National Academy Of Sciences, 2018, pp. 3882 - 3887.
- . “Depth-Resolved Physicochemical Characteristics Of Active Layer And Permafrost Soils In An Arctic Polygonal Tundra Region”. Journal Of Geophysical Research: Biogeosciences, 2018, pp. 1366 - 1386.
- . “Detecting The Permafrost Carbon Feedback: Talik Formation And Increased Cold-Seasonrespiration As Precursors To Sink-To-Source Transitions”. The Cryosphere Discussions, 2018, pp. 1 - 44.
- . “Disentangling The Complexity Of Permafrost Soil By Using High Resolution Profiling Of Microbial Community Composition, Key Functions And Respiration Rates”. Environmental Microbiology, 2018.
- . “Evaporation Dominates Evapotranspiration On Alaska’s Arctic Coastal Plain”. Arctic, Antarctic, And Alpine Research, 2018, p. e1435931.