The eruptive activity of a volcano is fundamentally controlled by the rate of magma supply. At Kïlauea Volcano, Hawai'i, the rate of magma rising from a source within Earth's mantle, through the Hawaiian hotspot, was thought to have been relatively steady in recent decades. Here we show that the magma supply to Kïlauea at least doubled during 2003-2007, resulting in dramatic changes in eruptive activity and the formation of new eruptive vents. An initial indication of the surge in supply was an increase in CO 2 emissions during 2003-2004, combined with the onset of inflation of Kïlauea's summit, measured using the Global Positioning System and interferometric synthetic aperture radar. Inflation was not limited to the summit magma reservoirs, but was recorded as far as 50 km from the summit, implying the existence of a connected magma system over that distance. We also record increases in SO 2 emissions, heightened seismicity, and compositional and temperature variations in erupted lavas. The increase in the volume of magma passing through and stored within Kïlauea, coupled with increased CO 2 emissions, indicate a mantle source for the magma surge. We suggest that magma supply from the Hawaiian hotspot can vary over timescales of years, and that CO 2 emissions could be a valuable aid for assessing variations in magma supply at Kïlauea and other volcanoes. © 2012 Macmillan Publishers Limited. All rights reserved.
CITATION STYLE
Poland, M. P., Miklius, A., Jeff Sutton, A., & Thornber, C. R. (2012). A mantle-driven surge in magma supply to Kīlauea Volcano during 2003-2007. Nature Geoscience, 5(4), 295–300. https://doi.org/10.1038/ngeo1426
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