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A study by Israeli scientists has found a significant statistical correlation between thunderstorms occurring around the world and the formation of wispy cirrus clouds – which might increase global warming.

“We know that cirrus clouds can contribute to global warming. However, it is very difficult to track these clouds and obtain accurate data about them,” the researchers said.


“Our findings indicate that a rise in the number of thunderstorms occurring globally might significantly increase the quantity of cirrus clouds, thereby exacerbating the climate crisis.”

The study was led by Prof. Colin Price from the Department of Geophysics at the Porter School of the Environment and Earth Sciences at Tel Aviv University, in collaboration with Dr. Anirban Guha and Joydeb Saha from Tripura University in India. The paper was published in Geophysical Research Letters of the American Geophysical Union (AGU).

“Cirrus clouds, those feathery clouds we see in the sky, significantly impact the earth’s climate,” Price said.

“An increase of these clouds will act as a blanket that increases warming, while a decrease will allow the heat of the Earth to rise and escape from the atmosphere.

This is why climate researchers are highly interested in cirrus clouds, trying to predict potential changes due to the rise in greenhouse gases and global warming. But here we encounter a significant problem: it is very hard to obtain accurate, comprehensive data about cirrus clouds.

Being so wispy, they can be invisible to the human eye and even to satellites, plus they form in the upper atmosphere, far from the monitoring stations operating on the ground.”

To address this challenge the researchers explored the possibility of predicting the quantity of cirrus clouds based on readily available data about thunderstorms and lightning activity.

The researchers explain that the brilliant flash of lightning is formed when a huge electric field is discharged instantaneously, generating a very high temperature of up to 30,000 degrees Centigrade in the lightning channel.

The light waves and radio waves emitted by the lightning discharge can be detected even thousands of kilometers away, enabling long-term monitoring and mapping of thunderstorms.

The present study is based on thunderstorm data collected worldwide over a period of six years by the NASA satellite ISS-LIS that detects the light emitted by lightning.

The researchers compared these data with data on cirrus clouds (the partial information available combined with supplementary models), looking for a correlation between lightning activity on a specific day, month, or year, and the amount of cirrus clouds formed in the upper atmosphere.

Findings indicate a statistically significant correlation, with the quantity of cirrus clouds increasing with the number of thunderstorms.

According to the researchers, this means that thunderstorms, which are easy to detect and measure, can in fact be used as a reliable indicator for the number of cirrus clouds in the atmosphere, today and in the future.

“We discovered that thunderstorms are a major mechanism in the formation of cirrus clouds, and that lightning activity can account for over 70 percent of the changes in the quantity of cirrus clouds in the world,” Price said.

“Thunderstorms act as an enormous ‘vacuum cleaner’, lifting moisture from the surface of the planet, especially above oceans and forests to higher levels of the atmosphere. There, at an altitude of about 10 kilometers, this moisture turns into ice crystals that form the cirrus clouds.

“In our study we found a significant statistical correlation between the number of thunderstorms occurring across the globe at any given time and the quantity of cirrus clouds formed in the atmosphere,” Price noted.

“Many models predict that climate change will probably lead to an increase in thunderstorm activity in coming years.

“According to our study, if these predictions are correct, the rise in the number of thunderstorms can be expected to cause an increase in the quantity of cirrus clouds as well. These clouds, in turn, acting as a kind of ‘atmospheric blanket’, will further exacerbate global warming.”

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Hana Levi Julian is a Middle East news analyst with a degree in Mass Communication and Journalism from Southern Connecticut State University. A past columnist with The Jewish Press and senior editor at Arutz 7, Ms. Julian has written for, and other media outlets, in addition to her years working in broadcast journalism.