Variability and evolution of global land surface phenology over the past three decades (1982–2012)
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[1] Chang-Hoi Ho,et al. Phenology shifts at start vs. end of growing season in temperate vegetation over the Northern Hemisphere for the period 1982–2008 , 2011 .
[2] C. Tucker,et al. Increased plant growth in the northern high latitudes from 1981 to 1991 , 1997, Nature.
[3] M. Menenti,et al. Assessment of climate impact on vegetation dynamics by using remote sensing , 2003 .
[4] S. Bruin,et al. Trend changes in global greening and browning: contribution of short‐term trends to longer‐term change , 2012 .
[5] Kathleen Neumann,et al. Challenges in using land use and land cover data for global change studies , 2011 .
[6] S. Sweet,et al. Greater deciduous shrub abundance extends tundra peak season and increases modeled net CO2 uptake , 2015, Global change biology.
[7] Peter M. Atkinson,et al. Remotely sensed trends in the phenology of northern high latitude terrestrial vegetation, controlling for land cover change and vegetation type , 2014 .
[8] D. Andrews,et al. Optimal Tests When a Nuisance Parameter Is Present Only Under the Alternative , 1992 .
[9] Howard E. Epstein,et al. Recent changes in phenology over the northern high latitudes detected from multi-satellite data , 2011 .
[10] Peter Carey,et al. Environmental stratifications as the basis for national, European and global ecological monitoring , 2013 .
[11] Bradley C. Reed,et al. Remote Sensing Phenology , 2009 .
[12] Compton J. Tucker,et al. A Non-Stationary 1981-2012 AVHRR NDVI3g Time Series , 2014, Remote. Sens..
[13] Xiaoyang Zhang,et al. Reconstruction of a complete global time series of daily vegetation index trajectory from long-term AVHRR data , 2015 .
[14] W. Verhoef,et al. Reconstructing cloudfree NDVI composites using Fourier analysis of time series , 2000 .
[15] Philippe Ciais,et al. Large‐scale variations in the vegetation growing season and annual cycle of atmospheric CO2 at high northern latitudes from 1950 to 2011 , 2013, Global change biology.
[16] Christopher M. Gough,et al. Evidence of autumn phenology control on annual net ecosystem productivity in two temperate deciduous forests , 2013 .
[17] P. Atkinson,et al. Inter-comparison of four models for smoothing satellite sensor time-series data to estimate vegetation phenology , 2012 .
[18] Compton J. Tucker,et al. Recent Declines in Warming and Vegetation Greening Trends over Pan-Arctic Tundra , 2013, Remote. Sens..
[19] Markus Reichstein,et al. Recent shift in Eurasian boreal forest greening response may be associated with warmer and drier summers , 2014 .
[20] Nicholas C. Coops,et al. Changes in vegetation photosynthetic activity trends across the Asia-Pacific region over the last three decades , 2014 .
[21] Jan Verbesselt,et al. Relationships between declining summer sea ice, increasing temperatures and changing vegetation in the Siberian Arctic tundra from MODIS time series (2000–11) , 2012 .
[22] S. Goetz,et al. Vegetation productivity patterns at high northern latitudes: a multi-sensor satellite data assessment , 2014, Global change biology.
[23] O. Sonnentag,et al. Climate change, phenology, and phenological control of vegetation feedbacks to the climate system , 2013 .
[24] Edwin W. Pak,et al. An extended AVHRR 8‐km NDVI dataset compatible with MODIS and SPOT vegetation NDVI data , 2005 .
[25] Christiane Schmullius,et al. Pan-Arctic Climate and Land Cover Trends Derived from Multi-Variate and Multi-Scale Analyses (1981-2012) , 2014, Remote. Sens..
[26] Jürgen Symanzik,et al. On the use of the advanced very high resolution radiometer for development of prognostic land surface phenology models , 2007 .
[27] Elizabeth R. Ellwood,et al. Forecasting phenology under global warming , 2010, Philosophical Transactions of the Royal Society B: Biological Sciences.
[28] Steven J. Phillips,et al. Shifts in Arctic vegetation and associated feedbacks under climate change , 2013 .
[29] Amanda S. Gallinat,et al. Autumn, the neglected season in climate change research. , 2015, Trends in ecology & evolution.
[30] A. Gonsamo,et al. The match and mismatch between photosynthesis and land surface phenology of deciduous forests , 2015 .
[31] J. Mustard,et al. Green leaf phenology at Landsat resolution: Scaling from the field to the satellite , 2006 .
[32] H. Mooney,et al. Shifting plant phenology in response to global change. , 2007, Trends in ecology & evolution.
[33] Compton J. Tucker,et al. Seasonality and trends of snow‐cover, vegetation index, and temperature in northern Eurasia , 2002 .
[34] M. Schaepman,et al. Intercomparison, interpretation, and assessment of spring phenology in North America estimated from remote sensing for 1982–2006 , 2009 .
[35] Liang Liang,et al. Landscape phenology: an integrative approach to seasonal vegetation dynamics , 2009, Landscape Ecology.
[36] Amanda S. Gallinat,et al. Substantial variation in leaf senescence times among 1360 temperate woody plant species: implications for phenology and ecosystem processes. , 2015, Annals of botany.
[37] Ross D. Brown,et al. Northern Hemisphere Snow Cover Variability and Change, 1915-97. , 2000 .
[38] Emilio Chuvieco,et al. Debating the greening vs. browning of the North American boreal forest: differences between satellite datasets , 2010 .
[39] S. Bruin,et al. Analysis of monotonic greening and browning trends from global NDVI time-series , 2011 .
[40] D. Dye. Variability and trends in the annual snow‐cover cycle in Northern Hemisphere land areas, 1972–2000 , 2002 .
[41] Rob H. G. Jongman,et al. A high-resolution bioclimate map of the world: a unifying framework for global biodiversity research and monitoring , 2013 .
[42] Jorge E. Pinzón,et al. Evaluating and Quantifying the Climate-Driven Interannual Variability in Global Inventory Modeling and Mapping Studies (GIMMS) Normalized Difference Vegetation Index (NDVI3g) at Global Scales , 2013, Remote. Sens..
[43] Geoffrey M. Henebry,et al. Spatio-Temporal Statistical Methods for Modelling Land Surface Phenology , 2010 .
[44] Mark A. Friedl,et al. Linking near-surface and satellite remote sensing measurements of deciduous broadleaf forest phenology , 2012 .
[45] C. Tucker,et al. Higher northern latitude normalized difference vegetation index and growing season trends from 1982 to 1999 , 2001, International journal of biometeorology.
[46] Maosheng Zhao,et al. Drought-Induced Reduction in Global Terrestrial Net Primary Production from 2000 Through 2009 , 2010, Science.
[47] C. A. Mücher,et al. Strong contribution of autumn phenology to changes in satellite‐derived growing season length estimates across Europe (1982–2011) , 2014, Global change biology.
[48] P. Cox,et al. Observing terrestrial ecosystems and the carbon cycle from space , 2015, Global change biology.
[49] Amanda S. Gallinat,et al. Changes in autumn senescence in northern hemisphere deciduous trees: a meta-analysis of autumn phenology studies. , 2015, Annals of botany.
[50] Deriving phenological indicators from SPOT-VGT data using the HANTS algorithm , 2005 .
[51] P. Beck,et al. Improved monitoring of vegetation dynamics at very high latitudes: A new method using MODIS NDVI , 2006 .
[52] P. Ciais,et al. Has the advancing onset of spring vegetation green‐up slowed down or changed abruptly over the last three decades? , 2015 .
[53] Michael E. Schaepman,et al. Desertification in the Sahel: Towards better accounting for ecosystem dynamics in the interpretation of remote sensing images , 2011 .
[54] Vivek K. Arora,et al. A parameterization of leaf phenology for the terrestrial ecosystem component of climate models , 2005 .
[55] Wenquan Zhu,et al. Extension of the growing season due to delayed autumn over mid and high latitudes in North America during 1982–2006 , 2012 .
[56] Michael E. Schaepman,et al. Nonlinear response of vegetation green-up to local temperature variations in temperate and boreal forests in the Northern Hemisphere , 2015 .
[57] Bin Tan,et al. Interannual variations and trends in global land surface phenology derived from enhanced vegetation index during 1982–2010 , 2014, International Journal of Biometeorology.
[58] Y. Xue,et al. Terrestrial biosphere models need better representation of vegetation phenology: results from the North American Carbon Program Site Synthesis , 2012 .
[59] J. Canadell,et al. Recent patterns and mechanisms of carbon exchange by terrestrial ecosystems , 2001, Nature.
[60] Josep Peñuelas,et al. Phenology Feedbacks on Climate Change , 2009, Science.
[61] Jesslyn F. Brown,et al. Measuring phenological variability from satellite imagery , 1994 .
[62] D. Andrews. Tests for Parameter Instability and Structural Change with Unknown Change Point , 1993 .
[63] José A. Sobrino,et al. Global land surface phenology trends from GIMMS database , 2009 .
[64] Jianjun Zhao,et al. The Variation of Land Surface Phenology From 1982 to 2006 Along the Appalachian Trail , 2013, IEEE Transactions on Geoscience and Remote Sensing.
[65] Bruce E. Hansen,et al. Tests for Parameter Instability in Regressions with I(1) Processes , 1992 .
[66] Kurt Hornik,et al. Testing and dating of structural changes in practice , 2003, Comput. Stat. Data Anal..
[67] P. Perron,et al. Computation and Analysis of Multiple Structural-Change Models , 1998 .
[68] F. Chapin,et al. Thresholds for boreal biome transitions , 2012, Proceedings of the National Academy of Sciences.
[69] Søren Rysgaard,et al. The impact of lower sea-ice extent on Arctic greenhouse-gas exchange , 2013 .
[70] Rob J Hyndman,et al. Detecting trend and seasonal changes in satellite image time series , 2010 .
[71] S. Higgins,et al. Three decades of multi-dimensional change in global leaf phenology , 2015 .
[72] Erle C. Ellis,et al. Putting people in the map: anthropogenic biomes of the world , 2008 .
[73] J. Abatzoglou,et al. Tracking the rhythm of the seasons in the face of global change: phenological research in the 21st century. , 2009 .
[74] Yi Y. Liu,et al. Contribution of semi-arid ecosystems to interannual variability of the global carbon cycle , 2014, Nature.
[75] Ranga B. Myneni,et al. Recent trends and drivers of regional sources and sinks of carbon dioxide , 2015 .
[76] Alfredo Huete,et al. Land surface phenological response to decadal climate variability across Australia using satellite remote sensing , 2014 .
[77] C. Tucker,et al. Evidence for a persistent and extensive greening trend in Eurasia inferred from satellite vegetation index data , 2002 .