Bibliography
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“Ecosystem Resilience And Climate Feedbacks In An Arctic With Fire (Invited Speaker)”. Grand Valley State University. Grand Valley State University. Allendale, MI, 2013.
. “Drought Legacies Influence The Long-Term Carbon Balance Of A Freshwater Marsh”. Journal Of Geophysical Research: Biogeosciences 115, no. G3. Journal Of Geophysical Research: Biogeosciences (2010): 9 pp. doi:10.1029/2009JG001215.
. “Disturbance Legacies And Climate Jointly Drive Tree Growth And Mortality In An Intensively Studied Boreal Forest”. Global Change Biology 20. Global Change Biology (2014): 216-227. doi:10.1111/gcb.12404.
. “Differential Responses Of Ecotypes To Climate In A Ubiquitous Arctic Sedge: Implications For Future Ecosystem C Cycling”. New Phytologist. New Phytologist (2019). doi:10.1111/nph.15790.
. “C–N–P Interactions Control Climate Driven Changes In Regional Patterns Of C Storage On The North Slope Of Alaska”. Landscape Ecology 31, no. 1. Landscape Ecology (2016): 195 - 213. doi:10.1007/s10980-015-0266-5.
. “Cross-System Comparisons Elucidate Disturbance Complexities And Generalities”. Ecosphere 2, no. 7. Ecosphere (2011): 3-26. doi:10.1890/Es11-00115.1.
. “Cross-Biome Synthesis Of Source Versus Sink Limits To Tree Growthuncoupled Carbon Uptake And Storage”. Science 376, no. 6594. Science (2022): 758 - 761. doi:10.1126/science.abm4875.
. “Contrasting Soil Thermal Responses To Fire In Alaskan Tundra And Boreal Forest”. Journal Of Geophysical Research: Earth Surface 120, no. 2. Journal Of Geophysical Research: Earth Surface (2015): 363-378. doi:10.1002/2014jf003180.
. “Circum‐Arctic Distribution Of Chemical Anti‐Herbivore Compounds Suggests Biome‐Wide Trade‐Off In Defence Strategies In Arctic Shrubs”. Ecography 2022, no. 11. Ecography (2022). doi:10.1111/ecog.06166.
. “Change In Surface Energy Balance In Alaska Due To Fire And Spring Warming, Based On Upscaling Eddy Covariance Measurements”. Journal Of Geophysical Research: Biogeosciences 119, no. 10. Journal Of Geophysical Research: Biogeosciences (2014): 1947-1969. doi:10.1002/2014jg002717.
. “Burn Severity Influences Postfire Co2 Exchange In Arctic Tundra”. Ecological Applications 21, no. 2. Ecological Applications (2011): 477-89. doi:10.1890/10-0255.1.
. “Biomass Offsets Little Or None Of Permafrost Carbon Release From Soils, Streams, And Wildfire: An Expert Assessment”. Environmental Research Letters 11. Environmental Research Letters (2016): 034014. doi:10.1088/1748-9326/11/3/034014.
. “Assessing The Spatial Variability In Peak Season Co2 Exchange Characteristics Across The Arctic Tundra Using A Light Response Curve Parameterization”. Biogeosciences 11. Biogeosciences (2014): 4897-4912. doi:10.5194/bg-11-4897-2014.
. “Is Arctic Greening Consistent With The Ecology Of Tundra? Lessons From An Ecologically Informed Mass Balance Model”. Environmental Research Letters 13, no. 12. Environmental Research Letters (2018): 125007. doi:10.1088/1748-9326/aaeb50.
. “Alleviation Of Nutrient Co‐Limitation Induces Regime Shifts In Post‐Fire Community Composition And Productivity In Arctic Tundra”. Global Change Biology. Global Change Biology (2021). doi:10.1111/gcb.15646.
. “Advantages Of A Two Band Evi Calculated From Solar And Photosynthetically Active Radiation Fluxes”. Agricultural And Forest Meteorology 149, no. 9. Agricultural And Forest Meteorology (2009): 1560-1563. doi:10.1016/j.agrformet.2009.03.016.
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