Chemical and physical properties of bulk aerosols within four sectors observed during TRACE-P

Authors

C. Jordan, University of New Hampshire
B E. Anderson, NASAFollow
R. Talbot, University of New HampshireFollow
Jack E. Dibb, University of New HampshireFollow
H Fuelberg, Florida State University
Charlie Hudgins, SAIC
C M. Kiley, Florida State University
R. S. Russo, University of New Hampshire
Eric Scheuer, University of New Hampshire - Main CampusFollow
Garry Seid, University of New Hampshire - Main Campus
K L. Thornhill, NASAFollow
E L. Winstead, NASA

Abstract

Chemical and physical aerosol data collected on the DC-8 during TRACE-P were grouped into four sectors based on back trajectories. The four sectors represent long-range transport from the west (WSW), regional circulation over the western Pacific and Southeast Asia (SE Asia), polluted transport from northern Asia with substantial sea salt at low altitudes (NNW) and a substantial amount of dust (Channel). WSW has generally low mixing ratios at both middle and high altitudes, with the bulk of the aerosol mass due to non-sea-salt water-soluble inorganic species. Low altitude SE Asia also has low mean mixing ratios in general, with the majority of the aerosol mass comprised of non-sea-salts, however, soot is also relatively important in this region. NNW had the highest mean sea salt mixing ratios, with the aerosol mass at low altitudes (<2 km) evenly divided between sea salts, non-sea-salts, and dust. The highest mean mixing ratios of water-soluble ions and soot were observed at the lowest altitudes (<2 km) in the Channel sector. The bulk of the aerosol mass exported from Asia emanates from Channel at both low and midaltitudes, due to the prevalence of dust compared to other sectors. Number densities show enhanced fine particles for Channel and NNW, while their volume distributions are enhanced due to sea salt and dust. Low-altitude Channel exhibits the highest condensation nuclei (CN) number densities along with enhanced scattering coefficients, compared to the other sectors. At midaltitudes (2–7 km), low mean CN number densities coupled with a high proportion of nonvolatile particles (≥65%) observed in polluted sectors (Channel and NNW) are attributed to wet scavenging which removes hygroscopic CN particles. Low single scatter albedo in SE Asia reflects enhanced soot.

Department

Earth Sciences, Earth Systems Research Center

Publication Date

11-16-2003

Journal Title

Journal of Geophysical Research

Publisher

Wiley

Digital Object Identifier (DOI)

10.1029/2002JD003337

Document Type

Article

Recommended Citation

Jordan, C. E., et al. (2003), Chemical and physical properties of bulk aerosols within four sectors observed during TRACE-P, J. Geophys. Res., 108, 8813, doi:10.1029/2002JD003337, D21.

Rights

Copyright 2003 by the American Geophysical Union.