An overview of black carbon deposition in High Asia glaciers and its impacts on radiation balance

• Published in: Advances in water resources Vol. 55; pp. 80 - 87
• Main Authors: Ming, Jing, Xiao, Cunde, Du, Zhencai, Yang, Xingguo
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.05.2013
• Subjects: Black carbon; Carbon; Deposition; Elevation; Glacier; Glaciers; High Asia; Himalayas; Melting; Mountains; Radiative forcing; Water resources; China, People's Rep., Xizang, Tibetan Plateau; PN, Arctic; China, People's Rep; Glacier; Black carbon; Himalayas; Radiative forcing; High Asia
• ISSN: 0309-1708; 1872-9657
• DOI: 10.1016/j.advwatres.2012.05.015

► Reanalyzing black carbon (BC) deposition and the impacts on High Asia glaciers. ► Elevations of these glaciers dominate the BC concentrations in their surfaces first. ► The Himalaya makes the eastern river valleys be the primary channels for BC into the Plateau. ► The averaged median forcing of BC depositions in these glaciers is 6 Wm−2. ► The average absorbance by BC in these glaciers is 5% of the net radiation fluxes. Since 2000, 18 High Asia glaciers have been surveyed for black carbon (BC) deposition 22 times, and numerous snow samples and ice cores have been collected by researchers. However, most of the results were interpreted individually in papers. Here, we assemble the data and discuss the distribution of BC deposition and its impacts on the melting of the glaciers through radiative forcing. We find that BC distribution on the surfaces of High Asia glaciers primarily depends upon their elevations (i.e., higher sites have lower concentrations) and then upon regional BC emissions and surface melting conditions. BC concentrations in High Asia glaciers are similar to the Arctic and western American mountains but are significantly less than heavy industrialized areas such as northern China. Although Himalayan glaciers, which are important due to their water resources, are directly facing the strong emissions from South Asia, their mean BC is the lowest due to high elevations. A new finding indicated by ice core records suggested that great valleys in the eastern Himalayan section are effective pathways for BC entering the Tibetan Plateau and make increasing BC trends in the local glaciers. On average, BC deposition causes a mean forcing of ∼6 Wm−2 (roughly estimated 5% of the total forcing) in High Asia glaciers and therefore may not be a major factor impacting the melting of most glaciers.