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A combination of
luck and being
in the right place at the right time allowed a The eruption, which
took place
early this spring thousands of feet below the surface of the “Never
before have we had
instruments in place like this that recorded an eruptive event on the
seafloor,” said Mike Perfit, a UF professor of geology. Perfit was among the
scientists
who visited the eruption shortly after it took place aboard the
deep-sea
submersible Perfit said the
eruption occurred
about 400 miles west of The scientists also
had numerous
instruments in place on the ocean bottom 8,000 feet below the surface
–
including a dozen “ocean bottom seismometers.”
These devices listen for and
measure seismic activity that is recorded on a small computer hooked to
a
buoyant sphere. Seismologists on the research vessel retrieve the
instrument by
electronically signaling the seismometer to release from the seafloor,
which
then carries the hard drive full of data to the ocean surface. When a group of
scientists
visited the East Pacific Rise site in April on a routine mission to
retrieve
the seismometers, they were surprised to discover that only four
detached and
rose to the surface, Perfit said. Three others responded to
scientists’ signals
but refused to bob to the surface. “They were responding, but
they weren’t coming
up. Usually you might lose one, but you don’t lose that many
of your ocean
bottom seismometers,” Perfit said. Intrigued, the
scientists used
onboard equipment to measure temperature, salinity and turbidity near
the ocean
bottom. They discovered the water was unusually cloudy and warm above
the ridge
crest, indicating a possible eruption. To confirm it, the scientists
retrieved
some ocean floor lava from the ocean floor. Subsequent tests by Perfit
and K.
Rubin, a colleague at the Scientists in the
RIDGE Program
quickly mobilized and sent another ship to the site equipped with a
deep-diving
camera system. Towed behind the ship, the cameras revealed
“brand new black
glassy lava,” Perfit said. Unlike the explosive lava-spewing
volcanoes on
Earth’s surface, deepsea volcanoes emit lava slowly because
of the enormous
ocean pressure. This lava forms pillow-like structures across the ocean
bottom as
it seeps out of seafloor fissures. The cameras also
failed to record
any visible ocean bottom life with the exception of thick white masses
of
bacterial colonies that coated the lava. That was in sharp contrast to
thriving
life recorded at the site in the years before. “There was at
least one site
that was a lush site with tubeworms, crabs and mussels and it was just
gone,
just buried,” Perfit said. Perfit was among the
scientists
aboard the submersible The eruption allows
scientists an
unprecedented view of the “death and birth of a mid-ocean
ridge from all
perspectives – geological, biological,
geophysical,” Perfit said. That in turn will
lead to much
greater understanding of the unique underwater phenomena. For example,
next
April scientists, including Perfit, hope to retrieve some of the
seismometers
because they are likely to contain new information about the seismic
activity
leading up to and during the eruption -- and possibly predict these
events.
“We’ll be lucky if we catch another event like this
in my lifetime,” Perfit
said. “It really revitalizes the field.”
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