AEROSOL LIGHT-SCATTERING PROPERTIES AT CAPE GRIM, TASMANIA, DURING THE FIRST AEROSOL CHARACTERIZATION EXPERIMENT (ACE-1)

Citation
Cm. Carrico et al., AEROSOL LIGHT-SCATTERING PROPERTIES AT CAPE GRIM, TASMANIA, DURING THE FIRST AEROSOL CHARACTERIZATION EXPERIMENT (ACE-1), J GEO RES-A, 103(D13), 1998, pp. 16565-16574
Citations number
34
Categorie Soggetti
Metereology & Atmospheric Sciences","Geosciences, Interdisciplinary","Astronomy & Astrophysics",Oceanografhy,"Geochemitry & Geophysics
Volume
103
Issue
D13
Year of publication
1998
Pages
16565 - 16574
Database
ISI
SICI code
Abstract
Large uncertainties remain in understanding the effects of ambient aer osols on climate. As part of the First Aerosol Characterization Experi ment (ACE 1,November 15 to December 15, 1995), the total light scatter ing and backscattering coefficients by particles (sigma(sp), and sigma (bsp)) were measured at Cape Grim, Tasmania. Such measurements were ma de to characterize aerosol radiative forcing relevant to climate chang e at a southern hemisphere site. A controlled relative humidity (RH) n ephelometry system (humidograph) was used to measure the dependence of sigma(sp) and sigma(bsp) upon controlled RH, upper particle diameter (D-p), and wavelength of light(lambda). Parameters derived from the me asurements necessary to incorporate aerosols into climate models inclu de the dependence of light scattering on aerosol hygroscopic growth(f( RH)) and the hemispheric backscatter fraction (b), both as functions o f wavelength of light. Differences in parameter values during clean ma rine and non-clean-marine time periods were greatest for sigma(sp) and sigma(bsp) for D-p less than or equal to 1 mu m and were least for f( RH) and b. During clean marine conditions, for D-p, less than or equal to 10 mu m, and at lambda=550 nm, means and standard deviations of ke y parameters measured included f(RH equal to 82%) = 1.98 +/- 0.08 for sigma(sp), f(RH equal to 82%)= 1.48 +/- 0.09 for sigma(bsp), b = 0.16 +/- 0.01 at RH equal to 22%, and b = 0.12 +/- 0.03 at RH equal to 82%. These measurements contribute to characterizing aerosol optical prope rties at a remote marine site, serve as a basis of comparison to pollu ted sites, and may provide input to climate models.