Elemental carbon in snow at Changbai Mountain, northeastern China: concentrations, scavenging ratios, and dry deposition velocities

Light-absorbing aerosol - particularly elemental carbon (EC) - while mixed with snow and ice is an important climate driver from the enhanced absorption of solar radiation. Currently, considerable efforts are being made to estimate its radiative forcing on a global scale, but several uncertainties r...

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Main Authors: Wang, Z. W., Gallet, J. C., Pedersen, C. A., Zhang, X. S., Strom, J., Ci, Z. J.
Format: Report
Language:unknown
Published: 2014
Subjects:
Arctic
Online Access:http://ir.rcees.ac.cn/handle/311016/9539
id ftchacadscircees:oai:/ir.rcees.ac.cn:311016/9539
record_format openpolar
spelling ftchacadscircees:oai:/ir.rcees.ac.cn:311016/9539 2023-06-11T04:09:26+02:00 Elemental carbon in snow at Changbai Mountain, northeastern China: concentrations, scavenging ratios, and dry deposition velocities Wang, Z. W. Gallet, J. C. Pedersen, C. A. Zhang, X. S. Strom, J. Ci, Z. J. 2014 http://ir.rcees.ac.cn/handle/311016/9539 unknown ATMOSPHERIC CHEMISTRY AND PHYSICS Wang, Z. W.; Gallet, J. C.; Pedersen, C. A.; Zhang, X. S.; Strom, J.; Ci, Z. J.Elemental carbon in snow at Changbai Mountain, northeastern China: concentrations, scavenging ratios, and dry deposition velocities,ATMOSPHERIC CHEMISTRY AND PHYSICS,2014,14(2):629-640 http://ir.rcees.ac.cn/handle/311016/9539 期刊论文 2014 ftchacadscircees 2023-05-28T12:04:52Z Light-absorbing aerosol - particularly elemental carbon (EC) - while mixed with snow and ice is an important climate driver from the enhanced absorption of solar radiation. Currently, considerable efforts are being made to estimate its radiative forcing on a global scale, but several uncertainties remain, particularly those regarding its deposition processes. In this study, concurrent measurements of EC in air and snow are performed for three years (2009-2012) at Changbai station, northeastern China. The scavenging ratio and the wet-and dry-deposition fluxes of EC over the snow surface are estimated. The mean EC concentration in the surface snow is 1000 +/- 1500 ng g(-1), ranging from 7 to 7640 ng g(-1). The mean value of the scavenging ratio of EC by snow is 140 +/- 100, with a median value of 150, which is smaller than that reported in Arctic areas. A non-rimed snow process is a significant factor in interpreting differences with Arctic areas. Wet-deposition fluxes of EC are estimated to be 0.47 +/- 0.37 mu g cm(-2) month(-1) on average over the three snow seasons studied. Dry deposition is more than five times higher, with an average of 2.65 +/- 1.93 mu g cm(-2) month(-1); however, only winter period estimation is possible (December-February). During winter in Changbai, 87% of EC in snow is estimated to be due to dry deposition, with a mean dry deposition velocity of 6.44 x 10(-3) ms(-1) and median of 8.14 x 10(-3) ms(-1). Finally, the calculation of the radiative effect shows that 500 ng g(-1) of dry-deposited EC to a snow surface absorbs three times more incoming solar energy than the same mass mixed in the snow through wet deposition. Deposition processes of an EC-containing snow surface are, therefore, crucial to estimate its radiative forcing better, particularly in northeastern China, where local emission strongly influences the level and gradient of EC in the snowpack, and snow-covered areas are cold and dry due to the atmospheric general circulation. Furthermore, this study builds on the knowledge to ... Report Arctic Research Center for Eco-Environmental Sciences: RCEES OpenIR (Chinese Academy of Sciences) Arctic
institution Open Polar
collection Research Center for Eco-Environmental Sciences: RCEES OpenIR (Chinese Academy of Sciences)
op_collection_id ftchacadscircees
language unknown
description Light-absorbing aerosol - particularly elemental carbon (EC) - while mixed with snow and ice is an important climate driver from the enhanced absorption of solar radiation. Currently, considerable efforts are being made to estimate its radiative forcing on a global scale, but several uncertainties remain, particularly those regarding its deposition processes. In this study, concurrent measurements of EC in air and snow are performed for three years (2009-2012) at Changbai station, northeastern China. The scavenging ratio and the wet-and dry-deposition fluxes of EC over the snow surface are estimated. The mean EC concentration in the surface snow is 1000 +/- 1500 ng g(-1), ranging from 7 to 7640 ng g(-1). The mean value of the scavenging ratio of EC by snow is 140 +/- 100, with a median value of 150, which is smaller than that reported in Arctic areas. A non-rimed snow process is a significant factor in interpreting differences with Arctic areas. Wet-deposition fluxes of EC are estimated to be 0.47 +/- 0.37 mu g cm(-2) month(-1) on average over the three snow seasons studied. Dry deposition is more than five times higher, with an average of 2.65 +/- 1.93 mu g cm(-2) month(-1); however, only winter period estimation is possible (December-February). During winter in Changbai, 87% of EC in snow is estimated to be due to dry deposition, with a mean dry deposition velocity of 6.44 x 10(-3) ms(-1) and median of 8.14 x 10(-3) ms(-1). Finally, the calculation of the radiative effect shows that 500 ng g(-1) of dry-deposited EC to a snow surface absorbs three times more incoming solar energy than the same mass mixed in the snow through wet deposition. Deposition processes of an EC-containing snow surface are, therefore, crucial to estimate its radiative forcing better, particularly in northeastern China, where local emission strongly influences the level and gradient of EC in the snowpack, and snow-covered areas are cold and dry due to the atmospheric general circulation. Furthermore, this study builds on the knowledge to ...
format Report
author Wang, Z. W.
Gallet, J. C.
Pedersen, C. A.
Zhang, X. S.
Strom, J.
Ci, Z. J.
spellingShingle Wang, Z. W.
Gallet, J. C.
Pedersen, C. A.
Zhang, X. S.
Strom, J.
Ci, Z. J.
Elemental carbon in snow at Changbai Mountain, northeastern China: concentrations, scavenging ratios, and dry deposition velocities
author_facet Wang, Z. W.
Gallet, J. C.
Pedersen, C. A.
Zhang, X. S.
Strom, J.
Ci, Z. J.
author_sort Wang, Z. W.
title Elemental carbon in snow at Changbai Mountain, northeastern China: concentrations, scavenging ratios, and dry deposition velocities
title_short Elemental carbon in snow at Changbai Mountain, northeastern China: concentrations, scavenging ratios, and dry deposition velocities
title_full Elemental carbon in snow at Changbai Mountain, northeastern China: concentrations, scavenging ratios, and dry deposition velocities
title_fullStr Elemental carbon in snow at Changbai Mountain, northeastern China: concentrations, scavenging ratios, and dry deposition velocities
title_full_unstemmed Elemental carbon in snow at Changbai Mountain, northeastern China: concentrations, scavenging ratios, and dry deposition velocities
title_sort elemental carbon in snow at changbai mountain, northeastern china: concentrations, scavenging ratios, and dry deposition velocities
publishDate 2014
url http://ir.rcees.ac.cn/handle/311016/9539
geographic Arctic
geographic_facet Arctic
genre Arctic
genre_facet Arctic
op_relation ATMOSPHERIC CHEMISTRY AND PHYSICS
Wang, Z. W.; Gallet, J. C.; Pedersen, C. A.; Zhang, X. S.; Strom, J.; Ci, Z. J.Elemental carbon in snow at Changbai Mountain, northeastern China: concentrations, scavenging ratios, and dry deposition velocities,ATMOSPHERIC CHEMISTRY AND PHYSICS,2014,14(2):629-640
http://ir.rcees.ac.cn/handle/311016/9539
_version_ 1768383305180250112

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