This monsoon season has been unusually severe for the Western Himalayan region, which has witnessed extreme weather events almost daily. Relentless, intense rainfall and repeated cloudbursts have triggered flash floods, landslides and mudflows, wiping out villages, claiming hundreds of lives, cutting off highways and bringing life to a standstill. To understand whether the Himalayas have reached a point from which it may be extremely difficult to recover, Down To Earth speaks with Anil Kulkarni, distinguished scientist at the Indian Institute of Science, Bengaluru; S P Sati, head, department of basic and social science, College of Forestry, Ranichauri, Tehri Garhwal; Kieran Hunt, climate scientist, University of Reading, UK; and Swapnamita C Vaideswaran, scientist, Wadia Institute of Himalayan Geology, Dehradun.
ANIL KULKARNI
DISTINGUISHED SCIENTIST AT INDIAN INSTITUTE OF SCIENCE, BENGALURU
The cryosphere, comprising glaciers and glaciated terrain where much of the water exists as ice, has undergone dramatic changes over the last 40 years, especially since the 1980s. Nowhere is this more evident than in the Himalayas, where warming is accelerating faster than the global average. While global temperatures have risen by about 1.5°C since the onset of industrialisation, in the Indian Himalayas, the increase is closer to 2°C.
Interestingly, precipitation levels over the Himalayas have not changed significantly over the past 30-40 years, but there has been a marked shift in the form of precipitation. Snowfall has decreased, while rainfall has increased. This change poses two major challenges: rising temperatures and declining snowfall—both contributing significantly to the retreat of Himalayan glaciers. What does this mean for us?
As glaciers retreat, they leave behind moraines—loose aggregates of sand, soil, boulders and large rocks transported by the glaciers. These moraine-covered areas are highly prone to landslides. Additionally, glaciers, as they advance, tend to carve depressions in the terrain that are filled with meltwater, instead of ice, and form glacial lakes. These lakes, if breached, can lead to sudden and potentially catastrophic floods known as glacial lake outburst floods (GLOFs). Over the past 30-40 years, the number of such glacial lakes in the Himalayas has risen sharply. While not all of them caused flash floods, they are potential sources of future disasters.
A third concern is the formation …
This article was originally published in the September 16-30, 2025 print edition of Down To Earth