GHGs / Lawrence Livermore National Laboratory / CLIVAR Working Group / /
Continent
Asia / South America / /
Country
United States / Australia / China / /
Currency
USD / / /
Event
Environmental Issue / Natural Disaster / /
Facility
National Center / Meteorology Research Centre / /
IndustryTerm
gas simulation / /
Organization
American Geophysical Union / U.S. Department of Energy / National Science Foundation / Meteorology Research Centre / Cambridge Univ. / National Center for Atmospheric Research / office of Biological and Environmental Research / office of Science / /
Person
S. Raper / K. S. Yap / J. Clim / Gerald A. Meehl / J. Geophys / /
Position
parallel climate model / model / CSIRO general circulaton model / model data analysis activity / representative / /
ProvinceOrState
New York / Colorado / Victoria / /
PublishedMedium
Environmental Research / GEOPHYSICAL RESEARCH LETTERS / Atmospheric Research / /
Region
southwest U.S. / northeastern North America / northern North Atlantic / northern Europe / North Atlantic / southwestern Australia / southeast Australia / northern Asia / east coast / central South America / southeastern Australia / northwest North America / northwest Asia / Mediterranean / northeast North America / northwestern North America / /
GEOPHYSICAL RESEARCH LETTERS, VOL. 32, L18719, doi:[removed]2005GL023680, 2005 Understanding future patterns of increased precipitation intensity in climate model simulations Gerald A. Meehl,1 Julie M. Arblaster,1,2 and