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High spectral resolution infrared remote sensing for earth's weather and climate studies [Libro electrónico] / editores: Alain Chedin, Moustafa T. Chahine, Noëlle A. Scott

Chedin, Alain [editor] | Chahine, Moustafa T [editor/a] | Scott, Noëlle A [editor/a].
Tipo de material: Libro en línea Libro en línea Series Editor: New York, New York, United States: Springer, c1993Descripción: xii, 492 páginas : ilustraciones.ISBN: 3540545824; 0387545824; 9783642846014 (Print); 9783642845994 (Online).Tema(s): Climatology -- Remote sensing -- Congresses | Infrared detectors -- CongressesNota de acceso: Disponible para usuarios de ECOSUR con su clave de acceso Nota de bibliografía: Incluye bibliografía Número de sistema: 56340Contenidos:Mostrar Resumen:
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One of major challenges facing Earth's science in the next decade and beyondis the development of an accurate long term observational data set to study global change. To accomplish this, a wide range of observations will be required to provide both new measurements, not previously achievable and measurements with a greater degreee of accuracy and resolution than the ones which are presently and currently available. Among the parameters that are currently retrieved from satellite vertical sounding observations, temperature and moisture profiles are the most important for the description of the thermodynamic state of the medium. Other parameters, like those describing the cloud fields, the surface state or the conditions close to the surface are also key parameters for meteorology and climatology. A new generation of high spectral atmospheric sounders in the infrared has recently been designed to provide both new and more accurate data about the atmosphere, land and oceans for application to climate studies. Among the important observations that these instruments should contribute to the climate data set are day and night global measurements of: atmospheric temperature profiles; relative humidity profiles; cloud field parameters; total ozone burden of the atmosphere; distribution of minor atmospehric gases (methane, carbonmonoxide and nitrous oxide).

Recurso en línea: http://link.springer.com/openurl?genre=book&isbn=978-3-642-84601-4
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Incluye bibliografía

Chapter 1. Review of future programs from 1994 (ATOVS to the EOS era.. Chapter 2. Next generation IR sounders: temperature and moisture analysis.. Chapter 3. Next generation IR sounders and cloud field analysis.. Chapter 4. Next generation IR Sounder and surface characteristics analysis.. Chapter 5. Next Generation IR sounders and trace gas analysis.. Chapter 6. Next generation IR observations: impact on weather and climate analysis.. Chapter 7. Forward modelling.. Bibliography

Disponible para usuarios de ECOSUR con su clave de acceso

One of major challenges facing Earth's science in the next decade and beyondis the development of an accurate long term observational data set to study global change. To accomplish this, a wide range of observations will be required to provide both new measurements, not previously achievable and measurements with a greater degreee of accuracy and resolution than the ones which are presently and currently available. Among the parameters that are currently retrieved from satellite vertical sounding observations, temperature and moisture profiles are the most important for the description of the thermodynamic state of the medium. Other parameters, like those describing the cloud fields, the surface state or the conditions close to the surface are also key parameters for meteorology and climatology. A new generation of high spectral atmospheric sounders in the infrared has recently been designed to provide both new and more accurate data about the atmosphere, land and oceans for application to climate studies. Among the important observations that these instruments should contribute to the climate data set are day and night global measurements of: atmospheric temperature profiles; relative humidity profiles; cloud field parameters; total ozone burden of the atmosphere; distribution of minor atmospehric gases (methane, carbonmonoxide and nitrous oxide). eng

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