Clinopyroxene in postshield Haleakala ankaramite: 2. Texture, compositional zoning and supersaturation in the magma - Archive ouverte HAL Accéder directement au contenu
Article Dans Une Revue Contributions to Mineralogy and Petrology Année : 2016

Clinopyroxene in postshield Haleakala ankaramite: 2. Texture, compositional zoning and supersaturation in the magma

Résumé

We investigated the external morphologies and internal compositional zoning patterns of clinopyroxene phenocrysts in an ankaramite of Haleakala volcano (Hawaii) to constrain magma crystallization conditions in the volcano's postshield stage. The phenocrysts are characterized by euhedral faceted morphologies and crystallo-graphically coherent subcrystals. Quantitative EPMA and X-ray element mapping reveal two domains within the crystals: porous, Si-Mg-Ca-Cr-rich zones associated with the forms \100\, \010\ and \110\, and nonporous, Al-Ti-Na-rich zones associated with the forms \-111\. The chemical variations, internal porosity and parallel subcrystals are consistent with nonconcentric crystal growth at varying degrees of supersaturation. We infer that initial growth occurred in a diffusion-limited regime to produce dendritic crystals; subsequent growth was markedly slower, with lesser supersaturation allowing dendrites to infill and produce polyhedral external morphologies. This sequence promoted the evolution of crystals from an hourglass shape with dominant \-111\ forms, to sector-zoned euhedral crystals in which elements were partitioned according to: (Al + Ti + Na)(\-111\) = (Si + Mg + Cr + Ca)(\110\),(\100\),(\010\). Infilling of dendritic crystals occurred to a greater extent on faster-growing sectors and was interrupted by the eruption, resulting in porosity of the slower-growing \hk0\ sectors. Outermost Na-poor rims formed on all sectors due to slower growth rate under interface-limited conditions. Paradoxically, high levels of super-saturation producing large crystals of clinopyroxene (and olivine) are indicated in the volcano's deep-seated reservoir and lower degrees of supersaturation characterize syneruptive crystal growth. The presence of vapor bubbles within the melt-filled crystal embayments and inclusions suggests rapid clinopyroxene growth caused volatile saturation and reservoir pressurization, leading to eruption of the ankaramite.

Domaines

Minéralogie
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Dates et versions

hal-01452047 , version 1 (01-02-2017)

Identifiants

Citer

Benoît Welsch, Julia Hammer, Alain Baronnet, Samantha Jacob, Eric Hellebrand, et al.. Clinopyroxene in postshield Haleakala ankaramite: 2. Texture, compositional zoning and supersaturation in the magma. Contributions to Mineralogy and Petrology, 2016, 171, pp.6. ⟨10.1007/s00410-015-1213-9⟩. ⟨hal-01452047⟩
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