Closure study on optical and microphysical properties of a mixed urban and Arctic haze air mass observed with Raman lidar and Sun photometer

D. Mueller, I. Mattis, A. Ansmann, B. Wehner, D. Althausen, U. Wandinger, O. Dubovik

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35 Citations (Scopus)

Abstract

[1] We present a comprehensive optical and microphysical characterization of an intense haze event observed over Leipzig ( 51.3 degreesN, 12.4 degreesE), Germany, in April 2002. This event was characterized by unusually high optical depths. The haze consisted of a mixture of urban and Arctic haze aerosols which were advected from the Arctic regions across eastern Europe and Scandinavia. For the first time a closure study on such an event could be carried out on the basis of combined observations with Raman lidar and Sun photometer. This study also served as a performance test of the inversion algorithms that are used for retrieving microphysical particle properties from the optical data sets. A comparison of parameters derived in this study to respective quantities determined in the Arctic regions showed that Arctic-haze-like material dominated the optical and microphysical particle properties, although a significant amount of this haze must have consisted of urban aerosols. The urban aerosols from eastern Europe had properties rather similar to those characteristic for the well-aged particles of Arctic haze. The major part of the haze was confined to heights below 3 km. Optical depth was 0.4 - 0.5 at 532 nm on 8 April 2002. The particle backscatter-to-extinction ( lidar) ratio varied between 35 and 75 sr at 355 and 532 nm. The Angstrom exponent of particle extinction in the wavelength range from 355 to 532 nm was 1.8 - 2.8. The inversion of the lidar optical data resulted in particle effective radii around 0.19 +/- 0.04 mum, volume concentrations of 16 - 33 mum(3) cm(-3), surface area concentrations of 270 - 510 mum(2) cm(-3), and a single-scattering albedo around 0.97 +/- 0.06 at 532 nm. Particle size distributions showed a rather pronounced monomodal structure in the accumulation mode, which is characteristic for well-aged particles. The particle properties derived from the two instruments agreed well for intensive parameters, i.e., Angstrom exponents, lidar ratio, effective radius, and single-scattering albedo. Extensive parameters, i.e., total particle surface area and particle volume concentration, showed similar values.

Original languageEnglish
Article numberD13206
Number of pages10
JournalJournal of Geophysical Research: Atmospheres
Volume109
Issue numberD13
DOIs
Publication statusPublished - Jul 2004

Keywords

  • TO-BACKSCATTER RATIO
  • Sun photometer
  • particle properties
  • TROPOSPHERIC AEROSOL
  • Arctic haze
  • CENTRAL-EUROPE
  • Raman lidar
  • ALERT CANADA
  • SIZE DISTRIBUTIONS
  • APRIL 1986
  • urban pollution
  • SKY RADIANCE MEASUREMENTS
  • SAHARAN DUST
  • PARTICLE PARAMETERS
  • VERTICAL PROFILES

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