Publications

Dieudonne, E.; Chazette, P.; Marnas, F.; Totems, J.; Shang, X. (2015). Lidar profiling of aerosol optical properties from Paris to Lake Baikal (Siberia). ATMOSPHERIC CHEMISTRY AND PHYSICS, 15(9), 5007-5026.

Abstract
In June 2013, a ground-based mobile lidar performed the similar to 10 000 km ride from Paris to Ulan-Ude, near Lake Baikal, profiling for the first time aerosol optical properties all the way from western Europe to central Siberia. The instrument was equipped with N-2-Raman and depolarization channels that enabled an optical speciation of aerosols in the low and middle troposphere. The extinction-to-backscatter ratio (also called lidar ratio or LR) and particle depolarization ratio (PDR) at 355 nm have been retrieved. The LR in the lower boundary layer (300-700 m) was found to be 63 +/- 17 sr on average during the campaign with a distribution slightly skewed toward higher values that peaks between 50 and 55 sr. Although the difference is small, PDR values observed in Russian cities (> 2 %, except after rain) are systematically higher than the ones measured in Europe (< 1 %), which is probably an effect of the lifting of terrigenous aerosols by traffic on roads. Biomass burning layers from grassland or/and forest fires in southern Russia exhibit LR values ranging from 65 to 107 sr and from 3 to 4% for the PDR. During the route, desert dust aerosols originating from the Caspian and Aral seas regions were characterized for the first time, with a LR (PDR) of 43 +/- 14 sr (23 +/- 2 %) for pure dust. The lidar observations also showed that this dust event extended over 2300 km and lasted for similar to 6 days. Measurements from the Moderate Resolution Imaging Spectrometer (MODIS) show that our results are comparable in terms of aerosol optical thickness (between 0.05 and 0.40 at 355 nm) with the mean aerosol load encountered throughout our route.

DOI:
10.5194/acp-15-5007-2015

ISSN:
1680-7316