What do We Know the Snow Darkening Effect Over Himalayan Glaciers.

Accession Number

N20120003719

Publication Date

Oct 2011

Media Count

Personal Author

A. M. Dasilva K. M. Kim K. U. Lau M. Suarez P. R. Colarco R. Gautam R. D. Koster S. P. Mahanama T. J. Yasunari

Abstract

The atmospheric absorbing aerosols such as dust, black carbon (BC), organic carbon (OC) are now well known warming factors in the atmosphere. However, when these aerosols deposit onto the snow surface, it causes darkening of snow and thereby absorbing more energy at the snow surface leading to the accelerated melting of snow. If this happens over Himalayan glacier surface, the glacier meltings are expected and may contribute the mass balance changes though the mass balance itself is more complicated issue. Glacier has mainly two parts: ablation and accumulation zones. Those are separated by the Equilibrium Line Altitude (ELA). Above and below ELA, snow accumulation and melting are dominant, respectively. The change of ELA will influence the glacier disappearance in future. In the Himalayan region, many glacier are debris covered glacier at the terminus (i.e., in the ablation zone). Debris is pieces of rock from local land and the debris covered parts are probably not affected by any deposition of the absorbing aerosols because the snow surface is already covered by debris (the debris covered parts have different mechanism of melting). Hence, the contribution of the snow darkening effect is considered to be most important over non debris covered part; of the Himalayan glacier (i.e., over the snow or ice surface area). To discuss the whole glacier retreat, mass balance of each glacier is most important including the discussion on glacier flow, vertical compaction of glacier, melting amount, etc. The contribution of the snow darkening is mostly associated with the snow/ice surface melting. Note that the surface melting itself is not always directly related to glacier retreats because sometimes melt water refreezes inside of the glacier. We should discuss glacier retreats in terms of not only the snow darkening but also other contributions to the mass balance.

Keywords

Aerosols
Carbon
Darkening
Debris
Glaciers
Glaciology
Himalayas
Mass distribution
Melting
Snow


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Source Agency

National Aeronautics and Space Administration

NTIS Subject Category

55A - Aeronomy

Corporate Author

Goddard Space Flight Center, Greenbelt, MD.

Document Type

Conference proceedings

Title Note

N/A

NTIS Issue Number

1222

Contract Number

N/A

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