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Citation
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HERO ID
1603453
Reference Type
Journal Article
Title
Wintertime aerosol properties during foggy and nonfoggy days over urban center Delhi and their implications for shortwave radiative forcing
Author(s)
Ganguly, D; Jayaraman, A; Rajesh, TA; Gadhavi, H
Year
2006
Is Peer Reviewed?
Yes
Journal
Journal of Geophysical Research
ISSN:
0148-0227
EISSN:
2156-2202
Volume
111
Issue
D15
Page Numbers
D15217
DOI
10.1029/2005JD007029
Web of Science Id
WOS:000239992000003
URL
http://doi.wiley.com/10.1029/2005JD007029
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Abstract
[ 1] We present results from complimentary measurements of physical and optical properties of aerosols carried out at Delhi, as part of the Indian Space Research Organization Geosphere Biosphere Programme's Land Campaign II in December 2004. For the first time we unravel ground truth values of several radiatively important aerosol parameters such as their wavelength dependency in absorption, scattering behavior, single-scattering albedo, number size distribution, and vertical distribution in the atmosphere from this polluted megacity in south Asia. Interesting features are observed in the behavior of aerosol parameters under intermittent foggy, hazy, and clear-sky conditions prevalent during the campaign. All aerosol parameters exhibited a large distribution in their values, with variabilities being particularly higher on hazy and foggy days. The average clear-sky aerosol optical depth (AOD) value is 0.91 +/- 0.48, which is higher than the AOD value reported for most other cities in India during this season of the year. Increases in AOD on hazy and foggy days are found to be spectrally nonuniform. The percentage increase in AOD at shorter wavelengths was higher on hazy days compared to clear days. Diurnally averaged BC mass concentration varied from a low of 15 mu g/m(3) during clear days to a high of about 65 mu g/m(3) on hazy days. The wavelength dependency of aerosol absorption shows signatures of the presence of a significant amount of absorbing aerosols produced from biofuel/biomass burning. Single-scattering albedo at 525 nm is found to vary between 0.6 and 0.8 with an average value of 0.68 for the entire period. Lidar observations reveal that during a fog event there is a subsidence of aerosols to an extremely dense and shallow atmospheric layer of less than 200 m height from the surface. The presence of an aerosol layer at elevated altitudes is also detected. All the results are combined and used for estimating aerosol radiative forcing using a discrete ordinate radiative transfer model. We find a large negative forcing at the surface level in the range of - 40 to - 86 W/m(2), while forcing at the top of the atmosphere varied between - 2 and + 3 W/m(2).
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