University of Alabama / ABSTRACT The University of Alabama / University of Washington / University of Vienna / /
IndustryTerm
atmospheric temperature products / satellite-derived tropospheric temperature trends / satellite temperature products / climate applications / satellite gridpoint temperature anomalies / jth satellite / satellite-derived lower-tropospheric temperature trends / satellite orbits / satellite orbit / important tool / homogenized radiosonde products / ith satellite / deep atmospheric layers using satellite / satellite warm target temperature / satellite observations / co-orbiting satellite pairs / climate-quality satellite temperature datasets / satellite-derived temperature trends / satellite-inferred tropospheric temperature trends / short satellite / /
NaturalFeature
Society channel / /
Organization
Cambridge University / Advanced Microwave Sounding Unit / National Science Foundation / National Oceanic and Atmospheric Administration / Microwave Sounding Unit / European Organisation for the Exploitation of Meteorological Satellites / American Meteorological Society / RSS NOAA / Department of Atmospheric Sciences / Subcommittee on Global Change Research / University of Vienna / University of Alabama / National Aeronautics and Space Administration / University of Washington / Seattle / /
Person
F. B. Tett / R. Iacovazzi Jr. / M. D. Goldberg / Spencer / Ai / D. Tarpley / D. E. Parker / C. A. Mears / Gaffen / J. R. Christy / Z. Chen / M. Gao / J. T. Sullivan / C. Cao / H. L. Miller Jr. / M. B. Tignor / M. McCarthy / P. D. Jones / Z. Cheng / L. Haimberger / N. C. Grody / H. Coleman / P. Brohan / J. Christy / Stephen Po-Chedley / / /
Position
D. J. / author / /
ProvinceOrState
Alabama / Washington / South Carolina / /
PublishedMedium
the MSU daily / /
Technology
Remote Sensing / 646 JOURNAL OF ATMOSPHERIC AND OCEANIC TECHNOLOGY / 652 JOURNAL OF ATMOSPHERIC AND OCEANIC TECHNOLOGY / Microwave / 650 JOURNAL OF ATMOSPHERIC AND OCEANIC TECHNOLOGY / 648 JOURNAL OF ATMOSPHERIC AND OCEANIC TECHNOLOGY / /