A Climatology of Midlatitude Maritime Cloud Fraction and Radiative Effect Derived from the ARM ENA Ground-Based Observations

A Climatology of Midlatitude Maritime Cloud Fraction and Radiative Effect Derived from the ARM ENA Ground-Based Observations

More than four years of ground-based measurements taken at the ARM Eastern North Atlantic (ENA) site between July 2015 and September 2019 have been collected and processed in this study. Monthly and hourly means of clear-sky, all-sky, total cloud fraction (CF T ), and single-layered low (CF L ) and...

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Veröffentlicht in:Journal of climate 2023-01, Vol.36 (2), p.531-546
Hauptverfasser: Dong, Xiquan, Zheng, Xiaojian, Xi, Baike, Xie, Shaocheng
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Sprache:eng
Schlagworte:
Atmosphere
Atmospheric radiation measurements
Budgets
Clear sky
Climate change
Climatology
Cloud condensation nuclei
Cloud microphysics
Cloud optical depth
Cloud properties
Clouds
Condensation nuclei
Cooling
Downwelling
Fluxes
Ground-based observation
Low clouds
Optical analysis
Optical thickness
Precipitable water
Radiation
Radiation budget
Sky
Water vapor
Water vapour
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Zheng, Xiaojian
Xi, Baike
Xie, Shaocheng
description More than four years of ground-based measurements taken at the ARM Eastern North Atlantic (ENA) site between July 2015 and September 2019 have been collected and processed in this study. Monthly and hourly means of clear-sky, all-sky, total cloud fraction (CF T ), and single-layered low (CF L ) and high (CF H ) clouds, the impacts of all scene types on the surface radiation budget (SRB), and their cloud radiative effects (CREs) have been examined. The annual averages of CF T , CF L , and CF H are 0.785, 0.342, and 0.123, respectively. The annual averages of the SW (LW) CREs for all sky, total, low, and high clouds are −56.7 (37.7), −76.6 (48.5), −73.7 (51.4), and −26.8 (13.9) W m −2 , respectively, resulting in the NET CREs of −19.0, −28.0, −22.2, and −12.9 W m −2 . Comparing the cloud properties and CREs at both ARM ENA and Southern Great Plains (SGP) sites, we found that the clear-sky downwelling SW and LW fluxes at the two sites are similar to each other due to their similar atmospheric background. Compared to SGP, the lower all-sky SW and higher LW fluxes at ENA are caused by its higher CF T and all-sky precipitable water vapor (PWV). With different low cloud microphysical properties and cloud condensation nuclei at the two sites, much higher cloud optical depth at SGP plays an important role in determining its lower SW flux, while T b and PWV are important for downwelling LW flux at the surface. A sensitivity study has shown that the all-sky SW CREs at SGP are more sensitive to CF T (−1.07 W m −2 % −1 ) than at ENA (−0.689 W m −2 % −1 ), with the same conclusion for all-sky LW CREs (0.735 W m −2 % −1 at SGP vs 0.318 W m −2 % −1 at ENA). The results over the two sites shed new light on the impacts of clouds on the midlatitude surface radiation budgets, over both ocean and land.
doi_str_mv 10.1175/JCLI-D-22-0290.1
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Monthly and hourly means of clear-sky, all-sky, total cloud fraction (CF T ), and single-layered low (CF L ) and high (CF H ) clouds, the impacts of all scene types on the surface radiation budget (SRB), and their cloud radiative effects (CREs) have been examined. The annual averages of CF T , CF L , and CF H are 0.785, 0.342, and 0.123, respectively. The annual averages of the SW (LW) CREs for all sky, total, low, and high clouds are −56.7 (37.7), −76.6 (48.5), −73.7 (51.4), and −26.8 (13.9) W m −2 , respectively, resulting in the NET CREs of −19.0, −28.0, −22.2, and −12.9 W m −2 . Comparing the cloud properties and CREs at both ARM ENA and Southern Great Plains (SGP) sites, we found that the clear-sky downwelling SW and LW fluxes at the two sites are similar to each other due to their similar atmospheric background. Compared to SGP, the lower all-sky SW and higher LW fluxes at ENA are caused by its higher CF T and all-sky precipitable water vapor (PWV). With different low cloud microphysical properties and cloud condensation nuclei at the two sites, much higher cloud optical depth at SGP plays an important role in determining its lower SW flux, while T b and PWV are important for downwelling LW flux at the surface. A sensitivity study has shown that the all-sky SW CREs at SGP are more sensitive to CF T (−1.07 W m −2 % −1 ) than at ENA (−0.689 W m −2 % −1 ), with the same conclusion for all-sky LW CREs (0.735 W m −2 % −1 at SGP vs 0.318 W m −2 % −1 at ENA). 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Monthly and hourly means of clear-sky, all-sky, total cloud fraction (CF T ), and single-layered low (CF L ) and high (CF H ) clouds, the impacts of all scene types on the surface radiation budget (SRB), and their cloud radiative effects (CREs) have been examined. The annual averages of CF T , CF L , and CF H are 0.785, 0.342, and 0.123, respectively. The annual averages of the SW (LW) CREs for all sky, total, low, and high clouds are −56.7 (37.7), −76.6 (48.5), −73.7 (51.4), and −26.8 (13.9) W m −2 , respectively, resulting in the NET CREs of −19.0, −28.0, −22.2, and −12.9 W m −2 . Comparing the cloud properties and CREs at both ARM ENA and Southern Great Plains (SGP) sites, we found that the clear-sky downwelling SW and LW fluxes at the two sites are similar to each other due to their similar atmospheric background. Compared to SGP, the lower all-sky SW and higher LW fluxes at ENA are caused by its higher CF T and all-sky precipitable water vapor (PWV). With different low cloud microphysical properties and cloud condensation nuclei at the two sites, much higher cloud optical depth at SGP plays an important role in determining its lower SW flux, while T b and PWV are important for downwelling LW flux at the surface. A sensitivity study has shown that the all-sky SW CREs at SGP are more sensitive to CF T (−1.07 W m −2 % −1 ) than at ENA (−0.689 W m −2 % −1 ), with the same conclusion for all-sky LW CREs (0.735 W m −2 % −1 at SGP vs 0.318 W m −2 % −1 at ENA). 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Monthly and hourly means of clear-sky, all-sky, total cloud fraction (CF T ), and single-layered low (CF L ) and high (CF H ) clouds, the impacts of all scene types on the surface radiation budget (SRB), and their cloud radiative effects (CREs) have been examined. The annual averages of CF T , CF L , and CF H are 0.785, 0.342, and 0.123, respectively. The annual averages of the SW (LW) CREs for all sky, total, low, and high clouds are −56.7 (37.7), −76.6 (48.5), −73.7 (51.4), and −26.8 (13.9) W m −2 , respectively, resulting in the NET CREs of −19.0, −28.0, −22.2, and −12.9 W m −2 . Comparing the cloud properties and CREs at both ARM ENA and Southern Great Plains (SGP) sites, we found that the clear-sky downwelling SW and LW fluxes at the two sites are similar to each other due to their similar atmospheric background. Compared to SGP, the lower all-sky SW and higher LW fluxes at ENA are caused by its higher CF T and all-sky precipitable water vapor (PWV). With different low cloud microphysical properties and cloud condensation nuclei at the two sites, much higher cloud optical depth at SGP plays an important role in determining its lower SW flux, while T b and PWV are important for downwelling LW flux at the surface. A sensitivity study has shown that the all-sky SW CREs at SGP are more sensitive to CF T (−1.07 W m −2 % −1 ) than at ENA (−0.689 W m −2 % −1 ), with the same conclusion for all-sky LW CREs (0.735 W m −2 % −1 at SGP vs 0.318 W m −2 % −1 at ENA). The results over the two sites shed new light on the impacts of clouds on the midlatitude surface radiation budgets, over both ocean and land.</abstract><cop>Boston</cop><pub>American Meteorological Society</pub><doi>10.1175/JCLI-D-22-0290.1</doi><tpages>16</tpages></addata></record>
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source American Meteorological Society; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals
subjects Atmosphere
Atmospheric radiation measurements
Budgets
Clear sky
Climate change
Climatology
Cloud condensation nuclei
Cloud microphysics
Cloud optical depth
Cloud properties
Clouds
Condensation nuclei
Cooling
Downwelling
Fluxes
Ground-based observation
Low clouds
Optical analysis
Optical thickness
Precipitable water
Radiation
Radiation budget
Sky
Water vapor
Water vapour
title A Climatology of Midlatitude Maritime Cloud Fraction and Radiative Effect Derived from the ARM ENA Ground-Based Observations
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