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| Supervolcano eruption mystery solved | Supervolcano eruption mystery solved |
| (about 17 hours later) | |
| Scientists have made a breakthrough in their efforts to understand what causes so-called supervolcanoes to erupt. | |
| Supervolcanoes are capable of eruptions thousands of times larger than normal outpourings. | |
| It was thought that an external trigger, such as an earthquake, was needed to bring about a giant blast. | |
| But tests at the European Synchrotron Radiation Facility in Grenoble show the sheer volume of liquid magma is enough to cause a catastrophic super-eruption. | |
| Details of the research by a Swiss team appear in Nature Geoscience. . | |
| Simulating the intense heat and pressure inside these "sleeping giants" could help predict a future disaster. | Simulating the intense heat and pressure inside these "sleeping giants" could help predict a future disaster. |
| Lead author Wim Malfait, of ETH Zurich, said: "We knew the clock was ticking but we didn't know how fast: what would it take to trigger a super-eruption? | |
| "Now we know you don't need any extra factor - a supervolcano can erupt due to its enormous size alone. | "Now we know you don't need any extra factor - a supervolcano can erupt due to its enormous size alone. |
| "Once you get enough melt, you can start an eruption just like that." | "Once you get enough melt, you can start an eruption just like that." |
| There are about 20 known supervolcanoes on Earth - including Lake Toba in Indonesia, Lake Taupo in New Zealand, and the somewhat smaller Phlegraean Fields near Naples, Italy. | There are about 20 known supervolcanoes on Earth - including Lake Toba in Indonesia, Lake Taupo in New Zealand, and the somewhat smaller Phlegraean Fields near Naples, Italy. |
| Super-eruptions occur rarely - only once every 100,000 years on average. But when they do occur, they have a devastating impact on Earth's climate and ecology. | Super-eruptions occur rarely - only once every 100,000 years on average. But when they do occur, they have a devastating impact on Earth's climate and ecology. |
| When a supervolcano erupted 600,000 years ago in Wyoming, in what today is Yellowstone National Park, it ejected more than 1,000 cubic km of ash and lava into the atmosphere - enough to bury a large city to a depth of a few kilometres. | When a supervolcano erupted 600,000 years ago in Wyoming, in what today is Yellowstone National Park, it ejected more than 1,000 cubic km of ash and lava into the atmosphere - enough to bury a large city to a depth of a few kilometres. |
| This ejection was 100 times bigger than Mt Pinatubo in the Philippines in 1992 and dwarfs even historic eruptions like Krakatoa (1883). | This ejection was 100 times bigger than Mt Pinatubo in the Philippines in 1992 and dwarfs even historic eruptions like Krakatoa (1883). |
| "This is something that, as a species, we will eventually have to deal with. It will happen in future," said Dr Malfait. | "This is something that, as a species, we will eventually have to deal with. It will happen in future," said Dr Malfait. |
| "You could compare it to an asteroid impact - the risk at any given time is small, but when it happens the consequences will be catastrophic." | "You could compare it to an asteroid impact - the risk at any given time is small, but when it happens the consequences will be catastrophic." |
| Being able to predict such a catastrophe is obviously critical. But the trigger has remained elusive - because the process is different from conventional volcanoes like Pinatubo and Mt St Helens. | Being able to predict such a catastrophe is obviously critical. But the trigger has remained elusive - because the process is different from conventional volcanoes like Pinatubo and Mt St Helens. |
| One possible mechanism was thought to be the overpressure in the magma chamber generated by differences between the less dense molten magma and more dense rock surrounding it. | One possible mechanism was thought to be the overpressure in the magma chamber generated by differences between the less dense molten magma and more dense rock surrounding it. |
| "The effect is comparable to holding a football under water. When you release it, the air-filled ball is forced upwards by the denser water around it," said Wim Malfait, of ETH Zurich. | "The effect is comparable to holding a football under water. When you release it, the air-filled ball is forced upwards by the denser water around it," said Wim Malfait, of ETH Zurich. |
| But whether this buoyancy effect alone was enough was not known. It could be that an an additional trigger - such as a sudden injection of magma, an infusion of water vapour, or an earthquake - was required. | But whether this buoyancy effect alone was enough was not known. It could be that an an additional trigger - such as a sudden injection of magma, an infusion of water vapour, or an earthquake - was required. |
| To simulate the intense pressure and heat in the caldera of a supervolcano, the researchers visited ESRF in Grenoble, where they used an experimental station called the high pressure beamline. | To simulate the intense pressure and heat in the caldera of a supervolcano, the researchers visited ESRF in Grenoble, where they used an experimental station called the high pressure beamline. |
| They loaded synthetic magma into a diamond capsule and fired high-energy X-rays inside - to probe for changes as the mixture reached critically high pressures. | They loaded synthetic magma into a diamond capsule and fired high-energy X-rays inside - to probe for changes as the mixture reached critically high pressures. |
| "If we measure the density difference from solid to liquid magma we can calculate the pressure needed to provoke a spontaneous eruption," Mohamed Mezouar, an ESRF scientist, told BBC News. | "If we measure the density difference from solid to liquid magma we can calculate the pressure needed to provoke a spontaneous eruption," Mohamed Mezouar, an ESRF scientist, told BBC News. |
| "To recreate the conditions in the Earth's crust is no trivial matter, but with the right vessel we can keep the liquid magma stable up to 1,700C and 36,000 atmospheres." | "To recreate the conditions in the Earth's crust is no trivial matter, but with the right vessel we can keep the liquid magma stable up to 1,700C and 36,000 atmospheres." |
| The experiment showed that the transition from solid to liquid magma creates a pressure which can crack more than 10 kilometres of Earth's crust above the volcano chamber. | The experiment showed that the transition from solid to liquid magma creates a pressure which can crack more than 10 kilometres of Earth's crust above the volcano chamber. |
| "Magma penetrating into the cracks will eventually reach the Earth's surface. And as it rises, it will expand violently - causing an explosion," said Carmen Sanchez-Valle, also of ETH Zurich. | "Magma penetrating into the cracks will eventually reach the Earth's surface. And as it rises, it will expand violently - causing an explosion," said Carmen Sanchez-Valle, also of ETH Zurich. |
| But if Yellowstone happened to be on the brink of an eruption, the good news is that we will still see a warning, Dr Malfait told BBC News. | But if Yellowstone happened to be on the brink of an eruption, the good news is that we will still see a warning, Dr Malfait told BBC News. |
| "The ground would probably rise hundreds of metres - a lot more than it does now. | "The ground would probably rise hundreds of metres - a lot more than it does now. |
| "We think Yellowstone currently has 10-30% partial melt, and for the overpressure to be high enough to erupt would take about 50%." | "We think Yellowstone currently has 10-30% partial melt, and for the overpressure to be high enough to erupt would take about 50%." |
| In a separate study in the same journal, a team led by Luca Caricchi of the University of Geneva used a mathematical model to explain the differences between conventional volcanoes and supervolcanoes. | In a separate study in the same journal, a team led by Luca Caricchi of the University of Geneva used a mathematical model to explain the differences between conventional volcanoes and supervolcanoes. |
| They showed that "hyperactive" common volcanoes can evolve over time into "sleeping" supervolcanoes. | They showed that "hyperactive" common volcanoes can evolve over time into "sleeping" supervolcanoes. |
| "Taken together, Malfait and Caricchi paint a provocative picture. Their results imply that rare, giant super-eruptions and smaller, more frequent events reflect a transition in the essential driving forces for volcanism," said Mark Jellinek, of the University of British Columbia, writing in Nature. | "Taken together, Malfait and Caricchi paint a provocative picture. Their results imply that rare, giant super-eruptions and smaller, more frequent events reflect a transition in the essential driving forces for volcanism," said Mark Jellinek, of the University of British Columbia, writing in Nature. |