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Displaying 241 - 260 of 331
By year of publication, then alphabetical by title
  1. 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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  2. Coon, E. T., et al. “Managing Complexity In Simulations Of Land Surface And Near-Surface Processes”. Environmental Modelling & Software, 2016, pp. 134 - 149.
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  3. Langford, Z. L., et al. “Mapping Arctic Plant Functional Type Distributions In The Barrow Environmental Observatory Using Worldview-2 And Lidar Datasets”. Remote Sensing, 2016, p. 733.
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  4. Kumar, J., et al. “Modeling The Spatiotemporal Variability In Subsurface Thermal Regimes Across A Low-Relief Polygonal Tundra Landscape”. The Cryosphere, 2016, pp. 2241 - 2274.
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  5. Liljedahl, A. K., et al. “Pan-Arctic Ice-Wedge Degradation In Warming Permafrost And Its Influence On Tundra Hydrology”. Nature Geoscience, 2016.
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  6. Mackelprang, R., et al. “Permafrost Meta-Omics And Climate Change”. Annual Review Of Earth And Planetary Sciences, 2016, pp. 439-462.
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  7. 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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  8. Dafflon, B., et al. “Quantification Of Arctic Soil And Permafrost Properties Using Ground Penetrating Radar”. 2016 16Th International Conference On Ground Penetrating Radar (Gpr) , 2016.
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  9. Ghimire, B., et al. “Representing Leaf And Root Physiological Traits In Clm Improves Global Carbon And Nitrogen Cycling Predictions”. Journal Of Advances In Modeling Earth Systems, 2016, pp. 598 - 613.
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  10. 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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  11. Zhu, Q., et al. “Root Traits Explain Observed Tundra Vegetation Nitrogen Uptake Patterns: Implications For Trait-Based Land Models”. Journal Of Geophysical Research: Biogeosciences, 2016, pp. 3101 - 3112.
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  12. Cable, W. L., et al. “Scaling-Up Permafrost Thermal Measurements In Western Alaska Using An Ecotype Approach”. The Cryosphere, 2016, pp. 2517 - 2532.
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  13. Farquharson, L. M., et al. “Spatial Distribution Of Thermokarst Terrain In Arctic Alaska”. Geomorphology, 2016, pp. 116 - 133.
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  14. Tang, J. Y., and W. J. Riley. “Technical Note: A Generic Law-Of-The-Minimum Flux Limiter For Simulating Substrate Limitation In Biogeochemical Models”. Biogeosciences, 2016, pp. 723 - 735.
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  15. Walker, D. A., et al. “The Alaska Arctic Vegetation Archive (Ava-Ak)”. Phytocoenologia, 2016, pp. 221 - 229.
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  16. Sjöberg, Y., et al. “Thermal Effects Of Groundwater Flow Through Subarctic Fens: A Case Study Based On Field Observations And Numerical Modeling”. Water Resources Research, 2016, pp. 1591-1606.
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  17. McGuire, D., et al. “Variability In The Sensitivity Among Model Simulations Of Permafrost And Carbon Dynamics In The Permafrost Region Between 1960 And 2009”. Global Biogeochemical Cycles, 2016, pp. 1015 - 1037.
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  18. Yang, Z., et al. “Warming Increases Methylmercury Production In An Arctic Soil”. Environmental Pollution, 2016, pp. 504 - 509.
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  19. 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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  20. Treat, C. C., et al. “A Pan-Arctic Synthesis Of Methane And Carbon Dioxide Production From Anoxic Soil Incubations”. Global Change Biology, 2015, pp. 2787 - 2803.
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Displaying 241 - 260 of 331