Changes in Imja Tsho in the Mount Everest region of Nepal

Abstract. Imja Tsho, located in the Sagarmatha (Everest) National Park of Nepal, is one of the most studied and rapidly growing lakes in the Himalayan range. Compared with previous studies, the results of our sonar bathymetric survey conducted in September of 2012 suggest that its maximum depth has increased from 90.5 to 116.3 ± 5.2 m since 2002, and that its estimated volume has grown from 35.8 ± 0.7 to 61.7 ± 3.7 million m3. Most of the expansion of the lake in recent years has taken place in the glacier terminus–lake interface on the eastern end of the lake, with the glacier receding at about 52 m yr−1 and the lake expanding in area by 0.04 km2 yr−1. A ground penetrating radar survey of the Imja–Lhotse Shar glacier just behind the glacier terminus shows that the ice is over 200 m thick in the center of the glacier. The volume of water that could be released from the lake in the event of a breach in the damming moraine on the western end of the lake has increased to 34.1 ± 1.08 million m3 from the 21 million m3 estimated in 2002.

[1]  J. Ives,et al.  Formation of Glacial Lakes in the Hindu Kush-Himalayas and GLOF Risk Assessment , 2010 .

[2]  T. Bolch,et al.  Multi-decadal mass loss of glaciers in the Everest area (Nepal Himalaya) derived from stereo imagery , 2011 .

[3]  Shunichi Kobayashi,et al.  Topographical survey of end moraine and dead ice area at Imja Glacial Lake in 2001 and 2002 , 2007 .

[4]  D. R. Gurung,et al.  Inventory of Glaciers, Glacial Lakes and Glacial Lake Outburst Floods: Monitoring and Early Warning Systems in the Hindu Kush-Himalayan Region - Bhutan , 2001 .

[5]  K. Fujita,et al.  Recent changes in Imja Glacial Lake and its damming moraine in the Nepal Himalaya revealed by in situ surveys and multi-temporal ASTER imagery , 2009 .

[6]  渡邉 興亞,et al.  Glacier Lake and its Outburst Flood in the Nepal Himalaya , 1998 .

[7]  Nozomu Naito,et al.  Radio echo-sounding through supraglacial debris on Lirung and Khumbu Glaciers, Nepal Himalayas , 2000 .

[8]  Koji Fujita,et al.  Potential flood volume of Himalayan glacial lakes , 2013 .

[9]  N. Glasser,et al.  Sedimentological, geomorphological and dynamic context of debris-mantled glaciers, Mount Everest (Sagarmatha) region, Nepal , 2008 .

[10]  Adrian Luckman,et al.  Early recognition of glacial lake hazards in the Himalaya using remote sensing datasets , 2007 .

[11]  Frank Paul,et al.  Automated detection of glacier lakes based on remote sensing in view of assessing associated hazard potentials , 2010 .

[12]  M. Brook,et al.  Subaqueous calving margin morphology at Mueller, Hooker and Tasman glaciers in Aoraki/Mount Cook National Park, New Zealand , 2012, Journal of Glaciology.

[13]  T. Watanabe Imja Glacier dead-ice melt rates and changes in a supra-glacial lake, 1989-1994, Khumbu Himal, Nepal : Danger of lake drainage , 1995 .

[14]  C. Sharma,et al.  Glacier Lakes and Outburst Floods In the Nepal Himalaya , 2008 .

[15]  X. Jianchu,et al.  The Melting Himalayas: Regional Challenges and Local Impacts of Climate Change on Mountain Ecosystems and Livelihoods , 2007 .

[16]  T. Hagen,et al.  The World's Third Pole. (Book Reviews: Mount Everest. Formation, population, and exploration of the Everest region) , 1963 .

[17]  S. Bajracharya,et al.  Impact of Climate Change on Himalayan Glaciers and Glacial Lakes: Case Studies on GLOF and Associated Hazards in Nepal and Bhutan , 2007 .

[18]  Manfred F. Buchroithner,et al.  Identification of glacier motion and potentially dangerous glacial lakes in the Mt. Everest region/Nepal using spaceborne imagery , 2008 .

[19]  Damodar Lamsal,et al.  Digital terrain modelling using Corona and ALOS PRISM data to investigate the distal part of Imja Glacier, Khumbu Himal, Nepal , 2011 .

[20]  Y. Arnaud,et al.  Region-wide glacier mass balances over the Pamir-Karakoram-Himalaya during 1999–2011 , 2013 .

[21]  S. K. McFeeters The use of the Normalized Difference Water Index (NDWI) in the delineation of open water features , 1996 .

[22]  Damodar Lamsal,et al.  Evaluating the growth characteristics of a glacial lake and its degree of danger of outburst flooding: Imja Glacier, Khumbu Himal, Nepal , 2009 .

[23]  K. Fujita,et al.  Elevation changes of glaciers revealed by multitemporal digital elevation models calibrated by GPS survey in the Khumbu region, Nepal Himalaya, 1992-2008 , 2012, Journal of Glaciology.

[24]  J. Carrivick,et al.  Understanding high‐magnitude outburst floods , 2006 .

[25]  Tobias Bolch,et al.  Response of debris-covered glaciers in the Mount Everest region to recent warming, and implications for outburst flood hazards , 2012 .

[26]  Yves Arnaud,et al.  Contrasted evolution of glacial lakes along the Hindu Kush Himalaya mountain range between 1990 and 2009 , 2011 .

[27]  Shunichi Kobayashi,et al.  Topographical survey of end moraine and dead ice area at Imja Glacial Lake in , * * + and , 2007 .

[28]  Raju Aryal,et al.  Climate change in Nepal and its impact on Himalayan glaciers , 2011 .

[29]  Samjwal Ratna Bajracharya,et al.  Glaciers, glacial lakes and glacial lake outburst floods in the Mount Everest region, Nepal , 2009, Annals of Glaciology.

[30]  A. Byers An assessment of contemporary glacier fluctuations in Nepal's Khumbu Himal using repeat photography , 2008 .

[31]  J. Ives,et al.  RAPID GROWTH OF A GLACIAL LAKE IN KHUMBU HIMAL, HIMALAYA: PROSPECTS FOR A CATASTROPHIC FLOOD , 1994 .

[32]  W. Sulzer,et al.  High mountain geodata as a crucial criterion of research: case studies from Khumbu Himal (Nepal) and Mount Aconcagua (Argentina) , 2009 .