Single particle measurements of the chemical composition of cirrus ice residue during CRYSTAL-FACE

The first real‐time, in situ, investigation of the chemical composition of the residue of cirrus ice crystals was performed during July 2002. This study was undertaken on a NASA WB‐57F high‐altitude research aircraft as part of CRYSTAL‐FACE, a field campaign which sought to further our understanding...

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Published in:Journal of Geophysical Research. D. Atmospheres 2004-02, Vol.109 (D4), p.D04201.1-n/a
Main Authors: Cziczo, D. J., Murphy, D. M., Hudson, P. K., Thomson, D. S.
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Language:English
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chemical composition
cirrus ice
Earth, ocean, space
Exact sciences and technology
single particle
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description The first real‐time, in situ, investigation of the chemical composition of the residue of cirrus ice crystals was performed during July 2002. This study was undertaken on a NASA WB‐57F high‐altitude research aircraft as part of CRYSTAL‐FACE, a field campaign which sought to further our understanding of the relation of clouds, water vapor, and climate by characterizing, among other parameters, anvil cirrus formed about the Florida peninsula. A counter flow virtual impactor (CVI) was used to separate cirrus ice from the unactivated interstitial aerosol particles and evaporate condensed‐phase water. Residual material, on a crystal‐by‐crystal basis, was subsequently analyzed using the NOAA Aeronomy Laboratory's Particle Analysis by Laser Mass Spectrometry (PALMS) instrument. Sampling was performed from 5 to 15 km altitude and from 12° to 28° north latitude within cirrus originating over land and ocean. Chemical composition measurements provided several important results. Sea salt was often incorporated into cirrus, consistent with homogeneous ice formation by aerosol particles from the marine boundary layer. Size measurements showed that large particles preferentially froze over smaller ones. Meteoritic material was found within ice crystals, indicative of a relation between stratospheric aerosol particles and tropospheric clouds. Mineral dust was the dominant residue observed in clouds formed during a dust transport event from the Sahara, consistent with a heterogeneous freezing mechanism. These results show that chemical composition and size are important determinants of which aerosol particles form cirrus ice crystals.
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subjects chemical composition
cirrus ice
Earth, ocean, space
Exact sciences and technology
single particle
title Single particle measurements of the chemical composition of cirrus ice residue during CRYSTAL-FACE
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