Black carbon aerosols over the Himalayas: direct and surface albedo forcing

Nair, Vijayakumar S. ; Babu, Suresh S. ; Moorthy, Krishna K. ; Sharma, Arun Kumar ; Marinoni, Angela ; Ajai, * (2013) Black carbon aerosols over the Himalayas: direct and surface albedo forcing Tellus B, 65 . Article ID 19738. ISSN 0280-6509

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Official URL: http://www.tellusb.net/index.php/tellusb/article/v...

Related URL: http://dx.doi.org/10.3402/tellusb.v65i0.19738

Abstract

Absorbing aerosols such as black carbon (BC) or dust over high-altitude Himalayan regions have potential implications on the regional climate and hydrological cycle over South Asia. Making use of extensive measurements of atmospheric BC from several Himalayan stations, an assessment of radiative forcing due to direct and snow-albedo darkening is examined. Generally, BC concentration in the atmosphere peaks during pre-monsoon season over the Himalayas and the climatological mean of atmospheric BC over Hanle (western Himalayas, 4.5km msl) and Nepal Climate Observatory-Pyramid (central Himalayas, 5km msl) are 106±27ng m−3 and 190±95ng m−3, respectively. Based on the optical and physical properties of composite aerosols measured at Hanle, clear sky direct radiative forcing (DRF) at the top of the atmosphere is estimated as 1.69W m−2 over snow surface and −1.54W m−2 over sandy surface during pre-monsoon season. The estimated amount of BC in the snow varied from 117 to 1.7µg kg−1 for wide range of dry deposition velocities (0.01–0.054cm s−1) of BC, snow depth (2–10cm) and snow densities (195–512kg m−3). Using a size-resolved wet scavenging parametrisation, the amount of BC on snow due to wet scavenging is estimated as 29 µg kg−1 for an accumulated snow depth of 27cm. For the range of 10–200µg kg−1 of BC in snow, the diurnally averaged forcing due to snow darkening has been found to vary from 0.87 to 10.2W m−2 for fresh snow and from 2.6 to 28.1W m−2 for the aged snow, which is significantly higher than the DRF. The direct and surface albedo radiative forcing could lead to significant warming over the Himalayas during pre-monsoon.

Item Type:Article
Source:Copyright of this article belongs to International Meteorological Institute in Stockholm.
Keywords:Black Carbon; Himalayan Aerosols; Snow Albedo; Radiative Forcing
ID Code:98698
Deposited On:06 Mar 2015 12:40
Last Modified:19 May 2016 10:38

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