NEWS RELEASE, 10/16/96
National Science Foundation funds $10 million, six-year drilling project in Hawaii to be run by UC Berkeley, Caltech and the University of Hawaii
Berkeley -- Scientists will drill as much as a million years into the geologic history of the Earth to study the evolution of Hawaii's Mauna Kea volcano under a grant awarded by the National Science Foundation this month.
The $10.3 million, six-year Hawaii Scientific Drilling Program will be administered by the Hawaii Institute of Geophysics and Planetology at the University of Hawaii in collaboration with the University of California at Berkeley and the California Institute of Technology.
Researchers from the U.S. Geological Survey and more than two dozen universities around the world also will be involved in the project, which will study formation of volcanoes and the mechanisms that operate within the Earth's mantle. A mantle plume or hot spot is thought to have produced the string of volcanoes that make up the Hawaiian Islands chain.
"We are delighted that this project has received funding after 10 years of laying the groundwork," said Don DePaolo, leader of the UC Berkeley team and a professor of geology and geophysics. "It should give us an unprecedented opportunity to understand how volcanoes form. We will also retrieve a detailed record of how the Earth's magnetic field has changed in the past, and test the extraordinary but widely held view that Hawaii exists because of a fountain of hot rock material that is coming from 3,000 kilometers deep in the Earth."
The project will produce a continuous 14,500-foot sequence of samples from a bore hole dug into the inactive volcano Mauna Kea near Hilo on the island of Hawaii, to help better understand a million years of Mauna Kea volcanism and these basic planetary processes.
Researchers will study the samples recovered, as well as properties of the rocks around the bore hole, to determine how the volcano was formed, types of volcanic activity that have occurred and mantle mechanisms that produce Hawaii lavas.
Other studies will explore types of volcanic hazards that occur over the life of a Hawaiian volcano, movement of groundwater deep within the volcanic complex and the earthquake cycle that occurs on the Big Island.
The new project will build on results of the successful pilot drill hole project completed three years ago near Hilo. Studies from that work showed that Hawaii's major volcanoes may be active for periods of almost a million years, nearly twice as long as previously thought. The cores from that drilling plus additional information are available at the web site http://expet.gps.caltech.edu/Hawaii_project.html.
Additional findings of interest are that:
o The frequency of eruptions from Mauna Loa, a younger volcano arising from the slopes of Mauna Kea, has slowed from peak activity 500,000 years ago.
o Mauna Kea has subsided (settled) by more than 3,400 feet during the last 400,000 years, and the surface area of Mauna Loa is shrinking as the island subsides faster (about 2.5 millimeters per year) than the volcano builds new flows.
o Fresh groundwater can be channeled to depths of more than 1,000 feet below sea level by changes in rock porosity, and cold, deep seawater can circulate long distances through porous rocks present at depths of 3,000 feet beneath the surface of the island.
"The pilot project was so successful, both scientifically and technologically, that we got the nod," comments C. Barry Raleigh, dean of the University of Hawaii School of Ocean and Earth Sciences and Technology, explaining why the Hawaii Scientific Drilling Project was one of only two or three deep-drilling investigations expected to be funded by the National Science Foundation over the next five to 10 years. Additional funding has been requested from the International Continental Drilling Program in Potsdam.
Site evaluation and selection for the drill hole is underway, with drilling expected to begin in about a year's time.
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