Quantifying the respective roles of aerosols and clouds in the strong brightening since the early 2000s over the Iberian Peninsula

Quantifying the respective roles of aerosols and clouds in the strong brightening since the early 2000s over the Iberian Peninsula

The contribution of clouds and aerosols to the decadal variations of downward surface shortwave radiation (SSR) is a current controversial topic. This study proposes a method, which is based on surface‐based SSR measurements, aerosol observations, and radiative transfer simulations (in cloud‐free an...

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Veröffentlicht in:Journal of geophysical research. Atmospheres 2014-09, Vol.119 (17), p.10,382-10,393
Hauptverfasser: Mateos, D., Sanchez-Lorenzo, A., Antón, M., Cachorro, V. E., Calbó, J., Costa, M. J., Torres, B., Wild, M.
Format: Artikel
Sprache:eng
Schlagworte:
Aerosols
Atmospheric aerosols
Brightening
brightening period
cloud and aerosol radiative effects
Cloud cover
Clouds
downward shortwave radiation trend
Energy budgets
Espanya
Geophysics
Mathematical analysis
Meteorology
Peninsulas
Radiació solar
Radiative transfer
Simulation
Solar radiation
Spain
total cloud cover and aerosol load
Trends
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container_end_page 10,393
container_issue 17
container_start_page 10,382
container_title Journal of geophysical research. Atmospheres
container_volume 119
creator Mateos, D.
Sanchez-Lorenzo, A.
Antón, M.
Cachorro, V. E.
Calbó, J.
Costa, M. J.
Torres, B.
Wild, M.
description The contribution of clouds and aerosols to the decadal variations of downward surface shortwave radiation (SSR) is a current controversial topic. This study proposes a method, which is based on surface‐based SSR measurements, aerosol observations, and radiative transfer simulations (in cloud‐free and cloud‐ and aerosol‐free scenarios), to evaluate cloud‐aerosol (CARE), cloud (CRE), and aerosol (ARE) radiative effects. This method is applied to quantify the role played by, separately, clouds and aerosols on the intense brightening of the SSR observed in the Iberian Peninsula. Clouds and Earth's Radiation Energy Budget System (CERES) and surface‐based data exhibit an increase in SSR between 2003 and 2012, exceeding +10 W m−2 over this period for some areas of the peninsula. The calculations are performed for three surface‐based sites: Barcelona and Valladolid (Spain), and Évora (Portugal). Ranges in monthly values of CARE, CRE, and ARE are (−80, −20), (−60, −20), and (−30, 0), respectively (in W m−2). The average trends for the analyzed period of CARE, CRE, and ARE are +7, +5, and +2 W m−2 per decade, respectively. Overall, three fourths of the SSR trend is explained by clouds, while the other one fourth is related to aerosol changes. The SSR trends explained by the clouds and aerosol radiative effects are in line with the observed reductions in total cloud cover and aerosol load (both at the surface and in the whole atmospheric column). Furthermore, the CRE values are compared against CERES data showing good agreement between both data series, although some discrepancies are observed in their trends. Key Points A strong brightening is observed between 2003 and 2012 in the Iberian PeninsulaSolar radiation change is explained 75% by clouds and 25% by aerosolsCloud radiative effect from CERES and surface‐based data are in high agreement
doi_str_mv 10.1002/2014JD022076
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Clouds and Earth's Radiation Energy Budget System (CERES) and surface‐based data exhibit an increase in SSR between 2003 and 2012, exceeding +10 W m−2 over this period for some areas of the peninsula. The calculations are performed for three surface‐based sites: Barcelona and Valladolid (Spain), and Évora (Portugal). Ranges in monthly values of CARE, CRE, and ARE are (−80, −20), (−60, −20), and (−30, 0), respectively (in W m−2). The average trends for the analyzed period of CARE, CRE, and ARE are +7, +5, and +2 W m−2 per decade, respectively. Overall, three fourths of the SSR trend is explained by clouds, while the other one fourth is related to aerosol changes. The SSR trends explained by the clouds and aerosol radiative effects are in line with the observed reductions in total cloud cover and aerosol load (both at the surface and in the whole atmospheric column). Furthermore, the CRE values are compared against CERES data showing good agreement between both data series, although some discrepancies are observed in their trends. 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E.</creatorcontrib><creatorcontrib>Calbó, J.</creatorcontrib><creatorcontrib>Costa, M. J.</creatorcontrib><creatorcontrib>Torres, B.</creatorcontrib><creatorcontrib>Wild, M.</creatorcontrib><title>Quantifying the respective roles of aerosols and clouds in the strong brightening since the early 2000s over the Iberian Peninsula</title><title>Journal of geophysical research. Atmospheres</title><addtitle>J. Geophys. Res. Atmos</addtitle><description>The contribution of clouds and aerosols to the decadal variations of downward surface shortwave radiation (SSR) is a current controversial topic. This study proposes a method, which is based on surface‐based SSR measurements, aerosol observations, and radiative transfer simulations (in cloud‐free and cloud‐ and aerosol‐free scenarios), to evaluate cloud‐aerosol (CARE), cloud (CRE), and aerosol (ARE) radiative effects. This method is applied to quantify the role played by, separately, clouds and aerosols on the intense brightening of the SSR observed in the Iberian Peninsula. Clouds and Earth's Radiation Energy Budget System (CERES) and surface‐based data exhibit an increase in SSR between 2003 and 2012, exceeding +10 W m−2 over this period for some areas of the peninsula. The calculations are performed for three surface‐based sites: Barcelona and Valladolid (Spain), and Évora (Portugal). Ranges in monthly values of CARE, CRE, and ARE are (−80, −20), (−60, −20), and (−30, 0), respectively (in W m−2). The average trends for the analyzed period of CARE, CRE, and ARE are +7, +5, and +2 W m−2 per decade, respectively. Overall, three fourths of the SSR trend is explained by clouds, while the other one fourth is related to aerosol changes. 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This study proposes a method, which is based on surface‐based SSR measurements, aerosol observations, and radiative transfer simulations (in cloud‐free and cloud‐ and aerosol‐free scenarios), to evaluate cloud‐aerosol (CARE), cloud (CRE), and aerosol (ARE) radiative effects. This method is applied to quantify the role played by, separately, clouds and aerosols on the intense brightening of the SSR observed in the Iberian Peninsula. Clouds and Earth's Radiation Energy Budget System (CERES) and surface‐based data exhibit an increase in SSR between 2003 and 2012, exceeding +10 W m−2 over this period for some areas of the peninsula. The calculations are performed for three surface‐based sites: Barcelona and Valladolid (Spain), and Évora (Portugal). Ranges in monthly values of CARE, CRE, and ARE are (−80, −20), (−60, −20), and (−30, 0), respectively (in W m−2). The average trends for the analyzed period of CARE, CRE, and ARE are +7, +5, and +2 W m−2 per decade, respectively. Overall, three fourths of the SSR trend is explained by clouds, while the other one fourth is related to aerosol changes. The SSR trends explained by the clouds and aerosol radiative effects are in line with the observed reductions in total cloud cover and aerosol load (both at the surface and in the whole atmospheric column). Furthermore, the CRE values are compared against CERES data showing good agreement between both data series, although some discrepancies are observed in their trends. Key Points A strong brightening is observed between 2003 and 2012 in the Iberian PeninsulaSolar radiation change is explained 75% by clouds and 25% by aerosolsCloud radiative effect from CERES and surface‐based data are in high agreement</abstract><cop>Washington</cop><pub>Blackwell Publishing Ltd</pub><doi>10.1002/2014JD022076</doi><tpages>12</tpages><oa>free_for_read</oa></addata></record>
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source Wiley Free Content; Wiley Online Library Journals Frontfile Complete; Recercat; Alma/SFX Local Collection
subjects Aerosols
Atmospheric aerosols
Brightening
brightening period
cloud and aerosol radiative effects
Cloud cover
Clouds
downward shortwave radiation trend
Energy budgets
Espanya
Geophysics
Mathematical analysis
Meteorology
Peninsulas
Radiació solar
Radiative transfer
Simulation
Solar radiation
Spain
total cloud cover and aerosol load
Trends
title Quantifying the respective roles of aerosols and clouds in the strong brightening since the early 2000s over the Iberian Peninsula
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