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Degassing-induced crystallization of basaltic magma and effects on lava rheology (1985)

Lipman, Peter W. ; Banks, Norman G. ; Rhodes, J. Michael

[s.l.] : Nature Publishing Group

Nature 317 (1985), S. 604-607

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] The 1984 eruption of Mauna Loa provided an exceptional opportunity to observe the development of a large-volume basaltic a'a flow system for several weeks1. Similar large a'a flows were last erupted on Mauna Loa in 1950 (rf. 2), before the availability of helicopter logistic support, devices for ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/317604a0

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Petrology and geochronology of basalt breccia from the 1996 earthquake swarm of Loihi seamount, Hawaii: magmatic history of its 1996 eruption (1998)

Garcia, Michael O. ; Rubin, Ken H. ; Norman, Marc D. ; [et al.]

Springer

Bulletin of volcanology 59 (1998), S. 577-592

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ISSN: 1432-0819

Keywords: Key words Hawaii ; Loihi ; Magmatic processes ; Submarine volcanism ; Petrology ; Geochronology ; Lava geochemistry

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract Samples of basalt were collected during the Rapid Response cruise to Loihi seamount from a breccia that was probably created by the July to August 1996 Loihi earthquake swarm, the largest swarm ever recorded from a Hawaiian volcano. 210Po–210Pb dating of two fresh lava blocks from this breccia indicates that they were erupted during the first half of 1996, making this the first documented historical eruption of Loihi. Sonobuoys deployed during the August 1996 cruise recorded popping noises north of the breccia site, indicating that the eruption may have been continuing during the swarm. All of the breccia lava fragments are tholeiitic, like the vast majority of Loihi's most recent lavas. Reverse zoning at the rim of clinopyroxene phenocrysts, and the presence of two chemically distinct olivine phenocryst populations, indicate that the magma for the lavas was mixed just prior to eruption. The trace element geochemistry of these lavas indicates there has been a reversal in Loihi's temporal geochemical trend. Although the new Loihi lavas are similar isotopically and geochemically to recent Kilauea lavas and the mantle conduits for these two volcanoes appear to converge at depth, distinct trace element ratios for their recent lavas preclude common parental magmas for these two active volcanoes. The mineralogy of Loihi's recent tholeiitic lavas signify that they crystallized at moderate depths (∼8–9 km) within the volcano, which is approximately 1 km below the hypocenters for earthquakes from the 1996 swarm. Taken together, the petrological and seismic evidence indicates that Loihi's current magma chamber is considerably deeper than the shallow magma chamber (∼3–4 km) in the adjoining active shield volcanoes.