Temperature identified as new trigger for explosive volcanic eruptions


Studying magma ascent, geoscientists at the University of Liverpool have found that temperature may be more important than pressure in generating gas bubbles that trigger explosive volcanic eruptions.

In a paper published recently in the journal Nature, researchers showed that as magma ascends in volcanic conduits, it heats up which can melt its crystal cargo and forces the formation of bubbles. Importantly, they also showed that more bubbles are formed by heating than through decompression, which had been previously thought.

The study, which combined field observation, interpretation of monitored data and controlled laboratory experimentations, provides a strong argument for the integration of temperature as a key control in volcanic eruption models.

“A good analogy to this is peanut butter: when it is too cold and viscous, we plunge a knife into it and stir to warm it up and make it more runny. With volcanoes, magma ascending in volcanic conduit also heats up, and this helps them foam and erupt explosively,” lead author Yan Lavallée, Liverpool Professor of Volcanology, said. 

“The fact that temperature may be more important than pressure in the generation of gas bubbles in ascending magmas is astonishing and requires immediate consideration from the scientific community. The fundamental nature of this thermal process will very likely find other important applications in earth sciences as well as in engineering in the years to come.”

Forecasting disaster

Understanding magma ascent is central to forecasting volcanic disasters. It is not possible to always successfully predict volcanic events due to the lack of complete knowledge of the signals leading to catastrophes.

To reproduce the volcanic process, the researchers designed laboratory experiments to study friction in volcanic rocks. They found that friction causes a substantial amount of heat between two rocks which melts the rock and makes it foam.

In the study, they were also able to show how the action of ascending magma can be understood using seismometers to monitor earthquakes and tiltmeters to measure ground deformation.

Mount Soputan erupting in January 2016

Volcanic eruptions are often compared to uncorking a bottle of champagne. Pop the cork out slowly and the wine bubbles up (foams), gas comes out and the wine settles. When it is uncorked rapidly, the cork shoots up in the air, followed by a messy splash of wine across the kitchen.

These two opposite scenarios also occur with volcanoes that can erupt lava flows or explosively erupt fragmented bits of lava, including volcanic ash. It had been thought that the decrease in pressure experienced by magma as it ascends through the crust and erupts at the Earth’s surface causes it to foam. This new work suggests that heating may be more important than this decompression in controlling eruptions.


  • "Thermal vesiculation during volcanic eruptions" –  Yan Lavallée, Donald B. Dingwell, Jeffrey B. Johnson, Corrado Cimarelli, Adrian J. Hornby, Jackie E. Kendrick, Felix W. von Aulock, Ben M. Kennedy, Benjamin J. Andrews, Fabian B. Wadsworth, Emma Rhodes & Gustavo Chigna – Nature – December 24, 2015 – doi:10.1038/nature16153

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  1. I do not see anything new in this research. Temperature and pressure are directly proportional to each other. This means that as the temperature decreases, the pressure also decreases, and as the temperature increases, the pressure increases. This relationship can be described using mathematics as well. Mathematically, Gay-Lussac’s Law states that
    P/T=k where k is any constant.

  2. Volcano is a weakness in the crust. Pressure determines the rate of lava flow-the bulge of Mt. St. Helens is indicator. When pressure points are ID’d they should be bombed to release the pressure, to allow slow magma flow. Simple!

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