Last catastrophic landslide protects Kilauea from next
Marine seismology reveals Hawaiian volcano’s past, sheds light on future dangers
The Hawaiian Islands are home to the largest documented shoreline collapse in history, an ancient seaward landslide that sent rocks from the island of Oahu to sites more than 100 miles offshore. The avalanche of debris from the northeast shore of Oahu probably occurred between 1.5 and 3 million years ago, and it undoubtedly created one of the largest tsunamis in Earths history, a wave large enough to inundate every coastline of the northern Pacific Ocean.
Today, geologists are studying whether seismic and tectonic forces are creating the potential for a similar disaster on the southeast shore of the big island of Hawaii, near Kilauea volcano. The worlds most active volcano, Kilauea is continually growing larger. At the same time, its seaward flank is moving toward the Pacific, currently at the rate of about 10 centimeters per year. Kilaueas movement takes several forms. Layers of lava and sediment atop the mountain are pulled down by the force of gravity. The entire mountain itself also moves slowly out to sea as magma derived from deep within the earths mantle intrudes into the core of the volcano.
“From previous studies, we know that Kilauea is the site of an active landslide, the Hilina slump, which has moved in historic times,” said Julia Morgan, assistant professor of Earth Science at Rice University. “We now recognize that Kilauea also experienced a catastrophic landslide in the past, possibly within 25,000-50,000 years, which is quite recent in geologic terms.”
The 10-by-15 mile Hilina slump is partially detached from the seaward flank of Kilauea, and is thought to be a candidate for catastrophic collapse. At this weeks fall meeting of the American Geophysical Union in San Francisco, Morgan will present new findings that the debris left over from the last catastrophic landslide on Kilauea is forming a buffer that stabilizes the Hilina slump. Morgan and her colleagues, Gregory Moore at the University of Hawaii and David Clague at Monterey Bay Aquarium Research Institute (MBARI), reached this conclusion after a comprehensive analysis of two offshore seismic and seafloor mapping surveys conducted in 1998 by the Lamont-Doherty Earth Observatory and MBARI.
They found that the most recent collapse on Kilauea involved a detached piece of the mountain that was similar in size to the Hilina slump and located immediately to its northeast. When this section of the volcano slid away, it settled beneath the ocean at the base of Kilauea. As the entire volcano grew and slid oceanward, this debris piled up, much like snow piles up in front of a snowplow. The result is a broad, bench-like, submarine structure that sits at the foot of the mountain, about 15-20 miles off the coast. The downslope edge of the Hilina slump now impinges on the outer bench.
“Based on what weve seen, we believe that the outer bench is still growing, and we expect that the buttressing effect it exerts on the Hilina slump will increase accordingly,” Morgan said. “This interaction reduces the likelihood of catastrophic detachment of the Hilina slump under present conditions.”
However, because the outer bench contains a good deal of loose sediment and debris, it is also subject to catastrophic failure. For instance, the bench is riddled with small-scale faults and fractures. A massive volcanic eruption or a large earthquake like the 7.2-magnitude temblor that hit Hawaii in 1975 could shake the outer bench to pieces. Morgan said there is geologic evidence that something similar occurred on nearby Mauna Loa about 100,000 years ago.
The research was funded by the National Science Foundation, with additional support from Landmark Graphics Corp.
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Earth Sciences (also referred to as Geosciences), which deals with basic issues surrounding our planet, plays a vital role in the area of energy and raw materials supply.
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