Environmental pollution due to black carbon aerosols and its impacts in a tropical urban city

Black carbon (BC) has become the subject of interest in the recent years for a variety of reasons. BC aerosol may cause environmental as well as harmful health effects in densely inhabited regions. BC is a strong absorber of radiation in the visible and near-infrared part of the spectrum, where most of the solar energy is distributed. Black carbon is emitted into the atmosphere as a byproduct of all combustion processes, viz., vegetation burning, industrial effluents, motor vehicle exhausts, etc. In this paper, we present results from our measurements on BC aerosols, total aerosol mass concentration, and aerosol optical depth over an urban environment; namely Hyderabad during January-May, 2003. Diurnal variations of BC suggest. that high BC concentrations are observed during 6:00-9:00 h and 19:00-23:00 h. Weekday variations, of BC suggest that the day,average BC concentrations increases gradually from Monday to Wednesday and gradually decreases from Thursday to, Sunday. Fraction of BC to total mass concentration has been observed to be 7%. BC showed positive correlation with total mass concentration and aerosol, optical depth at 500 nm. Radiative transfer calculations suggest that during January-May, diurnal averaged aerosol forcing at the. surface was calculated to be -33 WM-2 and at the top of the atmosphere (TOA) it is to be +9Wm(-2). (C) 2004 Elsevier Ltd. All rights reserved.