Above Cloud Aerosol Optical Depth from airborne observations in the South-East...

The core information for this publication's citation.: 
LeBlanc, S., J. Redemann, C. Flynn, K. Pistone, M. S. Kacenelenbogen, M. Segal-Rozenhaimer, Y. Shinozuka, S. E. Dunagan, R. P. Dahlgren, K. G. Meyer, J. Podolske, S. Howell, S. Freitag, J. Small, B. Holben, M. Diamond, P. Formenti, S. Piketh, M. Gerber, and A. Namwoonde (2019), Above Cloud Aerosol Optical Depth from airborne observations in the South-East Atlantic, doi: https://doi.org/10.5194/acp-2019-43 (submitted).
Abstract: 

The South-East Atlantic (SEA) is host to a climatologically significant biomass burning aerosol layer overlying marine stratocumulus. We present directly measured Above Cloud Aerosol Optical Depth (ACAOD) from the recent ObseRvations of Aerosols above CLouds and their intEractionS (ORACLES) airborne field campaign during August and September 2016. In our analysis, we use data from the Spectrometers for Sky-Scanning Sun-Tracking Atmospheric Research (4STAR) instrument and found an average ACAOD of 0.32 at 501 nm, with an average Ångström exponent (AE) of 1.71. The AE is much lower at 1.25 for the full column (including below cloud level aerosol), indicating the presence of large aerosol particles, likely marine aerosol, embedded within the vertical column. ACAOD is observed to be highest near coast at about 12° S, whereas its variability is largest at the southern edge of the average aerosol plume, as indicated by 12 years of MODIS observations. In comparison to MODIS derived ACAOD and long term fine-mode plume-average AOD, the directly-measured ACAOD from 4STAR is slightly lower than the ACAOD product from MODIS. The peak ACAOD expected from long term retrievals is measured to be closer to coast in 2016 at about 1.5°–4° W. By spatially binning the sampled AOD, we obtain a mean ACAOD of 0.37 for the SEA region. Vertical profiles of AOD showcase the variability of the altitude of the aerosol plume and its separation from cloud top. We measured larger AOD at high altitude near coast than farther from coast, while generally observing a larger vertical gap further from coast. Changes of AOD with altitude are correlated with a gas tracer of the biomass burning aerosol plume. Vertical extent of gaps between aerosol and cloud show a large distribution of extent, dominated by near zero gap. The gap distribution with longitude is observed to be largest at about 7° W, farther from coast than expected.

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Research Program: 
Atmospheric Composition
Radiation Science Program (RSP)
Mission: 
ORACLES