|A global overview of drought and heat-induced tree mortality reveals emerging climate change risks for forests|
CD Allen, AK Macalady, H Chenchouni, D Bachelet, N McDowell, ...
Forest ecology and management 259 (4), 660-684, 2010
|FLUXNET: A new tool to study the temporal and spatial variability of ecosystem-scale carbon dioxide, water vapor, and energy flux densities|
D Baldocchi, E Falge, L Gu, R Olson, D Hollinger, S Running, P Anthoni, ...
Bulletin of the American Meteorological Society 82 (11), 2415-2434, 2001
|Climate-driven increases in global terrestrial net primary production from 1982 to 1999|
RR Nemani, CD Keeling, H Hashimoto, WM Jolly, SC Piper, CJ Tucker, ...
science 300 (5625), 1560-1563, 2003
|Trends in the sources and sinks of carbon dioxide|
C Le Quéré, MR Raupach, JG Canadell, G Marland, L Bopp, P Ciais, ...
Nature geoscience 2 (12), 831, 2009
|A general model of forest ecosystem processes for regional applications I. Hydrologic balance, canopy gas exchange and primary production processes|
SW Running, JC Coughlan
Ecological modelling 42 (2), 125-154, 1988
|Drought-induced reduction in global terrestrial net primary production from 2000 through 2009|
M Zhao, SW Running
science 329 (5994), 940-943, 2010
|Global products of vegetation leaf area and fraction absorbed PAR from year one of MODIS data|
RB Myneni, S Hoffman, Y Knyazikhin, JL Privette, J Glassy, Y Tian, ...
Remote sensing of environment 83 (1-2), 214-231, 2002
|A continuous satellite-derived measure of global terrestrial primary production|
SW Running, RR Nemani, FA Heinsch, M Zhao, M Reeves, H Hashimoto
Bioscience 54 (6), 547-560, 2004
|Climate change 2014–Impacts, adaptation and vulnerability: Regional aspects|
Cambridge University Press, 2014
|The Moderate Resolution Imaging Spectroradiometer (MODIS): Land remote sensing for global change research|
CO Justice, E Vermote, JRG Townshend, R Defries, DP Roy, DK Hall, ...
IEEE transactions on geoscience and remote sensing 36 (4), 1228-1249, 1998
|Improvements to a MODIS global terrestrial evapotranspiration algorithm|
Q Mu, M Zhao, SW Running
Remote Sensing of Environment 115 (8), 1781-1800, 2011
|Generating surfaces of daily meteorological variables over large regions of complex terrain|
PE Thornton, SW Running, MA White
Journal of Hydrology 190 (3-4), 214-251, 1997
|Technical description of version 4.0 of the Community Land Model (CLM)|
KW Oleson, DM Lawrence, B Gordon, MG Flanner, E Kluzek, J Peter, ...
|Improvements of the MODIS terrestrial gross and net primary production global data set|
M Zhao, FA Heinsch, RR Nemani, SW Running
Remote sensing of Environment 95 (2), 164-176, 2005
|Forest ecosystems: analysis at multiple scales|
RH Waring, SW Running
|Development of a global evapotranspiration algorithm based on MODIS and global meteorology data|
Q Mu, FA Heinsch, M Zhao, SW Running
Remote sensing of Environment 111 (4), 519-536, 2007
|Recent decline in the global land evapotranspiration trend due to limited moisture supply|
M Jung, M Reichstein, P Ciais, SI Seneviratne, J Sheffield, ML Goulden, ...
Nature 467 (7318), 951, 2010
|A continental phenology model for monitoring vegetation responses to interannual climatic variability|
MA White, PE Thornton, SW Running
Global biogeochemical cycles 11 (2), 217-234, 1997
|Estimation of global leaf area index and absorbed PAR using radiative transfer models|
RB Myneni, R Ramakrishna, R Nemani, SW Running
IEEE Transactions on Geoscience and remote sensing 35 (6), 1380-1393, 1997
|Water in a changing world|
RB Jackson, SR Carpenter, CN Dahm, DM McKnight, RJ Naiman, ...
Ecological applications 11 (4), 1027-1045, 2001