Satellite temperature measurements

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Las mediciones de temperatura por satélite en la troposfera comenzaron en 1979. Los registros del globo usable (radiosonda) comenzaron en 1958. Actualmente (a mayo de 2005) la tendencia en datos basados en los satélites de la versión de Mears et al es de +0,133 °C/década​ y en la versión 5.1 de Spencer y Christy es de +0,085 °C/década​ (el S+C ha experimentado recientemente una revisión no explicada, y la tendencia a mayo de 2005 ahora es de 0,12 °C/década​). Algunos análisis menos actualizados son Fu et al, con 0,2 °C/década (de mayo de 2004)​ y Vinnikov y Grody, con +0,22 °C a 0,26 °C por década (de octubre de 2003).​​ Esto puede compararse con el aumento del de aproximadamente 0,06 °C/década durante el último siglo y 0,15 °C/década desde 1979. rdf:langString
Satellite temperature measurements are inferences of the temperature of the atmosphere at various altitudes as well as sea and land surface temperatures obtained from radiometric measurements by satellites. These measurements can be used to locate weather fronts, monitor the El Niño-Southern Oscillation, determine the strength of tropical cyclones, study urban heat islands and monitor the global climate. Wildfires, volcanos, and industrial hot spots can also be found via thermal imaging from weather satellites. They can also be used as part of instrumental temperature records of Earth's climate system. rdf:langString
La mesure de température par satellite de l’atmosphère à diverses altitudes, de celle du sol et de la mer se fait par interprétation des mesures de capteurs sensibles à la luminance terrestre dans différentes longueurs d’onde. Les satellites météorologiques comportent maintenant souvent plus de 10 de ces capteurs qui permettent de sonder l’atmosphère pour repérer la structure des nuages et des systèmes météorologiques, les effets des îlots de chaleur urbains, les courants marins, les phénomènes comme El Niño, les feux de forêt, les émissions volcaniques et celles des industries polluantes. rdf:langString
rdf:langString Mediciones de temperatura por satélite
rdf:langString Mesure de température par satellite
rdf:langString Satellite temperature measurements
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rdf:langString Atmospheric temperature trends from 1979-2016 based on satellite measurements; troposphere above, stratosphere below.
rdf:langString Comparison of ground-based measurements of near-surface temperature and satellite based records of mid-tropospheric temperature from 1979 to 2010. Trends plotted 1982-2010.
rdf:langString Land surface temperature anomalies for a given month compared to the long-term average temperature of that month between 2000-2008.
rdf:langString Sea surface temperature anomalies for a given month compared to the long-term average temperature of that month from 1985 through 1997.
rdf:langString May 2020
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rdf:langString Satellite Temperatures.png
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rdf:langString Las mediciones de temperatura por satélite en la troposfera comenzaron en 1979. Los registros del globo usable (radiosonda) comenzaron en 1958. Actualmente (a mayo de 2005) la tendencia en datos basados en los satélites de la versión de Mears et al es de +0,133 °C/década​ y en la versión 5.1 de Spencer y Christy es de +0,085 °C/década​ (el S+C ha experimentado recientemente una revisión no explicada, y la tendencia a mayo de 2005 ahora es de 0,12 °C/década​). Algunos análisis menos actualizados son Fu et al, con 0,2 °C/década (de mayo de 2004)​ y Vinnikov y Grody, con +0,22 °C a 0,26 °C por década (de octubre de 2003).​​ Esto puede compararse con el aumento del de aproximadamente 0,06 °C/década durante el último siglo y 0,15 °C/década desde 1979. En el IPCC TAR sección 2.2.4​ se puede encontrar una extensa comparación y análisis de las tendencias de las distintas fuentes de datos y períodos. Las mediciones por satélite tienen la ventaja de que tienen una cobertura global, mientras que la medición de la radiosonda es a lo largo. Ha habido varias contradicciones al comparar los datos provenientes de ambos sistemas. Los modelos climáticos predicen que la troposfera se debería calentar más rápido que la superficie, por lo que sólo las versiones de Fu et al o Vinnikov y Grody de las mediciones por satélite son compatibles con esto y las mediciones de superficie.
rdf:langString Satellite temperature measurements are inferences of the temperature of the atmosphere at various altitudes as well as sea and land surface temperatures obtained from radiometric measurements by satellites. These measurements can be used to locate weather fronts, monitor the El Niño-Southern Oscillation, determine the strength of tropical cyclones, study urban heat islands and monitor the global climate. Wildfires, volcanos, and industrial hot spots can also be found via thermal imaging from weather satellites. They can also be used as part of instrumental temperature records of Earth's climate system. Weather satellites do not measure temperature directly. They measure radiances in various wavelength bands. Since 1978 microwave sounding units (MSUs) on National Oceanic and Atmospheric Administration polar orbiting satellites have measured the intensity of upwelling microwave radiation from atmospheric oxygen, which is related to the temperature of broad vertical layers of the atmosphere. Measurements of infrared radiation pertaining to sea surface temperature have been collected since 1967. Satellite datasets show that over the past four decades the troposphere has warmed and the stratosphere has cooled. Both of these trends are consistent with the influence of increasing atmospheric concentrations of greenhouse gases such as rising carbon dioxide in Earth's atmosphere.
rdf:langString La mesure de température par satellite de l’atmosphère à diverses altitudes, de celle du sol et de la mer se fait par interprétation des mesures de capteurs sensibles à la luminance terrestre dans différentes longueurs d’onde. Les satellites météorologiques comportent maintenant souvent plus de 10 de ces capteurs qui permettent de sonder l’atmosphère pour repérer la structure des nuages et des systèmes météorologiques, les effets des îlots de chaleur urbains, les courants marins, les phénomènes comme El Niño, les feux de forêt, les émissions volcaniques et celles des industries polluantes. La banque de données recueillies depuis que les capteurs sont assez sophistiqués permet aussi de discerner les tendances de la température moyenne du globe. Depuis 1978, les données des capteurs infrarouges des satellites circumpolaires de la National Oceanic and Atmospheric Administration suivant la signature thermique de l’oxygène dans une importante couche de l’atmosphère démontrent un réchauffement de la troposphère et un refroidissement de la stratosphère en accord avec la notion de réchauffement climatique.
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