Aerosol optical properties and related chemical apportionment at Xinken in Pearl River Delta of China: Fid-Bau Portal

Aerosol optical properties and related chemical apportionment at Xinken in Pearl River Delta of China

Cheng, Y.F. / Wiedensohler, A. / Eichler, H. / Su, H. / Gnauk, T. / Brüggemann, E. / Herrmann, H. / Heintzenberg, J. / Slanina, J. / Tuch, T. / ... [mehr]

Abstract

AbstractAerosol optical properties (AOPs) of sub- $10 μ m$ particles under dry conditions (relative humidity (RH) $< 20 %$ ) were investigated at Xinken in Pearl River Delta of China from 4 October to 5 November 2004. Severe aerosol optical pollution has been found characterized by strongly light-absorbing particles. At 550nm, the magnitude of the light scattering ( $333 \pm 138 {Mm}^{- 1}$ ) and absorption ( $70 \pm 42 {Mm}^{- 1}$ ), limited visual range ( $5.3 \pm 2.5 km$ ), and low single scattering albedo ( $0.83 \pm 0.05$ ) show Xinken to be comparable to the most polluted urban cores rather than even a polluted rural site. Other presented AOPs include hemispheric backscattering fraction ( $11 \pm 1 %$ ) and asymmetry parameter ( $0.67 \pm 0.01$ ) at 550nm, and Ångström exponent ( ${\overset{˚}{a}}_{450 / 700} = 1.6 \pm 0.15$ ). Systematic relationships exist among the various AOPs. Their diurnal variations cannot be solely explained with the development of atmospheric boundary layer, but also obviously influenced by local wind patterns, variation of sources, photochemistry and nighttime heterogeneous chemistry. The fractional contributions to extinction, scattering and absorption ( $f_{ep; sp; ap}$ ) due to sub-aerosol-populations and individual chemical compounds are derived by the Mie simulations. The sub- $1 μ m$ particles contribute more than 90% of the particle extinction ( $σ_{ep, 550 nm}$ ). Under dry conditions, $f_{ep}$ of non-sea-salt sulfate, particulate organic matter, elemental carbon (EC) and residual are about 44%, 17%, 17% and 15%, respectively. However, the water uptake of particles can contribute 50–60% to $σ_{ep, 550 nm}$ at RH 90%. So in the ambient atmosphere, sulfate, carbonaceous material and water all play very important roles, concerning the visibility impairment at Xinken. The respective mass extinction, scattering and absorption efficiencies ( $α_{ep; sp; ap}$ ) are mostly consistent with previously reported values for the polluted area. $α_{ap, EC, 550 nm}$ for sub- $1 μ m$ and sub- $10 μ m$ ranges are $9.3 \pm 1.4$ and $7.2 \pm 1.0 m^{2} g^{- 1}$ , respectively. Our results imply a higher $α_{ap, EC}$ for more internally mixed EC under the atmospheric conditions present at Xinken.

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Aerosol optical properties and related chemical apportionment at Xinken in Pearl River Delta of China

Cheng, Y.F. / Wiedensohler, A. / Eichler, H. / Su, H. / Gnauk, T. / Brüggemann, E. / Herrmann, H. / Heintzenberg, J. / Slanina, J. / Tuch, T. / ... [mehr]

Abstract

Aerosol optical properties and related chemical apportionment at Xinken in Pearl River Delta of China

Cheng, Y.F. / Wiedensohler, A. / Eichler, H. / Su, H. / Gnauk, T. / Brüggemann, E. / Herrmann, H. / Heintzenberg, J. / Slanina, J. / Tuch, T. / ... [mehr]