Why in the News?

According to a recent report by Central Water Commission (CWC), glacial lakes and other water bodies in the Himalayas have expanded their surface area.

Key Findings of the report

• Increase in area of glacial lakes in India: Increase of 33.7%. (2011-2024)
• Transboundary risks: 10.81% increase in area from 2011 to 2024 of Glacial lakes and other water bodies in the Himalayan region, including neighbouring countries like Bhutan, Nepal and China, due to climate change.
• Lakes in High-risk category for GLOFs:  67 lakes identified in India experienced over a 40% increase in surface area. 
  • The regions with the most notable expansions include Ladakh, Himachal Pradesh, Uttarakhand, Sikkim, and Arunachal Pradesh.

About Glacial Lake and Glacial lake outburst flood (GLOFs)

• Glacial lakes: It is a body of water formed by the melting of glacial ice, typically created in depressions or basins carved out by glaciers during their movement.
• There are 4 categories of glacial lakes (based on their formation process) i.e. Moraine-dammed, Ice-dammed, Erosion, and others. 
• GLOFs: It is a release of meltwater from a moraine or ice dam glacial due to dam failure.
• GLOFs have three main features
  • Involve sudden (and sometimes cyclic) releases of water.
  • Tend to be rapid events, lasting hours to days.
  • Result in large downstream river discharges.
• Examples of GLOFs
  • 2023: GLOF at South Lhonak, destroyed the Teesta III Dam at Chungthang in Sikkim.
  • 2013: GLOF in Chorabari glacial lake and floods in Mandakini river in Uttarakhand.

Major Causes of GLOFs

• Glacial Surging: Sudden movement of ice over a relatively short period of time resulting in severe rapid glacier advance. E.g., Gilkey Glacier, Alaska.
• Moraine dam instability: Loose, unconsolidated moraines, which are inherently unstable, can collapse due to structural weakness. E,g., South Lhonak GLOFs, Sikkim
• Ice dam failure: Due to thermal stress, water pressure and internal melting weakening their structure.
• Seismic activity: Tectonic movements in mountainous regions can create sudden structural change.
• Human Activity: Activities such as unregulated urbanization, irrational mining, deforestation, hydropower projects, GHG emissions etc. can alter drainage patterns and stability of slope. 

Challenges in managing GLOFs

• Difficult and highly inaccessible Himalayan terrain makes it difficult to conduct regular surveys.
• Lack of early warning systems (EWS) which require robust planning and heavy infrastructure.
• Vulnerability of Himalayan region: Due to its presence in Seismic zone – IV & V, Himalayan region is prone to earthquakes and landslides. 
• Climate change: Rising temperature is leading to shrinkage of glaciers.
  • As per International Centre for Integrated Mountain Development (ICIMOD,) 70-80% of current glacier volume in Hindu Kush Himalaya (HKH) will disappear by 2100 under a high emission scenario.

Way Forward: NDMA guidelines

• Comprehensive understanding of GLOF dynamics: Delve into the causes, triggers, and processes of GLOFs, with a focus on the latest scientific research and case studies from the Himalayas and other mountain ranges such as the Alps, Tian Shan Range and the Andes.
• Enhance Technical Expertise and Build Capacity: Develop greater understanding to enhance technical expertise at the National and State level.
• Foster Collaboration and Strategy Development: Facilitate collaboration among experts, policymakers, and stakeholders to develop and implement comprehensive strategies for monitoring and mitigating GLOF risks. 
• Exploring Mitigation Strategies: Examine structural and non-structural mitigation measures, including controlled breaching, siphoning, and the construction of outlet control structures, as well as community-based approaches.
• Advancing Monitoring and Early Warning Systems: Discuss the integration of satellite-based monitoring, Geographic Information Systems (GIS), and remote sensing technologies in predicting GLOFs. 
  • Explore the development and implementation of early warning systems tailored to the unique challenges of the Himalayan region.