The world's largest volcano lurks beneath the Pacific Ocean,
researchers announced today (Sept. 5) in the journal Nature Geoscience.
Called the Tamu Massif, the enormous mound dwarfs the previous record
holder, Hawaii's Mauna Loa, and is only 25 percent smaller than Olympus Mons on Mars,
the biggest volcano in Earth's solar system, said William Sager, lead
study author and a geologist at the University of Houston.
"We
think this is a class of volcano that hasn't been recognized before,"
Sager said. "The slopes are very shallow. If you were standing on this
thing, you would have a difficult time telling which way was downhill."
Tamu is 400 miles (650 kilometers) wide but only about 2.5 miles (4 km)
tall. It erupted for a few million years during the early Cretaceous
period, about 144 million years ago, and has been extinct since then,
the researchers report. [50 Amazing Volcano Facts]
Explaining ocean plateaus
Like other massive volcanoes, Tamu Massif seems to have a central cone
that spewed lava down its broad, gentle slopes. The evidence comes from
seismic surveys and lava samples painstakingly collected over several
years of surveys by research ships. The seismic waves show lava flows
dipping away from the summit of the volcano. There appears to be a
series of calderas at the summit, similar in shape to the elongated and
merged craters atop Mauna Loa, Sager said.
Until now, geologists thought Tamu Massif was simply part of an oceanic plateau called Shatsky Rise
in the northwest Pacific Ocean. Oceanic plateaus are massive piles of
lava whose origins are still a matter of active scientific debate. Some
researchers think plumes of magma from deep in the mantle punch through
the crust, flooding the surface with lava. Others suggest pre-existing
weaknesses in the crust, such as tectonic-plate boundaries, provide
passageways for magma from the mantle, the layer beneath the crust.
Shatsky Rise formed atop a triple junction, where three plates pulled
apart.
Tamu Massif's new status as a single volcano could help constrain
models of how oceanic plateaus form, Sager said. "For anyone who wants
to explain oceanic plateaus, we have new constraints," he told
LiveScience. "They have to be able to explain this volcano forming in
one spot and deliver this kind of magma supply in a short time."
Sager said other, bigger volcanoes
could be awaiting discovery at other oceanic plateaus, such as Ontong
Java Plateau, located north of the Solomon Islands in the southwest
Pacific Ocean. "Structures that are under the ocean are really hard to
study," he said.
Floating volcano
Oceanic plateaus
are the biggest piles of lava on Earth. The outpourings have been
linked to mass extinctions and climate change. The volume of Tamu Massif
alone is about 600,000 cubic miles (2.5 million cubic km). The entire
volcano is bigger than the British Isles or New Mexico.
Despite
Tamu's huge size, the ship surveys showed little evidence the volcano's
top ever poked above the sea. The world's biggest volcano has been
hidden because it sits on thin oceanic crust (or lithosphere), which can't support its weight. Its top is about 6,500 feet (1,980 meters) below the ocean surface today.
"In the case of Shatsky Rise, it formed on virtually zero thickness
lithosphere, so it's in isostatic balance," Sager said. "It's basically
floating all the time, so the bulk of Tamu Massif is down in the mantle.
The Hawaiian volcanoes erupted onto thick lithosphere, so it's like
they have a raft to hold on to. They get up on top and push it down. And
with Olympus Mons, it's like it formed on a two-by-four."
Sager
and his colleagues have studied Shatsky Rise for decades, seeking to
solve the puzzle of oceanic plateaus. About 20 years ago, they named
Tamu Massif after Texas A&M University, Sager's former employer, he
said.
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