Downwasting and supraglacial lake evolution on the debris-covered Ngozumpa Glacier, Khumbu Himal, Nepal

Hands, Kathryn Ann

January 2004

In recent decades, the downwasting of several debris-covered glaciers in the Himalaya has led to the formation of large and potentially hazardous moraine- dammed lakes. The frequency of Glacial Lake Outburst Flood (GLOF) events in the Himalaya has steadily increased since the 1970s and as global temperatures continue to rise this trend is set to continue in the future. Downwasting of the debris-covered Ngozumpa Glacier in the Khumbu Himal, Nepal, has resulted in the abandonment of the lateral and terminal moraine crests, leaving them standing several tens of metres above the glacier surface. The moraines have exerted a control on the drainage of meltwater from the glacier surface and have encouraged ponding of meltwater on the glacier surface. The present study examines the evolution of perched supraglacial ponds on the Ngozumpa Glacier and assesses how the growth of these ponds affects the rate of downwasting of the glacier surface. The expansion rates of perched ponds can be rapid, up to 21,609 m ² a⁻¹, but the growth of these ponds tends to be terminated when contact is made with the englacial drainage network. The thesis documents for the first time a complete cycle of perched supra glacial pond growth and drainage and also provides direct evidence for internal ablation during pond drainage, a process that has only been inferred in previous research. The western lateral moraine has dammed back drainage from the western tributary valleys, resulting in the formation of laterally-dammed lakes. The research presented here examines the processes and rates of paraglacial reworking of the Ngozumpa moraines in order to assess the stability and longevity of the moraine dam. Approximately 1 km from the Ngozumpa terminus a large Spillway Lake has formed. Meltwater from upglacier is channelled into the lake and exits the glacier surface through an over-spill channel cut down through the western lateral moraine. The level of the Spillway Lake is thereby controlled by the height of the spillway channel through the western lateral moraine. The rate of expansion of the Spillway Lake is lower than that of the perched ponds upglacier, but as the Spillway Lake continues to enlarge and surface downwasting of the glacier surface proceeds, the lake could enter a period of rapid and unstable growth. By analogy with other glaciers in the Khumbu Rimal, it is possible that a large and potentially hazardous lake will form on the Ngozumpa within the next two decades.

551.31

Der glazifluviale Formenschatz im Gletschervorfeld des Himalaya und der Versuch einer relativ-zeitlichen Einordnung / Glaciofluvial sequence of forms in the glacier foreland of the Himalayas and their chronological classification

Tombrink, Gerrit

23 November 2017

No description available.

910

550

Himalaya

Khumbu Himal

Pangong Tso

Nepal

Indien

Hochasien

Glaziale Serie

Glazifluviale Serie

Gletscherschwankungen

Fluvialgeomorphologie

Hochgebirgsgeomorphologie

Glaziologie

Vergletscherung

Historische Vergletscherungsstadien

Rezente Gletscherschmelze

Quartärforschung

Holozän

Klimawandel

Flussformen

Proglaziale Formen

Gletschervorfeld

Sander

Himalaya

Khumbu Himal

Pangong Tso

Nepal

India

High Asia

Fluvial Geomorphology

Glacial Geomorphology

Glaciology

Glaciation

Glacier

Historical Glacier Fluctuations

Recent Glacier Melting

Climate Change

Quaternary Science

Holocene

River

River forms

Proglacial forms

Glacier foreland

Sandur

Geographie (PPN621264008)

Kritische Analyse der Rekonstruktionen der letztglazialen Vergletscherung im Nepal-Himalaja (Himalaja Südabdachung) / Critical analysis of the reconstructions of the last glacial glaciation in the Nepal-Himalayas (Himalayan south slope)

Spitzer, Elisabeth

07 February 2020

No description available.

910

550

Geographie (PPN621264008)