Factors controlling the accelerated expansion of Imja Lake, Mount Everest region, Nepal

This study explores the link between area increase of Imja Tsho (Lake) and changes of Imja Glacier (area ~25km2) under the influence of climate change using multitemporal satellite imagery and local climate data. Between 1962 and 2013, Imja Lake expanded from 0.03±0.01 to 1.35±0.05 km2 at a rate of...

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Bibliographic Details
Published in:Annals of Glaciology
Main Authors: Sudeep Thakuri, Franco Salerno, Tobias Bolch, Nicolas Guyennon, Gianni Tartari
Format: Article in Journal/Newspaper
Language:English
Published: Cambridge University Press 2016
Subjects:
climate change
glacier flow
glacier hazards
mountain glaciers
remote sensing
Meteorology. Climatology
QC851-999
Annals of Glaciology
Online Access:https://doi.org/10.3189/2016AoG71A063
https://doaj.org/article/686c4bbe07094618bcef0831941a5ba7
Description
Summary:This study explores the link between area increase of Imja Tsho (Lake) and changes of Imja Glacier (area ~25km2) under the influence of climate change using multitemporal satellite imagery and local climate data. Between 1962 and 2013, Imja Lake expanded from 0.03±0.01 to 1.35±0.05 km2 at a rate of 0.026±0.001 km2 a-1. The mean glacier-wide flow velocity was 37±30ma-1 during 1992–93 and 23±15ma-1 during 2013–14, indicating a decreasing velocity. A mean elevation change of –1.29±0.71ma-1 was observed over the lower part of the glacier in the period 2001–14, with a rate of –1.06±0.63ma-1 in 2001–08 and –1.56±0.80ma-1 in 2008–14. We conclude that the decrease in flow velocity is mainly associated with reduced accumulation due to a decrease in precipitation during the last few decades. Furthermore, glacier ablation has increased due to increasing maximum temperatures during the post-monsoon months. Decreased glacier flow velocities and increased mass losses induce the formation and subsequent expansion of glacial lakes under favourable topographic conditions.

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