Active volcanoes (red dots) define the Pacific Ring of Fire where they form along tectonic plate boundaries. Only volcanoes on land are shown in this figure. Figure modified from USGS (Topinka, 1997). Click image for larger view.
Arc Volcanism
Bill Chadwick
Oregon State University
NOAA Vents Program
The Ring of Fire
The "Ring of Fire" is a circular arc of active volcanoes that surrounds the Pacific Ocean basin. Much is known about the volcanoes on land within the Ring of Fire (for example, in the Aleutians, the Cascades, the Andes, etc), but comparatively little is known about the submarine volcanoes, simply because they are more difficult to observe. This expedition will explore, for the first tim,e some of the submarine volcanoes within the Ring of Fire north of New Zealand.
Volcanoes and Plate Tectonics
The Earth is covered with tectonic plates that are in constant
motion over the partially-molten interior. Almost all the volcanoes and
earthquakes on Earth occur near the boundaries of these tectonic plates.
Where tectonic plates are moving toward each other and colliding, one plate
is forced under the other in a process called "subduction".
View
the 3-dimensional structure of a subduction zone. (QuickTime,
824Kb) Click image for larger view and more details.
Quicktime VR animation of the subduction zone is also available (1.8Mb) Click image for larger view and more details.
The Kermadec Volcanic Arc
The Kermadec Arc is located in the southwestern Pacific, north of New Zealand. Over the past several years, international expeditions to the Kermadec Arc have found that over half of the submarine volcanoes surveyed are hydrothermally active. This year we will make dives to the seafloor to explore seafloor hotsprings on some of these active submarine volcanoes.
On land, arc volcanoes tend to have explosive eruptions because
the magma they erupt is relatively viscous and contains lots of gases.
When the magma rises to the surface and the pressure is reduced these gases
often escape explosively, much like what happens when a champagne bottle
is uncorked. Until recently, it was thought that explosive eruptions in
the deep ocean should be prevented by the high pressure from the overlying
ocean. However, recent evidence from the Kermadec arc and elsewhere has
shown this is not the case. In fact, we witnessed submarine eruptive activity
at a submarine volcano for the first time during an expedition to the Mariana
Arc in 2004.
Giant eruptive plume discovered pouring out of "Brimstone Pit" crater near the summit of NW Rota-1 volcano, Mariana Arc SROF 2004. Click image for larger view.
See
the amazing video of billowing smoke rising from a small crater (QuickTime,
2Mb)
View of the caldera of Macauley submarine volcano, from the northwest looking to the southeast. The caldera size varies from 6 to 10 kilometers across. Depths range from < 200 meters (~650 feet) at the rim to > 1000 meters (~3300 feet) at its deepest point. Click image for larger view.
Many of the submarine volcanoes in the Kermadec Arc are large calderas. Calderas are huge craters that are created when so much material is expelled from a volcano during a large explosive eruption that the top of the volcano collapses back on itself. Crater Lake in Oregon is an example of a volcanic caldera on land that formed during a huge eruption about 7000 years ago. Thus the existence of large submarine calderas in the Kermadec Arc is clear evidence that these volcanoes have a very violent past.
