Taxonomy term

mantle plume

Imaging Iceland's volcanic roots

Home to more than 30 active volcanoes, Iceland is one of the most vigorous volcanic settings on Earth. A new look at the core-mantle boundary thousands of kilometers below the island is offering one of the most complete pictures yet of how Iceland’s volcanoes are fueled.

21 Nov 2017

Geologic Column: The notion of mantle plumes

EARTH’s feature on mantle plumes in the January/February issue reminded the author of his own evolving trip along the plate tectonic road.

01 Sep 2016

Mantle plume alternative explains Australian volcanism

Magma often finds its way to the surface along Earth’s crustal boundaries as tectonic plates crash together, rift apart or grind past each other. Less understood is why volcanoes sometimes emerge far away from plate boundaries. Narrow plumes of buoyant mantle rock rising from hundreds of kilometers deep have long been supposed as the source of intraplate volcanoes, but evidence for plumes is lacking in many areas. Now, in a new study, researchers have reported evidence for an alternative process, known as edge-driven convection, which appears to be driving intraplate volcanism in southeastern Australia.

 
29 Jan 2015

Textbook mantle plume theory may need revision

Every basic geology textbook has a section on mantle plumes, which have long been thought to underlie certain island chains and other volcanic hot spots, but hard evidence in support of narrow columns of magma upwelling from deep within the Earth’s mantle remains scant. Now a new study suggests that the long-held plume theory should be abandoned altogether.

07 Jan 2015

Resolving a misplaced source of volcanism in the Galapagos

Geological models have long suggested the mantle plume that built the Galápagos islands lies below Fernandina Island. Using a novel combination of seismic techniques, however, scientists have found a mantle anomaly that appears to be the Galápagos plume located 150 kilometers southeast of Fernandina Island. The new findings better explain the ongoing volcanic activity and also shed light on interactions between the mantle and crust, researchers say.

07 Apr 2014

Corn syrup model splits Yellowstone's plume in two

Yellowstone is renowned for its hot springs, geysers and for hosting one of the world’s most volatile supervolcanoes. Despite its popularity, the origin of all that volcanic activity remains poorly understood. Traditional plume models can’t explain the jumble of volcanic surface features. Now, a new study using corn syrup to replicate the mantle processes underlying Yellowstone offers a more complicated scenario.

14 Jul 2013