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国产短视频

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A stock photo of Pululagua in Ecuador

国产短视频volcanology team develops new approach to understanding massive volcanic eruptions

A 国产短视频geosciences team has developed a new way to reconstruct the sizes of volcanic eruptions that occurred thousands of years ago, creating a first-of-its kind tool that can aid scientists in understanding past explosive eruptions that shaped the earth and improve the way of estimating hazards of future eruptions.

The advanced numerical model the 国产短视频team developed allows scientists to reconstruct eruption rates through time by estimating the dimensions of the umbrella clouds that contribute to the accumulation of vast deposits of volcanic ash. The research is published in the new edition of the Nature Journal,

A diagram depicting the ash cloud

The research, which was used to decipher the 2,500-year-old eruption of a volcano in Ecuador, was led by 国产短视频doctoral candidate Robert Constantinescu in collaboration with 国产短视频colleagues Research Associate Laura Connor, Professor Chuck Connor, Associate Professor Sylvain Charbonnier, doctoral alum Alain Volentik and other members of an international team. is one of the world鈥檚 leading centers of volcano science and hazard assessment.

When large explosive eruptions occur, they form laterally spreading umbrella clouds into the stratosphere, facilitating the transport of fine-grained ash over hundreds of miles that settles and covers large swaths of land.

国产短视频doctoral candidate Robert Constantinescu

国产短视频doctoral candidate Robert Constantinescu

Current technology allows scientists to observe ash clouds. However,  past eruptions are characterized based on the geological interpretation of their tephra deposits 鈥 the pieces and fragments of rock ejected into the air by an erupting volcano. By estimating the erupted volume and mass, plume height, umbrella cloud dimensions and other characteristics, the scientists are able to understand and characterize the volcanic eruptions, therefore improving the forecast of future events.  

Using a series of field techniques combined with statistical and numerical modeling, volcanologists extract information from the deposits in order to characterize and classify an eruption on one of the most commonly used scales, the Volcanic Explosivity Index (VEI). Until now, the most sought-after information is the eruption column height and the total erupted mass or volume, Constantinescu said.

But over time, deposits erode and can provide an uncertain picture of older eruptions. Also, current models have been limited in that they assume all volcanic eruptions created mostly vertical plumes, Constantinescu said, and don鈥檛 account for large explosive eruptions that form laterally spreading umbrella ash clouds.

The 国产短视频team鈥檚 work shows that it is the dimensions of the umbrella clouds that is the telling factor in reconstructing past large explosive eruptions.

鈥淭he better we can reconstruct the nature of past eruptions from deposit data, the better we can anticipate potential hazards associated with future explosive eruptions,鈥 the team wrote in the new journal article.

The researchers propose updating the VEI scale with the umbrella cloud dimensions, which can now be easily estimated using the mathematical models they鈥檝e developed.

Researchers taking measurements of the volcano wall

The researchers applied their model to the tephra deposit of the eruption of Pululagua, a now dormant volcano about 50 miles north of the capital city of Quito. Ecuador is considered one of the world鈥檚 most hazardous countries for volcanoes. The volcano last erupted an estimated 2,500 years ago and the area is now a geobotanical reserve renowned for its biodiversity and lush green landscape.

There are about 1,500 potentially active volcanoes worldwide, in addition to those that lurk beneath the world鈥檚 oceans. In 2020, there were at least 67 confirmed eruptions from 63 different volcanoes, according to the .

鈥淚f in modern times the umbrella clouds of large eruptions are easily observed, we now have the ability to estimate the umbrella clouds of past eruptions,鈥 Constantinescu said. 鈥漁ur numerical model enables us to better characterize past volcanic eruptions and inform models for future hazard assessment.鈥

The 国产短视频team was joined in the research by Aurelian Hopulele-Gligor of Cluj-Napoca, Romania; Costanza Bonadonna of the University of Geneva; and Jan M. Lindsay of the University of Auckland. The research was funded in part by the National Science Foundation.

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