Abstract
Abstract. Improved characterization of aerosol properties in the vicinity of clouds is important for better understanding two critical aspects of climate: aerosol–cloud interactions and the direct radiative effect of aerosols. Satellite measurements have provided important insights into aerosol properties near clouds, but also suggested that the observations can be affected by 3-D radiative processes and instrument blurring not considered in current data interpretation methods. This study examines systematic cloud-related changes in particle properties and radiation fields that influence satellite measurements of aerosols in the vicinity of low-level maritime clouds. For this, the paper presents a statistical analysis of a yearlong global dataset of co-located MODIS and CALIOP observations and theoretical simulations. The results reveal that CALIOP-observed aerosol particle size and optical thickness, and MODIS-observed solar reflectance increase systematically in a wide transition zone around clouds. It is estimated that near-cloud changes in particle populations – including both aerosols and undetected cloud particles – are responsible for roughly two thirds of the observed increase in 0.55 μm MODIS reflectance. The results also indicate that 3-D radiative processes significantly contribute to near-cloud reflectance enhancements, while instrument blurring contributes significantly only within 1 km from clouds and then quickly diminishes with distance from clouds.
Highlights
Di Girolamo, observed parcloud particles – are responsible for roughly two thirds of the observed increase in 0.55 μm MODIS reflectance
Because changes in particle populations should cause similar relative enhancements in particle scattering for CALIOP and MODIS, most of the extra enhancement likely arises from 3-D radiative processes and instrument blurring
To better understand systematic near-cloud changes in particle properties and satellite-observed solar reflectances, the study combines the analysis of co-located A-train data from the CALIOP lidar and MODIS imager with theoretical simulations of 3-D radiative processes and instrument blurring
Summary
2007, 2008) and instrument blurring caused by stray light contamination (Meister and McClain, 2010). This study examines satellite measurements of aerosols near low-level maritime clouds. T. Varnai et al.: Multi-satellite aerosol observations in the vicinity of clouds. Data from the Aqua satellite’s MODIS (MODerate resolution Imaging Spectroradiometer) instrument provides cloud locations and solar reflectance fields near clouds. Data from the CALIPSO (CloudAerosol Lidar and Infrared Pathfinder Satellite Observations) satellite’s CALIOP (Cloud-Aerosol Lidar with Orthogonal Polarization) lidar provides information on near-cloud particle changes without the complications of 3-D radiative processes and instrument blurring. Simulations using known instrument characteristics provide estimates of blurring effects. The paper estimates the causes of near-cloud changes in MODIS reflectances by combining CALIOP and MODIS data, and combining the observations with theoretical simulations in Sect.
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