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Key Points

Australian researchers have discovered that strategically dispersing aerosols could disrupt cyclone formation in its early stages. The study reveals coarse and fine aerosols impact cyclones differently, with fine particles ultimately weakening storms more. Lead author Roslyn Prinsley highlights the challenge of delivering aerosols effectively using aircraft. Published in a top atmospheric science journal, this breakthrough could help mitigate climate change-driven extreme weather events.

Key Points: Australian Study Shows Aerosols Could Weaken Cyclones Early

  • Study targets early cyclone stages for more effective intervention
  • Coarse aerosols slow intensification while fine ones weaken cyclones more
  • Aerosol dispersal via aircraft presents logistical challenges
  • Research published in Journal of Geophysical Research: Atmospheres
2 min read

Aerosols offer new hope in weakening dangerous cyclones: Study

ANU researchers find targeted aerosol dispersal may disrupt cyclone formation, offering a new approach to mitigate extreme weather impacts.

"If you use different sizes of aerosols, you get a different impact on the cyclone, but they all hold promise. - Roslyn Prinsley, ANU"

New Delhi, June 14

Strategically dispersing aerosols -- microscopic airborne particles -- into developing cyclones could disrupt their formation during the vulnerable early phases, according to an Australian study.

The pioneering study led by researchers from the Australian National University (ANU) offers a potential breakthrough to mitigate the impact of extreme weather events intensified by climate change, Xinhua news agency reported.

While previous efforts to modify storms have focused on mature cyclones nearing landfall, this study targets the early stages of cyclone development, where intervention may be more effective, said lead author Roslyn Prinsley, Associate Professor at the ANU Institute for Climate, Energy and Disaster Solutions.

The study demonstrates, for the first time, the effects of aerosols of different sizes on cyclone formation -- coarse aerosols tend to slow cyclone intensification at first, while fine or ultrafine aerosols may initially accelerate it but ultimately weaken the storm to a greater extent.

The key to weakening cyclones lies in understanding the complex physics of how clouds form -- including how tiny particles interact, how heat is released, and how these processes affect each other.

"If you use different sizes of aerosols, you get a different impact on the cyclone, but they all hold promise," Prinsley said.

"Our study shows, for the first time, the impacts of aerosols of varied sizes on the formation of a tropical cyclone. We found that coarse aerosols initially dampen vortex acceleration, while fine or ultrafine aerosols boost it first, but later weaken it more than coarse aerosols.

"Getting these aerosols to where they're needed is another challenge we're looking at -- it would require several aircraft to disperse the aerosols over a few hours," Prinsley added.

Published in the Journal of Geophysical Research: Atmospheres, a publication of the American Geophysical Union, the computer simulations revealed complex interactions between aerosols and cyclone development. Prinsley stressed that accurate forecasting models are essential for effective intervention.

Deploying aerosols via aircraft remains logistically complex, but Prinsley proposes testing in remote Western Australian waters -- safe zones where cyclones don't threaten land.

- IANS

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Reader Comments

P
Priya K.
This is fascinating research! As someone who survived Cyclone Amphan in West Bengal, I hope this technology can be tested soon. But we must ensure it doesn't create other environmental problems. Nature has a way of balancing things out.
R
Rahul S.
Interesting concept but sounds expensive. Will developing nations like India be able to afford this technology? Our fishermen and coastal communities need affordable solutions. Maybe focus more on early warning systems first.
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Ananya M.
As a climate science student, I'm thrilled by this research! 🌪️ But we must remember - tampering with weather systems could have unintended consequences. What if it affects monsoon patterns that Indian agriculture depends on? More studies needed!
V
Vikram P.
Good research but implementation seems challenging. India should collaborate with Australia on this - we face similar cyclone threats in Bay of Bengal. Maybe ISRO can help with delivery systems using drones instead of aircraft?
S
Sunita R.
While the science is impressive, I worry about the side effects. Remember cloud seeding experiments? We need to be very careful before playing with nature's forces. Prevention (reducing carbon emissions) is better than cure!
K
Karan D.
Hope our NDMA (National Disaster Management Authority) is tracking this research. Odisha and Andhra Pradesh face cyclones every year - if this works, it could save thousands of lives and crores in damage. Jai Hind! 🇮🇳

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