Washington, Nov 15 (PTI) Dust and soot transported from the deserts of the Middle East settle on the snow cover of the Himalaya mountain range and affect the intensity of the summer monsoon in India, a study has found.Also Read - India vs England Highlights T20 World Cup Warm-Up Match: Ishan Kishan, KL Rahul Guide India to a 6-Wicket Victory Over England

Using a powerful NASA-developed atmospheric model, researchers from University of Maryland in the US found that large quantities of dark aerosols — airborne particles such as dust and soot that absorb sunlight — settle on top of the Tibetan Plateau’s snowpack in spring before the monsoons begin. Also Read - SAFF Championship 2021 Match Highlights India vs Bangladesh Match 3 Today Football Updates: 10-Man Bangladesh Earn a Hard-Fought 1-1 Draw Over India

These dark aerosols cause the snow to absorb more sunlight and melt more quickly. The findings suggest that, among these dark aerosols, windblown dust from the Middle East has the most powerful snow-darkening effect. Also Read - Farah Khan Tests Positive For Coronavirus Despite Being Double Vaccinated, Says 'I Didn't Put My Kaala Teeka'

In years with heavy springtime dust deposition, the end result is reduced snow cover across the Tibetan Plateau, which leads to warmer temperatures on the ground and in the air above it.

This in turn sets off a series of interconnected feedback loops that intensify India’s summer monsoon.

More than a century ago, British meteorologist Henry Blanford noted a connection between springtime Himalaya snow cover and the intensity Indian monsoons.

Hundreds of studies have supported this relationship since Blanford first published his hypothesis in 1884.

But so far, researchers have struggled to explain why this connection between snow cover and monsoon intensity exists.

“Blanford knew that snow cover on the Tibetan Plateau wasn’t the only phenomenon that influenced the monsoon, but he knew it was important,” said William Lau, a research scientist who led the study.

“The relationship between snow cover and the monsoon is useful enough that the India Meteorological Department still uses it to develop its annual summer monsoon forecast,” Lau said.

“By adding knowledge of the physical mechanism responsible for this relationship, our study may help to develop more accurate monsoon forecasts,” he said.

Researchers used the Goddard Earth Observing System Model to simulate 100 years’ worth of springtime snow cover and its influence on the yearly summer monsoon cycle.

To test the effect of dust blown in from the Middle East, the researchers ran the same simulations again, with an added software package that incorporates the snow-darkening effects of dust, soot and other dark aerosols deposited atop the Tibetan Plateau.

Adding dark aerosol deposition to the model substantially increased the amount of sunlight absorbed by the snow, accelerating the rate of melting.

This is because when snow melts, it begins to expose the darker ground underneath, which absorbs even more sunlight and intensifies the rate of melting.

The timing of the dust’s arrival was also important. Researchers found that the strongest effect in cycles when a large amount of dust settled on the snowpack in April, May and June.

This is published unedited from the PTI feed.