Scientists say the eruption of an undersea volcano in Tonga was a ‘lifetime event’ that could warm the Earth’s surface

When a volcano is under the sea broke out in Tonga In January, its water eruption was massive and unusual – and scientists are still trying to understand its effects.

The volcano, known as Hunga Tonga-Hunga Ha’apai, released millions of tons of water vapor high into the atmosphere, according to a study published Thursday. in science magazine.

Researchers estimate the eruption that Dwarfed the power of the Hiroshima atomic bombraised the amount of water in the stratosphere – the second layer of the atmosphere, above the range where humans live and breathe – by about 5%.

Now, scientists are trying to figure out how all this water might affect the atmosphere, and whether it will warm the Earth’s surface over the next few years.

“This was a once-in-a-lifetime event,” said lead author Holger Voemel, a scientist at the National Center for Atmospheric Research in Colorado.

FILE PHOTO: Satellite view of an underwater volcano erupting off Tonga
An underwater volcano erupting off Tonga shown in an image from the NOAA GOES-West satellite captured January 15, 2022.

CIRA / NOAA / Handout via Reuters


Big eruptions usually cool the planet. Most volcanoes send out large amounts of sulfur, which blocks the sun’s rays, explained Matthew Toohy, a climate researcher at the University of Saskatchewan who was not involved in the study.

The explosion in Tonga was much stronger: the eruption began under the ocean, raising a column of much more water than usual. Because water vapor acts as a greenhouse gas that traps heat, it is likely that a volcanic eruption would raise temperatures rather than lower them, Tohey said.

It’s not clear how much warming that could hold.

Karen Rosenloff, a climate scientist with the National Oceanic and Atmospheric Administration, who was not involved in the study, said she expects the effects to be limited and temporary.

“This amount of increase could warm the surface by a tiny amount for a short period of time,” Rosenloff said in an email.

in August, Scientists said It broke “all records” for water vapor injection since satellites began recording such data – enough water vapor to fill 58000 Olympic swimming pool.

The water vapor will remain around the upper atmosphere for a few years before making its way into the lower atmosphere, Tohey said. Meanwhile, Rosenloff added, the additional water may accelerate the loss of ozone in the atmosphere.

But it’s hard for scientists to say for sure, because they’ve never seen an eruption like this before.

Vojmel explained that the stratosphere extends from about 7.5 miles to 31 miles above the Earth and is usually very dry.

Voemel’s team estimated the volcano’s plume using a network of instruments suspended from weather balloons. These instruments usually can’t measure stratospheric water levels because the quantities are too low, Voemel said.

Another research group monitored the explosion with an instrument on a NASA satellite. In their study, published earlier this summer, they estimated that the eruption would be larger, adding about 150 million metric tons of water vapor to the stratosphere — three times what Voemel’s study found.

In that study, scientists also concluded that the unprecedented plume could temporarily affect Earth’s average global temperature.

Voemel acknowledged that satellite imaging may have noticed parts of the column that balloon tools could not capture, making her estimate higher.

Either way, he said, the Tonga eruption was unlike anything seen in recent history, and studying its effects may hold new insights into our atmosphere.

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An image from the International Space Station from January 16, 2022 shows the ash plume from the eruption of the Honga Tonga-Hong Hapai volcano that occurred the day before.

NASA