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Drilling
Into Faults
Geologists are
approaching where earthquakes happen
by Andrew Alden
Geologists are daring to go where they once could only dream of
going — right to the places where earthquakes actually happen.
Three projects have taken us into the seismogenic zone. As
one report put it,
projects like these put us "at the precipice of quantum advances in the
science of earthquake hazards."
Drilling the San Andreas Fault
at Depth
The first of these drilling projects made a borehole next to the
San Andreas fault near Parkfield, California, at a depth of about 3 kilometers.
The project is called the San Andreas Fault Observatory at Depth
or SAFOD, and it's part of the much larger research effort EarthScope.
Drilling began in 2004 with a vertical hole going down 1500
meters then curving toward the fault zone.
The 2005 work season extended this slanting hole all the way
across the fault, and was followed by two years of monitoring.
In 2007 drillers made four separate side holes, all on the near
side of the fault, that are equipped with all kinds of sensors.
The chemistry of fluids, microearthquakes, temperatures and more
are being recorded for the next 20 years.
While drilling these side holes, core samples of intact rock
were taken that cross the active fault zone giving tantalizing evidence of the
processes there.
Scientists kept up a website with daily bulletins, and if
you read it you'll see some of the difficulties of this kind of work.
SAFOD was carefully placed at an underground location where
regular sets of small earthquakes have been happening.
Just like the last 20 years of earthquake research at Parkfield,
SAFOD is aimed at a part of the San Andreas fault zone where the geology seems
to be simpler and the fault's behavior more manageable than elsewhere.
Indeed, the whole fault is considered to be easier to study than
most because it has a simple strike-slip structure with a shallow bottom, at
about 20 km depth.
As faults go, it is a rather straight and narrow ribbon of
activity with well-mapped rocks on either side.
Even so, detailed maps of the surface show a tangle of related
faults. The mapped rocks include tectonic splinters that have been swapped back
and forth across the fault during its hundreds of kilometers of offset.
The patterns of earthquakes at Parkfield have not been as regular or
simple as geologists had hoped, either; nevertheless SAFOD is our best look so
far at the cradle of earthquakes.
The Nankai Trough Subduction
Zone
In a global sense the San Andreas fault, even as long and active
as it is, is not the most significant type of seismic zone. Subduction zones
take that prize for three reasons:
· They are responsible for all the largest, magnitude 8 and 9
earthquakes we have recorded, such as the Sumatra quake of December 2004 and the
Japan earthquake of March 2011.
· Because they are always under the ocean, subduction-zone
earthquakes tend to trigger tsunamis.
· Subduction zones are where lithospheric plates move toward and
underneath other plates, on their way into the mantle where they give rise to
most of the world's volcanoes.
So there are compelling reasons to learn more about these faults
(plus many more scientific reasons), and drilling into one is just within the
state of the art.
The Integrated Ocean Drilling Project is
doing that with a new state-of-the-art drillship off the coast of Japan.
The Seismogenic Zone Experiment, or SEIZE, is a three-phase
program that will measure the inputs and outputs of the subduction zone where
the Philippine plate meets Japan in the Nankai Trough.
This is a shallower trench than most subduction zones, making it
easier for drilling. The Japanese have a long and accurate history of
earthquakes on this subduction zone, and the site is only a day's ship travel
away from land.
Even so, in the difficult conditions foreseen the drilling will
require a riser — an outer pipe from the ship to the sea floor — to prevent
blowouts and so that the effort can proceed using drilling mud instead of
seawater, as previous drilling has used.
The Japanese have built a brand-new drillship, Chikyu (Earth) that can do the job, reaching 6
kilometers below the sea floor.
One question the project will seek to answer is what physical
changes accompany the earthquake cycle on subduction faults.
Another is what happens in the shallow region where soft
sediment fades into brittle rock, the boundary between soft deformation and
seismic disruption.
There are places on land where this part of subduction zones is
exposed to geologists, so results from the Nankai Trough will be very
interesting. Drilling began in 2007.
Drilling New Zealand's Alpine
Fault
The Alpine fault, on New Zealand's South Island, is a large
oblique-thrust fault that causes magnitude 7.9 earthquakes every few centuries.
One interesting feature of the fault is that vigorous uplift and
erosion have beautifully exposed a thick cross-section of the crust that
provides fresh samples of the deep fault surface.
The Deep Fault Drilling Project, a collaboration of New Zealand
and European institutions, is punching cores across the Alpine fault by
drilling straight down.
The first part of the project succeeded in penetrating and
coring the fault twice just 150 meters below the ground in January 2011 then
instrumenting the holes.
A deeper hole is planned near the Whataroa River in 2014 that
will go down 1500 meters. A public wiki serves past and ongoing data from the
project.
Andrew
Alden
Introduction
Professional
geologist, writer, photographer, and geological tour guide
Thirty-seven
years of experience writing about geological subjects
Six
years as a research guide with U.S. Geological Survey (USGS)
Experience
Andrew
Alden is a former writer for ThoughtCo who contributed hundreds of
articles for more than 17 years. Andrew works as a geologist, writer, editor,
and photographer. He has written on geological subjects since 1981 and
participates actively in his field. For example, Andrew spent six years as a
research guide with the U.S.
Geological Survey, leading excursions on both land land and at sea. And
since 1992, he has hosted the earthquakes conference for the online discussion
platform, The Well, which began as a dialogue between the
writers and readers of the Whole Earth Review.
In
addition, Andrew is a longtime member of the member of the Geological Society of
America — an international society that serves members in
academia, government, and industry; and the American Geophysical Union — a community of
earth and space scientists that advances the power of science to ensure a
sustainable future.
Andrew
lives in Oakland, California; and though he writes about the whole planet
and beyond, Andrew finds his own city full of interest too and blogs about its
geology.
Education
Andrew
Alden holds a bachelor's (B.A.) degree in Earth Science from the
University of New Hampshire, College of Engineering and Physical Sciences, in
Durham, N.H.
Awards
and Publications
Andrew Alden on Earthquakes (The Well Group, Inc.,
2011)
Assessment of River — Floodplain Aquifer Interactions (Environmental
and Engineering Geoscience, 1997)
Andrew
Alden on Hosting (The Well Group, Inc., 1995)
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