Epic New Hawaiian Volcano Activity
Check out this very recent new activity from Hawaii s Kilauea Volcano. Just as the activity is rising, we re learning more about its deeper patterns. A new study finds that a deep connection about 50 miles underground can explain the enigmatic behavior of two of Earth s most notable volcanoes, Hawaii s Mauna Loa and Kilauea. The study, the first to model paired volcano interactions, explains how a link in Earth s upper mantle could account for Kilauea and Mauna Loa s competition for the same deep magma supply and their simultaneous "inflation," or bulging upward, during the past decade. The research offers the first plausible model that can explain both the opposing long-term eruptive patterns at Mauna Loa and Kilauea -- when one is active the other is quiet -- as well as the episode in 2003-2007 when GPS records showed that each bulged notably due to the pressure of rising magma. The study was conducted by scientists at Rice University, the University of Hawaii, the U.S. Geological Survey (USGS) and the Carnegie Institution of Washington. "We know both volcanoes are fed by the same hot spot, and over the past decade we ve observed simultaneous inflation, which we interpret to be the consequence of increased pressure of the magma source that feeds them," said lead author Helge Gonnermann, assistant professor of Earth science at Rice University. "We also know there are subtle chemical differences in the lava that each erupts, which means each has its own plumbing that draws magma from different locations of this deep source. "In the GPS records, we first see inflation at Kilauea and then about a half a year later at Mauna Loa," he said. "Our hypothesis is that the pressure is transmitted slowly through a partially molten and thereby porous region of the asthenosphere, which would account for the simultaneous inflation and the lag time in inflation. Because changes in pore pressure are transmitted between both volcanoes at a faster rate than the rate of magma flow within the porous region, this can also explain how both volcanoes are dynamically coupled, while being supplied by different parts of the same source region." Gonnermann said the transmission of pressure through the permeable rock in the asthenosphere is akin to the processes that cause water and oil to flow through permeable layers of rock in shallower regions of Earth s crust. "When we fitted the deformation, which tells us how much a volcano inflates and deflates, and the lava eruption rate at Kilauea, we found that our model could simultaneously match the deformation signal recorded over on Mauna Loa," said James Foster, co-author and assistant researcher at the University of Hawaii School of Ocean and Earth Science and Technology. "The model also required an increase in the magma supply rate to the deep system that matched very nicely with our interpretations and the increased magma supply suggested by the jump in CO2 emissions that occurred in late 2003." Mauna Loa and Kilauea, Earth s largest and most active volcanoes, respectively, are located about 22 miles apart in the Hawaii Volcanoes National Park on the island of Hawaii. They are among the planet s most-studied and best-instrumented volcanoes and have been actively monitored by scientists at USGS s Hawaiian Volcano Observatory (HVO) since 1912. Kilauea has erupted 48 times on HVO s watch, with a nearly continuous flank eruption since 1983. Mauna Loa has erupted 12 times in the same period, most recently in 1984.