A 2019 study published in the journal Science Advances, showed that due to rising temperatures, Himalayan glaciers are melting twice as fast since the start of the 21st century and have lot over a vertical foot and a half of ice each year.
Glaciers In Himalayas Are Melting Twice As Fast, 2019 Study Found
The analysis, spanning 40 years of satellite observations across India, China, Nepal and Bhutan, indicates that climate change is eating the Himalayan glaciers, researchers said.
This melting of glaciers has created a potential threat of water supply for hundreds of millions of people in countries including India.
The analysis, spanning 40 years of satellite observations across India, China, Nepal and Bhutan, indicates that climate change is eating the Himalayan glaciers, researchers said.
The study, published in June 2019, shows that glaciers have been losing the equivalent of more than a vertical foot and half of ice each year since 2000 -- double the amount of melting that took place from 1975 to 2000.
"This is the clearest picture yet of how fast Himalayan glaciers are melting over this time interval, and why," said Joshua Maurer, a PhD candidate at Columbia University in the US.
While not specifically calculated in the study, the glaciers may have lost as much as a quarter of their enormous mass over the last four decades, said Maurer, lead author of the study.
The study synthesised data from across the region, stretching from early satellite observations to the present.
The data indicates that the melting is consistent in time and space, and that rising temperatures are to blame, the researchers said.
Temperatures vary from place to place, but from 2000 to 2016 they have averaged one degree Celsius higher than those from 1975 to 2000, they said.
Researchers analysed repeat satellite images of some 650 glaciers spanning 2,000 kilometres from west to east.
Many of the 20th-century observations came from declassified photographic images taken by US spy satellites.
They created an automated system to turn these into three dimensional (3D) models that could show the changing elevations of glaciers over time.
The researchers then compared these images with post-2000 optical data from more sophisticated satellites, which more directly convey elevation changes.
They found that from 1975 to 2000, glaciers across the region lost an average of about 0.25 metres of ice each year in the face of slight warming.
Following a more pronounced warming trend starting in the 1990s, starting in 2000 the loss accelerated to about half a metre annually.
Researchers noted that Asian nations are burning ever-greater loads of fossil fuels and biomass, sending soot into the sky, adding much of it eventually lands on snowy glacier surfaces, where it absorbs solar energy and hastens to melt.
They compiled temperature data during the study period from ground stations and then calculated the amount of melting that observed temperature increases would be expected to produce.
The team then compared those figures with what actually happened.
"It looks just like what we would expect if warming were the dominant driver of ice loss," Maurer said.
The Himalayas are generally not melting as fast as the Alps, but the general progression is similar, the researchers said.
The study did not include the huge adjoining ranges of high-mountain Asia such as the Pamir, Hindu Kush or Tian Shan, but other studies suggest similar melting is underway there as well.
The researchers noted that some 800 million people depend in part on seasonal runoff from Himalayan glaciers for irrigation, hydropower and drinking water.
The accelerated melting appears so far to be swelling runoff during warm seasons, but scientists project that this will taper off within decades as the glaciers lose mass.
This, the researchers said, will eventually lead to water shortages.
?The study shows that "even glaciers in the highest mountains of the world are responding to global air temperature increases driven by the combustion of fossil fuels," said Joseph Shea, a glacial geographer at the University of Northern British Columbia in Canada, who was not involved in the study.
"In the long term, this will lead to changes in the timing and magnitude of streamflow in a heavily populated region," said Shea.
(With PTI inputs.)
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