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Publications by Author

Last Name

Authors who are active project participants

  • David E. Graham

    2022

    • Zheng, J., et al. “Quantifying Ph Buffering Capacity In Acidic, Organic-Rich Arctic Soils: Measurable Proxies And Implications For Soil Carbon Degradation”. Geoderma, 2022, p. 116003.
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    • Zhang, L., et al. “Unravelling Biogeochemical Drivers Of Methylmercury Production In An Arctic Fen Soil And A Bog Soil”. Environmental Pollution, 2022, p. 118878.
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    2021

    • Roy_Chowdhury, T., et al. “Temporal, Spatial, And Temperature Controls On Organic Carbon Mineralization And Methanogenesis In Arctic High-Centered Polygon Soilsdata_Sheet_1.Docx”. Frontiers In Microbiology, 2021.
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    2020

    • Philben, M. J., et al. “Anaerobic Respiration Pathways And Response To Increased Substrate Availability Of Arctic Wetland Soils”. Environmental Science: Processes & Impacts, 2020, pp. 2070 - 2083.
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    • Philben, M. J., et al. “Influences Of Hillslope Biogeochemistry On Anaerobic Soil Organic Matter Decomposition In A Tundra Watershed”. Journal Of Geophysical Research: Biogeosciences, 2020.
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    2019

    • Zheng, J., et al. “Modeling Anaerobic Soil Organic Carbon Decomposition In Arctic Polygon Tundra: Insights Into Soil Geochemical Influences On Carbon Mineralization”. Biogeosciences, 2019, pp. 663 - 680.
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    • Yang, Z., et al. “Temperature Sensitivity Of Mineral-Enzyme Interactions On The Hydrolysis Of Cellobiose And Indican By Beta-Glucosidase”. Science Of The Total Environment, 2019, pp. 1194 - 1201.
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    2018

    • Jubb, A. M., et al. “Characterization Of Iron Oxide Nanoparticle Films At The Air–Water Interface In Arctic Tundra Waters”. Science Of The Total Environment, 2018, pp. 1460-1468.
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    • Zheng, J., et al. “Impacts Of Temperature And Soil Characteristics On Methane Production And Oxidation In Arctic Polygonal Tundra”. Biogeosciences Discussions, 2018, pp. 1 - 27.
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    • Chen, H., et al. “Molecular Insights Into Arctic Soil Organic Matter Degradation Under Warming”. Environmental Science & Technology, 2018, pp. 4555-4564.
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    2017

    • Herndon, E. M., et al. “Influence Of Iron Redox Cycling On Organo-Mineral Associations In Arctic Tundra Soil”. Geochimica Et Cosmochimica Acta, 2017, pp. 210-231.
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    • Grant, R. F., et al. “Mathematical Modeling Of Arctic Polygonal Tundra With Ecosys: 1. Microtopography Determines How Active Layer Depths Respond To Changes In Temperature And Precipitation”. Journal Of Geophysical Research: Biogeosciences, 2017, pp. 3161-3173.
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    • Yang, Z., et al. “Microbial Community And Functional Gene Changes In Arctic Tundra Soils In A Microcosm Warming Experiment”. Frontiers In Microbiology, 2017.
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    2016

    • Throckmorton, H. M., et al. “Active Layer Hydrology In An Arctic Tundra Ecosystem: Quantifying Water Sources And Cycling Using Water Stable Isotopes”. Hydrological Processes, 2016.
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    • Tang, G., et al. “Biogeochemical Model Of Carbon Dioxide And Methane Production In Anoxic Arctic Soil Microcosms”. Biogeosciences Discussions, 2016, pp. 1 - 31.
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    • Yang, Z., et al. “Effects Of Warming On The Degradation And Production Of Low-Molecular-Weight Labile Organic Carbon In An Arctic Tundra Soil”. Soil Biology And Biochemistry, 2016, pp. 202 - 211.
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    • Schädel, C., et al. “Potential Carbon Emissions Dominated By Carbon Dioxide From Thawed Permafrost Soils”. Nature Climate Change, 2016, pp. 950 - 953.
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    • Xu, X., et al. “Reviews And Syntheses: Four Decades Of Modeling Methane Cycling In Terrestrial Ecosystems”. Biogeosciences, 2016, pp. 3735 - 3755.
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    • Yang, Z., et al. “Warming Increases Methylmercury Production In An Arctic Soil”. Environmental Pollution, 2016, pp. 504 - 509.
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    2015

    • Xu, X., et al. “A Microbial Functional Group-Based Module For Simulating Methane Production And Consumption: Application To An Incubated Permafrost Soil”. Journal Of Geophysical Research: Biogeosciences, 2015, pp. 1315 - 1333.
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    • Herndon, E. M., et al. “Geochemical Drivers Of Organic Matter Decomposition In Arctic Tundra Soils”. Biogeochemistry, 2015, pp. 397 - 414.
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    • Mann, B. F., et al. “Indexing Permafrost Soil Organic Matter Degradation Using High-Resolution Mass Spectrometry”. Plos One, 2015.
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    • Heikoop, J. M., et al. “Isotopic Identification Of Soil And Permafrost Nitrate Sources In An Arctic Tundra Ecosystem”. Journal Of Geophysical Research: Biogeosciences, 2015, pp. 1000 - 1017.
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    • Newman, B. D., et al. “Microtopographic And Depth Controls On Active Layer Chemistry In Arctic Polygonal Ground”. Geophysical Research Letters, 2015, pp. 1808 - 1817.
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    • Herndon, E. M., et al. “Pathways Of Anaerobic Organic Matter Decomposition In Tundra Soils From Barrow, Alaska”. Journal Of Geophysical Research: Biogeosciences, 2015, pp. 2345 - 2359.
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    • RoyChowdhury, T., et al. “Stoichiometry And Temperature Sensitivity Of Methanogenesis And Co2 Production From Saturated Polygonal Tundra In Barrow, Alaska”. Global Change Biology, 2015, pp. 722 - 737.
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    2012

    • Graham, D. E., et al. “Microbes In Thawing Permafrost: The Unknown Variable In The Climate Change Equation”. The Isme Journal, 2012, pp. 709 - 712.
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  • Margaret S. Torn

    2021

    • Mekonnen, Z. A., et al. “Arctic Tundra Shrubification: A Review Of Mechanisms And Impacts On Ecosystem Carbon Balance”. Environmental Research Letters, 2021, p. 053001.
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    • Wainwright, H. M., et al. “High-Resolution Spatio-Temporal Estimation Of Net Ecosystem Exchange In Ice-Wedge Polygon Tundra Using In Situ Sensors And Remote Sensing Data”. Land, 2021, p. 722.
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    • Dengel, S., et al. “Influence Of Tundra Polygon Type And Climate Variability On Carbon Dioxide And Methane Fluxes Near Utqiagvik, Alaska”. Journal Of Geophysical Research: Biogeosciences, 2021.
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    • Watts, J. D., et al. “Soil Respiration Strongly Offsets Carbon Uptake In Alaska And Northwest Canada”. Environmental Research Letters, 2021, p. 084051.
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    • Virkkala, A. -M., et al. “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.
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    2020

    • Lehmann, J., et al. “Persistence Of Soil Organic Carbon Caused By Functional Complexity”. Nature Geoscience, 2020, pp. 529 - 534.
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    2019

    • Arora, B., et al. “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.
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    • Wang, Y., et al. “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.
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    • Grant, R. F., et al. “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.
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    2018

    • Taş, N., et al. “Landscape Topography Structures The Soil Microbiome In Arctic Polygonal Tundra”. Nature Communications, 2018.
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    2017

    • Raz-Yaseef, N., et al. “Evapotranspiration Across Plant Types And Geomorphological Units In Polygonal Arctic Tundra”. Journal Of Hydrology, 2017, pp. 816-825.
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    • Raz-Yaseef, N., et al. “Large Carbon Dioxide And Methane Emissions From Polygonal Tundra During Spring Thaw In Northern Alaska”. Geophysical Research Letters, 2017, pp. 504 - 513.
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    • Grant, R. F., et al. “Mathematical Modeling Of Arctic Polygonal Tundra With Ecosys: 1. Microtopography Determines How Active Layer Depths Respond To Changes In Temperature And Precipitation”. Journal Of Geophysical Research: Biogeosciences, 2017, pp. 3161-3173.
      Details
    • Grant, R. F., et al. “Mathematical Modeling Of Arctic Polygonal Tundra With Ecosys: 2. Microtopography Determines How Carbon Dioxide And Methane Exchange Responds To Changes In Temperature And Precipitation”. Journal Of Geophysical Research: Biogeosciences, 2017, pp. 3174-3187.
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    • Dwivedi, D., et al. “Mineral Properties, Microbes, Transport, And Plant-Input Profiles Control Vertical Distribution And Age Of Soil Carbon Stocks”. Soil Biology And Biochemistry, 2017, pp. 244 - 259.
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    2016

    • Xu, X., et al. “A Multi-Scale Comparison Of Modeled And Observed Seasonal Methane Emissions In Northern Wetlands”. Biogeosciences, 2016, pp. 5043 - 5056.
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    • Vaughn, L. J. S., et al. “Isotopic Insights Into Methane Production, Oxidation, And Emissions In Arctic Polygon Tundra”. Global Change Biology, 2016, pp. 3487 - 3502.
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    2015

    • Wainwright, H. M., et al. “Identifying Multiscale Zonation And Assessing The Relative Importance Of Polygon Geomorphology On Carbon Fluxes In An Arctic Tundra Ecosystem”. Journal Of Geophysical Research: Biogeosciences, 2015, pp. 788 - 808.
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    • Throckmorton, H. M., et al. “Pathways And Transformations Of Dissolved Methane And Dissolved Inorganic Carbon In Arctic Tundra Watersheds: Evidence From Analysis Of Stable Isotopes”. Global Biogeochemical Cycles, 2015, pp. 1893 - 1910.
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    2014

    • Riley, W. J., et al. “Long Residence Times Of Rapidly Decomposable Soil Organic Matter: Application Of A Multi-Phase, Multi-Component, And Vertically Resolved Model (Bams1) To Soil Carbon Dynamics”. Geoscientific Model Development, 2014, pp. 1335 - 1355.
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