Hubbard Brook Bibliography
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Author Title Type [ Year
Filters: Author is Andrew D. Richardson [Clear All Filters]
“Evidence For A Rising Cloud Ceiling In Eastern North America”. Amer. Meteorolog. Soc. 16: 2093-2098.
. 2003. . 2004.
“Microclimatology Of Treeline Spruce-Fir Forests In Mountains Of The Northeastern United States”. Agricultural and Forest Meteorology 125: 53-66.
. 2004. “Phenology Of A Northern Hardwood Forest Canopy”. Global Change Biology 12: 1174-1188.
. 2006. “Response Of Sugar Maple To Calcium Addition To Northern Hardwood Forest”. Ecology 87(5): 1267-1280.
. 2006. “Climate And Hydrological Changes In The Northeastern United States: Recent Trends And Implications For Forested And Aquatic Ecosystems”. Canadian Journal of Forest Research 39: 199-212.
. 2009. “Intercomparison, Interpretation, And Assessment Of Spring Phenology In North America Estimated From Remote Sensing For 1982-2006”. Global Change Biology 15(10): 2335 - 2359. ://WOS:000269577800001.
. 2009. “Albedo Estimates For Land Surface Models And Support For A New Paradigm Based On Foliage Nitrogen Concentration”. Global Change Biology 16(2): 696 - 710. ://WOS:000274419400017.
. 2010. . 2010.
“Estimating Uncertainty In Ecosystem Budget Calculations”. Ecosystems 13(2): 239 - 248. ://WOS:000275785700005.
. 2010. . 2012.
“Ecological Impacts Of A Widespread Frost Event Following Early Spring Leaf-Out”. Global Change Biology 18(7): 2365 - 2377. ://WOS:000304820300024.
. 2012. “Net Carbon Uptake Has Increased Through Warming-Induced Changes In Temperate Forest Phenology”. Nature Climate Change 4(7): 598 - 604. http://www.nature.com/nclimate/journal/v4/n7/full/nclimate2253.html.
. 2014. . 2014.
“Greenness Indices From Digital Cameras Predict The Timing And Seasonal Dynamics Of Canopy-Scale Photosynthesis”. Ecological Applications 25(1): 99 - 115. http://www.esajournals.org/doi/abs/10.1890/14-0005.1.
. 2015. “Influence Of Physiological Phenology On The Seasonal Pattern Of Ecosystem Respiration In Deciduous Forests”. Global Change Biology 21(1): 363 - 376. http://onlinelibrary.wiley.com/doi/10.1111/gcb.12671/abstract.
. 2015. . 2015.
“The Timing Of Autumn Senescence Is Affected By The Timing Of Spring Phenology: Implications For Predictive Models”. Global Change Biology 21(7): 2634 - 2641. http://doi.wiley.com/10.1111/gcb.12890.
. 2015. “Multiscale Modeling Of Spring Phenology Across Deciduous Forests In The Eastern United States”. Global Change Biology 22(2): 792 - 805. http://onlinelibrary.wiley.com/doi/10.1111/gcb.13122/abstract.
. 2016. “Multisite Analysis Of Land Surface Phenology In North American Temperate And Boreal Deciduous Forests From Landsat”. Remote Sensing of Environment 186: 452 - 464. http://www.sciencedirect.com/science/article/pii/S0034425716303571.
. 2016. “On The Relationship Between Continuous Measures Of Canopy Greenness Derived Using Near-Surface Remote Sensing And Satellite-Derived Vegetation Products”. Agricultural and Forest Meteorology 247: 280 - 292. http://linkinghub.elsevier.com/retrieve/pii/S016819231730268X.
. 2017. “Model-Based Analysis Of The Impact Of Diffuse Radiation On Co 2 Exchange In A Temperate Deciduous Forest”. Agricultural and Forest Meteorology 249: 377 - 389. http://linkinghub.elsevier.com/retrieve/pii/S0168192317303891.
. 2018. “Ndvi Derived From Near-Infrared-Enabled Digital Cameras: Applicability Across Different Plant Functional Types”. Agricultural and Forest Meteorology 249: 275 - 285. http://www.sciencedirect.com/science/article/pii/S0168192317303763.
. 2018. “A Steady-State Approximation Approach To Simulate Seasonal Leaf Dynamics Of Deciduous Broadleaf Forests Via Climate Variables”. Agricultural and Forest Meteorology 249: 44 - 56. http://linkinghub.elsevier.com/retrieve/pii/S0168192317303982.
. 2018.