Predicting deciduous forest carbon uptake phenology by upscaling FLUXNET measurements using remote sensing data
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Jing M. Chen | Alemu Gonsamo | Chaoyang Wu | Chaoyang Wu | A. Gonsamo | J. Chen | D. Dragoni | Danilo Dragoni
[1] T. A. Black,et al. Interannual variability of net carbon exchange is related to the lag between the end-dates of net carbon uptake and photosynthesis: Evidence from long records at two contrasting forest stands , 2012 .
[2] Jing M. Chen,et al. Land surface phenology from optical satellite measurement and CO2 eddy covariance technique , 2012 .
[3] Uudus Bayarsaikhan,et al. Effects of El Niño on spring phenology of the highest mountain in north-east Asia , 2012 .
[4] Andrew E. Suyker,et al. Interannual and spatial impacts of phenological transitions, growing season length, and spring and autumn temperatures on carbon sequestration: A North America flux data synthesis , 2012 .
[5] Y. Xue,et al. Terrestrial biosphere models need better representation of vegetation phenology: results from the North American Carbon Program Site Synthesis , 2012 .
[6] Mark A. Friedl,et al. Digital repeat photography for phenological research in forest ecosystems , 2012 .
[7] Stefan Siebert,et al. Spatio-temporal patterns of phenological development in Germany in relation to temperature and day length , 2012 .
[8] Gil Bohrer,et al. A comparison of multiple phenology data sources for estimating seasonal transitions in deciduous forest carbon exchange , 2011 .
[9] Yanhong Tang,et al. Influences of temperature and precipitation before the growing season on spring phenology in grasslands of the central and eastern Qinghai-Tibetan Plateau , 2011 .
[10] M. Rossini,et al. Using digital repeat photography and eddy covariance data to model grassland phenology and photosynthetic CO2 uptake , 2011 .
[11] Nicolas Barbier,et al. Relationships between phenology, radiation and precipitation in the Amazon region , 2011 .
[12] G. Henebry,et al. A new concept for simulation of vegetated land surface dynamics - Part 1: The event driven phenology model , 2011 .
[13] Hiroyuki Oguma,et al. Ground-based monitoring of the leaf phenology of deciduous broad-leaved trees using high resolution NDVI camera images (Special issue: Remote sensing and GIS research group) , 2011 .
[14] Cheney Shreve,et al. Working towards a community-wide understanding of satellite skin temperature observations , 2010 .
[15] Robert E. Dickinson,et al. Land surface skin temperature climatology: benefitting from the strengths of satellite observations , 2010 .
[16] P. Ciais,et al. Influence of spring and autumn phenological transitions on forest ecosystem productivity , 2010, Philosophical Transactions of the Royal Society B: Biological Sciences.
[17] Allison L. Steiner,et al. Ecological forecasting under climatic data uncertainty: a case study in phenological modeling , 2010 .
[18] P. Ceccato,et al. Evaluation of MODIS land surface temperature data to estimate air temperature in different ecosystems over Africa , 2010 .
[19] G. Henebry,et al. A land surface phenology assessment of the northern polar regions using MODIS reflectance time series , 2010 .
[20] M. Schaepman,et al. Intercomparison, interpretation, and assessment of spring phenology in North America estimated from remote sensing for 1982–2006 , 2009 .
[21] Geoffrey M. Henebry,et al. Dual scale trend analysis for evaluating climatic and anthropogenic effects on the vegetated land surface in Russia and Kazakhstan , 2009 .
[22] E. Lokupitiya,et al. Incorporation of crop phenology in Simple Biosphere Model (SiBcrop) to improve land-atmosphere carbon exchanges from croplands , 2009 .
[23] J. Abatzoglou,et al. Tracking the rhythm of the seasons in the face of global change: phenological research in the 21st century. , 2009 .
[24] Markus Reichstein,et al. Cross-site evaluation of eddy covariance GPP and RE decomposition techniques , 2008 .
[25] Andrew E. Suyker,et al. Synoptic Monitoring of Gross Primary Productivity of Maize Using Landsat Data , 2008, IEEE Geoscience and Remote Sensing Letters.
[26] H. Schmid,et al. Multi-year convergence of biometric and meteorological estimates of forest carbon storage , 2008 .
[27] E. Post,et al. Phenology: response, driver, and integrator1 , 2008 .
[28] P. Ciais,et al. Net carbon dioxide losses of northern ecosystems in response to autumn warming , 2008, Nature.
[29] M. Heimann,et al. Comprehensive comparison of gap-filling techniques for eddy covariance net carbon fluxes , 2007 .
[30] Philippe Ciais,et al. Growing season extension and its impact on terrestrial carbon cycle in the Northern Hemisphere over the past 2 decades , 2007 .
[31] J. Mustard,et al. Cross-scalar satellite phenology from ground, Landsat, and MODIS data , 2007 .
[32] H. Mooney,et al. Shifting plant phenology in response to global change. , 2007, Trends in ecology & evolution.
[33] S. Wofsy,et al. Factors controlling CO2 exchange on timescales from hourly to decadal at Harvard Forest , 2007 .
[34] T. A. Black,et al. Comparison of carbon dioxide fluxes over three boreal black spruce forests in Canada , 2007 .
[35] T. Vesala,et al. Towards a standardized processing of Net Ecosystem Exchange measured with eddy covariance technique: algorithms and uncertainty estimation , 2006 .
[36] J. Peñuelas,et al. European phenological response to climate change matches the warming pattern , 2006 .
[37] R. M. Clark,et al. Spatio-temporal modelling and assessment of within-species phenological variability using thermal time methods , 2006, International journal of biometeorology.
[38] Xiangming Xiao,et al. Spatial analysis of growing season length control over net ecosystem exchange , 2005 .
[39] T. Vesala,et al. On the separation of net ecosystem exchange into assimilation and ecosystem respiration: review and improved algorithm , 2005 .
[40] N. Delbart,et al. Determination of phenological dates in boreal regions using normalized difference water index , 2005 .
[41] T. D. Mitchell,et al. An improved method of constructing a database of monthly climate observations and associated high‐resolution grids , 2005 .
[42] T. A. Black,et al. Predicting the onset of net carbon uptake by deciduous forests with soil temperature and climate data: a synthesis of FLUXNET data , 2005, International journal of biometeorology.
[43] T. Black,et al. Inter-annual variability in the leaf area index of a boreal aspen-hazelnut forest in relation to net ecosystem production , 2004 .
[44] G. Henebry,et al. Land surface phenology, climatic variation, and institutional change: Analyzing agricultural land cover change in Kazakhstan , 2004 .
[45] Tiina Markkanen,et al. Air temperature triggers the recovery of evergreen boreal forest photosynthesis in spring , 2003 .
[46] Tiina Markkanen,et al. Interannual variability and timing of growing‐season CO2 exchange in a boreal forest , 2003 .
[47] D. Baldocchi. Assessing the eddy covariance technique for evaluating carbon dioxide exchange rates of ecosystems: past, present and future , 2003 .
[48] Annette Menzel,et al. Phenology: Its Importance to the Global Change Community , 2002 .
[49] C. Tucker,et al. Variations in northern vegetation activity inferred from satellite data of vegetation index during 1981 to 1999 , 2001 .
[50] Hans Peter Schmid,et al. Measurements of CO2 and energy fluxes over a mixed hardwood forest in the mid-western United States , 2000 .
[51] Mark D. Schwartz,et al. Changes in North American spring , 2000 .
[52] Wenjun Chen,et al. Increased carbon sequestration by a boreal deciduous forest in years with a warm spring , 2000 .
[53] Annette Menzel,et al. Growing season extended in Europe , 1999, Nature.
[54] S. Running,et al. The impact of growing-season length variability on carbon assimilation and evapotranspiration over 88 years in the eastern US deciduous forest , 1999, International journal of biometeorology.
[55] Mark D. Schwartz,et al. Green-wave phenology , 1998, Nature.
[56] Harden,et al. Sensitivity of boreal forest carbon balance to soil thaw , 1998, Science.
[57] C. Tucker,et al. Increased plant growth in the northern high latitudes from 1981 to 1991 , 1997, Nature.
[58] J. Terborgh,et al. The Phenology of Tropical Forests: Adaptive Significance and Consequences for Primary Consumers* , 1993 .
[59] J. Shao. Linear Model Selection by Cross-validation , 1993 .
[60] B. Rathcke,et al. Phenological Patterns of Terrestrial Plants , 1985 .
[61] N. T. Wheelwright. Competition for dispersers, and the timing of flowering and fruiting in a guild of tropical trees , 1985 .
[62] A New Concept for Simulation of Vegetated Land Surface Dynamics : The Event Driven Phenology Model Part I , 2011 .
[63] Irene L. Hudson,et al. Phenological research: Methods for environmental and climate change analysis , 2010 .
[64] G. Henebry,et al. Dual Scale Trend Analysis Distinguishes Climatic from Anthropogenic Effects on the Vegetated Land Surface , 2009 .
[65] E. Post,et al. Phenology: response, driver, and integrator. , 2008, Ecology.
[66] M. D. Schwartz. Phenology: An Integrative Environmental Science , 2003, Tasks for Vegetation Science.
[67] Hans Peter Schmid,et al. Measurements of CO 2 and energy fluxes over a mixed hardwood forest in the mid-western United States , 2000 .
[68] C. Osmond,et al. Physiological Plant Ecology I , 1981, Encyclopedia of Plant Physiology.
[69] H. Lieth. Phenology and Seasonality Modeling , 1974, Ecological Studies.