Observed and modelled ice temperature and velocity along the main flowline of East Rongbuk Glacier, Qomolangma (Mount Everest), Himalaya

Tong Zhang; Cunde Xiao; William Colgan; Xiang Qin; Wentao Du; Weijun Sun; Yushuo Liu; Minghu Ding

doi:10.3189/2013JoG12J202

Observed and modelled ice temperature and velocity along the main flowline of East Rongbuk Glacier, Qomolangma (Mount Everest), Himalaya

Tong Zhang
, Cunde Xiao
, William Colgan
, Xiang Qin
, Wentao Du
, Weijun Sun
, Yushuo Liu
, Minghu Ding

Department of Glaciology and Climate

Research output: Contribution to journal › Article › Research › peer-review

35 Citations (Scopus)

Abstract

Knowledge of present-day ice temperature and velocity is important in order to determine how fast a glacier will respond to present and future climate change. We apply a two-dimensional higher-order thermomechanical flowband model to simulate present-day ice temperature and velocity along the main flowline of East Rongbuk Glacier, Qomolangma (Mount Everest), Himalaya. We use recent (2005-11) observational data to validate the numerical model. Modelled and observed ice surface velocities exhibit good agreement. Modelled ice temperatures agree well with observed values in two shallow boreholes that are ~18m deep. The model suggests that the ablation zone of East Rongbuk Glacier, km4 to km10 from the glacier head, is underlain by temperate ice.

Original language	English
Pages (from-to)	438-448
Number of pages	11
Journal	Journal of Glaciology
Volume	59
Issue number	215
DOIs	https://doi.org/10.3189/2013JoG12J202
Publication status	Published - Jul 2013

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 13 Climate Action

Programme Area

Programme Area 5: Nature and Climate

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10.3189/2013JoG12J202Licence: Other

Cite this

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abstract = "Knowledge of present-day ice temperature and velocity is important in order to determine how fast a glacier will respond to present and future climate change. We apply a two-dimensional higher-order thermomechanical flowband model to simulate present-day ice temperature and velocity along the main flowline of East Rongbuk Glacier, Qomolangma (Mount Everest), Himalaya. We use recent (2005-11) observational data to validate the numerical model. Modelled and observed ice surface velocities exhibit good agreement. Modelled ice temperatures agree well with observed values in two shallow boreholes that are \textasciitilde{}18m deep. The model suggests that the ablation zone of East Rongbuk Glacier, km4 to km10 from the glacier head, is underlain by temperate ice.",

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T1 - Observed and modelled ice temperature and velocity along the main flowline of East Rongbuk Glacier, Qomolangma (Mount Everest), Himalaya

AU - Zhang, Tong

AU - Xiao, Cunde

AU - Colgan, William

AU - Qin, Xiang

AU - Du, Wentao

AU - Sun, Weijun

AU - Liu, Yushuo

AU - Ding, Minghu

PY - 2013/7

Y1 - 2013/7

N2 - Knowledge of present-day ice temperature and velocity is important in order to determine how fast a glacier will respond to present and future climate change. We apply a two-dimensional higher-order thermomechanical flowband model to simulate present-day ice temperature and velocity along the main flowline of East Rongbuk Glacier, Qomolangma (Mount Everest), Himalaya. We use recent (2005-11) observational data to validate the numerical model. Modelled and observed ice surface velocities exhibit good agreement. Modelled ice temperatures agree well with observed values in two shallow boreholes that are ~18m deep. The model suggests that the ablation zone of East Rongbuk Glacier, km4 to km10 from the glacier head, is underlain by temperate ice.

AB - Knowledge of present-day ice temperature and velocity is important in order to determine how fast a glacier will respond to present and future climate change. We apply a two-dimensional higher-order thermomechanical flowband model to simulate present-day ice temperature and velocity along the main flowline of East Rongbuk Glacier, Qomolangma (Mount Everest), Himalaya. We use recent (2005-11) observational data to validate the numerical model. Modelled and observed ice surface velocities exhibit good agreement. Modelled ice temperatures agree well with observed values in two shallow boreholes that are ~18m deep. The model suggests that the ablation zone of East Rongbuk Glacier, km4 to km10 from the glacier head, is underlain by temperate ice.

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DO - 10.3189/2013JoG12J202

M3 - Article

SN - 0022-1430

VL - 59

SP - 438

EP - 448

JO - Journal of Glaciology

JF - Journal of Glaciology

IS - 215

ER -

Observed and modelled ice temperature and velocity along the main flowline of East Rongbuk Glacier, Qomolangma (Mount Everest), Himalaya

Abstract

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