Leucocratic and Gabbroic Xenoliths from Hualalai Volcano, Hawai'i

doi:10.1093/petrology/egl027

Journal of Petrology Advance Access originally published online on June 6, 2006
Journal of Petrology 2006 47(9):1785-1808; doi:10.1093/petrology/egl027

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Leucocratic and Gabbroic Xenoliths from Hualalai Volcano, Hawai'i

PATRICK J. SHAMBERGER and JULIA E. HAMMER^*

DEPARTMENT OF GEOLOGY AND GEOPHYSICS, UNIVERSITY OF HAWAII 1680 EAST–WEST RD, HONOLULU, HI 96822, USA

RECEIVED APRIL 22, 2005; ACCEPTED APRIL 7, 2006

A diverse range of crustal xenoliths is hosted in young alkalibasalt lavas and scoria deposits (erupted $~$ 3–5 ka) at thesummit of Hual $a$ lai. Leucocratic xenoliths, including monzodiorites,diorites and syenogabbros, are distinctive among Hawaiian plutonicrocks in having alkali feldspar, apatite, zircon and biotite,and evolved mineral compositions (e.g. albitic feldspar, clinopyroxeneMg-number 67–78). Fine-grained diorites and monzodioritesare plutonic equivalents of mugearite lavas, which are unknownat Hual $a$ lai. These xenoliths appear to represent melt compositionsfalling along a liquid line of descent leading to trachyte—amagma type which erupted from Hual $a$ lai as a prodigious lava flowand scoria cone at $~$ 114 ka. Inferred fractionating assemblages,MELTS modeling, pyroxene geobarometry and whole-rock norms allpoint to formation of the parent rocks of the leucocratic xenolithsat $~$ 3–7 kbar pressure. This depth constraint on xenolithformation, coupled with a demonstrated affinity to hypersthene-normativebasalt and petrologic links between the xenoliths and the trachyte,suggests that the shift from shield to post-shield magmatismat Hual $a$ lai was accompanied by significant deepening of the activemagma reservoir and a gradual transition from tholeiitic toalkalic magmas. Subsequent differentiation of transitional basaltsby fractional crystallization was apparently both extreme—culminatingin >5·5 km³ of trachyte—and rapid, at $≥$ 2·75x 10⁶ m³ magma crystallized/year.

KEY WORDS: geothermobarometry; magma chamber; xenolith; cumulate; intensive parameters

^*Corresponding author. Telephone: 808–956–5996. Fax: 808–956–5512. E-mail: jhammer{at}hawaii.edu

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