June 18, 2019
Earthquake swarms reveal missing piece of tectonic plate-volcano puzzle
Natural ‘fracking’ process feeds molten rock to volcano’s magma chamber.
Deep under the ocean bed, a sinking tectonic plate causes a 鈥渟warm鈥 of earthquakes, feeding molten rock into newly forming volcanoes, new research has discovered.
Earthquake swarms are when a large number of earthquakes occur close together over a short period. Researchers found two such swarms while studying the Mariana and Izu-Bonin arc system in the Pacific Ocean.
By plotting each earthquake swarm on a three-dimensional map, the researchers found the earthquakes defined a pipe-like structure through which the molten rock travelled, rising from a sinking tectonic plate at depths of around 200km to a magma chamber underneath a volcano.
The discovery solves a missing piece of the tectonic puzzle: revealing the path that fluids and molten rock move through the deep Earth to volcanoes at the surface.
The international team included scientists from the 精东传媒 of 精东传媒 (UOW), Royal Holloway 精东传媒 of London, 精东传媒 of Cambridge, Australian National 精东传媒, Columbia 精东传媒, Cardiff 精东传媒 and Durham 精东传媒.
The Mariana and Izu-Bonin arc system lies on the ocean bed, stretching 2800 kilometres from Japan south to Guam and beyond. It marks where two tectonic plates 鈥 the Philippine Sea Plate and the Pacific Plate 鈥 meet.
As the Pacific Plate subducts, sinking into the Earth鈥檚 mantle, it carries water deep down into the Earth. The plate gets hotter and experiences more pressure the deeper it goes, until superheated water tries to escape, causing the rock to fracture and melt and creating a pathway for the molten rock to rise.
Lead author Dr from UOW鈥檚 School of Earth, Atmospheric and Life Sciences described the process as a natural hydro-fracking effect.
鈥淚n fracking used by the petroleum industry, they drill into the Earth up to a few kilometres deep, and then continue to pump liquid down until the pressure grows and the rocks crack, creating a path for the petroleum or natural gas to flow through the rocks and into a pipe back to the surface,鈥 Dr White said.
鈥淚n this case, the tectonic plate carries the water down very deep into the Earth, down to around 200 kilometres below the surface. As the plate goes down it gets hotter and the pressure gets higher, driving water out of subducted plate.
鈥淚t鈥檚 ultimately the water that causes those slowly moving rocks to melt as well as to cause these rare earthquakes. The water gets so hot and is under so much pressure that it needs to get away. As it moves upwards it causes the rocks to fracture and melt, forming magma, and that magma is what feeds to volcano at the top of the system.
鈥淚t is similar to fracking, but at a much grander scale and completely driven by Earth鈥檚 natural processes, rather than being human induced.鈥
The two earthquake swarms occurred deep in the Earth in a zone that doesn鈥檛 usually have any earthquakes. The simplest explanation is they were caused by a process similar to fracking, either by the rock breaking ahead of the superheated fluid, or by the pipe collapsing after the fluid had moved through the system.
鈥淕eologists have always assumed that the water in this system goes upwards, but we've never had a good way of imaging that. These examples 鈥 a freak occurrence that we've stumbled on 鈥 show very clearly where the water must be travelling,鈥 Dr White said.
Co-author Dr , also from UOW鈥檚 School of Earth, Atmospheric and Life Sciences, said: 鈥淲e can actually use the earthquakes to figure out how quickly these fluids travel. We know exactly when and where the earthquakes occur, so we can estimate how quickly the fluid moves through the deep Earth, which is faster than one kilometre an hour 鈥 much faster than we previously thought.鈥
While a lot more research is needed, the discovery may help scientists in monitoring which volcanoes are being primed with increasing amounts of magma from the deep Earth.
ABOUT THE STUDY
鈥樷, by Lloyd T. White, Nicholas Rawlinson, Gordon S. Lister, Felix Waldhauser, Babak Hejrani, David A. Thompson, Dominique Tanner, Colin G. Macpherson, Hrvoje Tkal膷i膰, and Jason P. Morgan, is published in Earth and Planetary Science Letters.
Dr White鈥檚 work was supported in part by an Australian Research Council Linkage Project grant as well as funding from the UOW Faculty of Science, Medicine and Health.
MEDIA NOTES:
Dr White is available for interview via the contact details below or through the UOW Media Office. High-resolution images, video and other multimedia are available via for media use.