Displaying 241 - 260 of 322
By year of publication, then alphabetical by title
  1. Xu, X., et al. “Reviews And Syntheses: Four Decades Of Modeling Methane Cycling In Terrestrial Ecosystems”. Biogeosciences, 2016, pp. 3735 - 3755.
  2. 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.
  3. Cable, W. L., et al. “Scaling-Up Permafrost Thermal Measurements In Western Alaska Using An Ecotype Approach”. The Cryosphere, 2016, pp. 2517 - 2532.
  4. Farquharson, L. M., et al. “Spatial Distribution Of Thermokarst Terrain In Arctic Alaska”. Geomorphology, 2016, pp. 116 - 133.
  5. 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.
  6. Walker, D. A., et al. “The Alaska Arctic Vegetation Archive (Ava-Ak)”. Phytocoenologia, 2016, pp. 221 - 229.
  7. 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.
  8. 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.
  9. Yang, Z., et al. “Warming Increases Methylmercury Production In An Arctic Soil”. Environmental Pollution, 2016, pp. 504 - 509.
  10. 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.
  11. 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.
  12. 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.
  13. 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.
  14. Schuur, E. A. G., et al. “Climate Change And The Permafrost Carbon Feedback”. Nature, 2015, pp. 171 - 179.
  15. Wullschleger, S. D., et al. “Genomics In A Changing Arctic: Critical Questions Await The Molecular Ecologist”. Molecular Ecology, 2015, pp. 2301 - 2309.
  16. Herndon, E. M., et al. “Geochemical Drivers Of Organic Matter Decomposition In Arctic Tundra Soils”. Biogeochemistry, 2015, pp. 397 - 414.
  17. Ali, A. A., et al. “Global-Scale Environmental Control Of Plant Photosynthetic Capacity”. Ecological Applications, 2015, pp. 2349 - 2365.
  18. Muskett, R. R. “Icesat Glas Elevation Changes And Alos Palsar Insar Line-Of-Sight Changes On The Continuous Permafrost Zone Of The North Slope, Alaska”. International Journal Of Geosciences, 2015, pp. 1101 - 1115.
  19. 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.
  20. Mann, B. F., et al. “Indexing Permafrost Soil Organic Matter Degradation Using High-Resolution Mass Spectrometry”. Plos One, 2015.