Bibliography
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“Does Ndvi Reflect Variation In The Structural Attributes Associated With Increasing Shrub Dominance In Arctic Tundra?”. Environmental Research Letters 6, no. 3. Environmental Research Letters (2011): 035501. doi:10.1088/1748-9326/6/3/035501.
. “Response Of Ndvi, Biomass, And Ecosystem Gas Exchange To Long-Term Warming And Fertilization In Wet Sedge Tundra”. Oecologia 135, no. 3. Oecologia (2003): 414-421. doi:10.1007/s00442-003-1198-3.
. “Relating Spectral Vegetation Indices To Plant Physiological And Ecosystem Processes At Multiple Spatial Scales”. Earth And Environmental Sciences. Earth And Environmental Sciences. Columbia University, 2004.
. “Inter-Annual Variability Of Ndvi In Response To Long-Term Warming And Fertilization In Wet Sedge And Tussock Tundra”. Oecologia 143, no. 4. Oecologia (2005): 588-597. doi:10.1007/s00442-005-0012-9.
. “Understanding Burn Severity Sensing In Arctic Tundra: Exploring Vegetation Indices, Suboptimal Assessment Timing And The Impact Of Increasing Pixel Size”. International Journal Of Remote Sensing 32, no. 2. International Journal Of Remote Sensing (2011): 7033-7056. doi:10.1080/01431161.2011.611187.
. “Extreme Spring Conditions In The Arctic Delay Spring Phenology Of Long-Distance Migratory Songbirds”. Oecologia 185, no. 1. Oecologia (2017): 69 - 80. doi:10.1007/s00442-017-3907-3.
. “Greater Shrub Dominance Alters Breeding Habitat And Food Resources For Migratory Songbirds In Alaskan Arctic Tundra”. Global Change Biology 21, no. 4. Global Change Biology (2015): 1508-1520. doi:10.1111/gcb.12761.
. “Lidar Gives A Bird’s Eye Perspective On Arctic Tundra Breeding Habitat.”. Remote Sensing Of Environment 184. Remote Sensing Of Environment (2016): 337-349. doi:10.1016/j.rse.2016.07.012.
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