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  1. Rogers, A., et al. “Reducing Model Uncertainty Of Climate Change Impacts On High Latitude Carbon Assimilation”. Global Change Biology, 2022, pp. 1222 - 1247.
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  2. Yang, D., et al. “Remote Sensing From Unoccupied Aerial Systems: Opportunities To Enhance Arctic Plant Ecology In A Changing Climate”. Journal Of Ecology, 2022, pp. 2812-2835.
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  3. Nelson, P. R., et al. “Remote Sensing Of Tundra Ecosystems Using High Spectral Resolution Reflectance: Opportunities And Challenges”. Journal Of Geophysical Research: Biogeosciences, 2022.
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  4. Pallandt, M., et al. “Representativeness Assessment Of The Pan-Arctic Eddy Covariance Site Network And Optimized Future Enhancements”. Biogeosciences, 2022, pp. 559 - 583.
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  5. Sulman, B. N., et al. “Simulated Hydrological Dynamics And Coupled Iron Redox Cycling Impact Methane Production In An Arctic Soil”. Journal Of Geophysical Research: Biogeosciences, 2022.
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  6. Bennett, K. E., et al. “Spatial Patterns Of Snow Distribution For Improved Earth System Modelling In The Arctic”. The Cryosphere, 2022.
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  7. Farquharson, L. M., et al. “Sub-Aerial Talik Formation Observed Across The Discontinuous Permafrost Zone Of Alaska”. Nature Geoscience, 2022, pp. 475 - 481.
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  8. Virkkala, A. -M., et al. “The Abcflux Database: Arctic–Boreal Co2 Flux Observations And Ancillary Information Aggregated To Monthly Time Steps Across Terrestrial Ecosystems”. Earth System Science Data, 2022, pp. 179-208.
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  9. Thoman, R. L., et al. “The Arctic”. Bulletin Of The American Meteorological Society, 2022, pp. S257-S306.
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  10. Jafarov, E. E., et al. “The Importance Of Freeze–Thaw Cycles For Lateral Tracer Transport In Ice-Wedge Polygons”. The Cryosphere, 2022, pp. 851-862.
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  11. Frost, G. V., et al. “Tundra Greenness”. Noaa Arctic Report Card 2022, 2022.
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  12. 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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  13. Abbott, B. W., et al. “We Must Stop Fossil Fuel Emissions To Protect Permafrost Ecosystems”. Frontiers In Environmental Science, 2022.
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  14. Mekonnen, Z. A., et al. “Wildfire Exacerbates High-Latitude Soil Carbon Losses From Climate Warming”. Environmental Research Letters, 2022, p. 094037.
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  15. 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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  16. 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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  17. Koven, C. D., et al. “A Simplified, Data-Constrained Approach To Estimate The Permafrost Carbon–Climate Feedback”. Philosophical Transactions Of The Royal Society A: Mathematical, Physical And Engineering Sciences, 2015.
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  18. Muskett, R. R., et al. “Active-Layer Soil Moisture Content Regional Variations In Alaska And Russia By Ground-Based And Satellite-Based Methods, 2002 Through 2014”. International Journal Of Geosciences, 2015, pp. 12 - 41.
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  19. Schuur, E. A. G., et al. “Climate Change And The Permafrost Carbon Feedback”. Nature, 2015, pp. 171 - 179.
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  20. Wullschleger, S. D., et al. “Genomics In A Changing Arctic: Critical Questions Await The Molecular Ecologist”. Molecular Ecology, 2015, pp. 2301 - 2309.
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Displaying 21 - 40 of 65