Boston / Stockholm / Washington / DC / Toledo / Beijing / /
Company
IOP Publishing Ltd / Sperry / State Key Laboratory / Pearson / Ford / Cox / Creative Commons / Modeling Systems / International Tree-Ring Data Bank / /
Country
Indonesia / United States / China / Singapore / US / / /
Plant Cell Environ / Plant Physiol / PhD Thesis University of Arizona / International Meteorological Institute / Republic of China College of Global Change / City University of New York / Queens College / University of East Anglia / Beijing Normal University / State Key Laboratory of Earth Surface Processes / Stockholm University / /
aim to translate meteorological drought / SPEI / /
NaturalFeature
Forest Ecol / /
Organization
Stockholm University / City University of New York / New York / US Forest Service / Fund for Creative Research Groups / Beijing Normal University / Beijing / Sweden School of Geography / Climatic Research Unit / Center for International Foresty Research / USDA Forest Service / Bert Bolin Centre for Climate Research / Laboratory for Terrestrial Physics / People’s Republic of China School of Earth and Environmental Sciences / American Meteorological Society / National Natural Science Foundation of China / People’s Republic of China College of Global Change and Earth System Science / Queens College / US Department of Commerce Weather Bureau / People’s Republic of China Academy of Disaster Reduction and Emergency Management / Ministry of Civil Affairs / International Meteorological Institute / University of Arizona / United States Department of Agriculture Forest Service / Ministry of Education / USA Department of Meteorology / University of East Anglia / /
Person
Max Anomaly / Huang Transform / Nat / Van Mantgem / Mark Eakin / /
Position
simple terrestrial ecosystem model to global change Ecol / author / potent driver / /
ProvinceOrState
New York / New Mexico / Utah / Arizona / Colorado / /
PublishedMedium
PloS One / /
Region
South Africa / Western United States / Southwestern United States / Southwestern US / /