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Formation of Obsidian Pyroclasts by Sintering of Ash Particles in the Volcanic Conduit

Gardner, J.E.; Llewellin, E.W.; Watkins, J.M.; Befus, K.S.

Formation of Obsidian Pyroclasts by Sintering of Ash Particles in the Volcanic Conduit Thumbnail


Authors

J.E. Gardner

J.M. Watkins

K.S. Befus



Abstract

The ranges in intensity and style of volcanic eruptions, from highly explosive Plinian eruptions to quiescent lava extrusions, depend on the style and efficiency of gas loss from ascending magma. Obsidian pyroclasts – small, glassy pieces of quenched magma found in some volcanic tephra beds – may preserve valuable information about magma degassing in their vesicle textures and volatile contents. Accurate interpretation of their textures and volatiles, however, requires understanding the mechanism of formation of the pyroclasts. Obsidian pyroclasts from the ca. 1325–1350 C.E. North Mono eruption of Mono Craters (CA, USA) were analyzed and found to have H2O and CO2 contents indicating that they were formed at pressures in the approximate range of 3–40 MPa. Many also contain domains with differing vesicle textures, separated by boundaries containing xenocrystic material, indicating that they are composed of smaller fragments that have sutured together. More than half of the pyroclasts analyzed contained small (∼10 μm), highly distorted vesicles, with multi-cuspate morphology, interpreted as the remnants of interstitial gas trapped amongst sintered fragments of melt/glass. Rounded vesicles are also common and are interpreted to result from surface tension-driven relaxation of the distorted vesicles. Calculated timescales of sintering and relaxation are consistent with timescales for pyroclast formation indicated by H2O re-equilibration within the heterogeneous pyroclasts. This sintering model for the origin of obsidian pyroclasts is further supported by the observation that spherical vesicles are found mainly in H2O-rich pyroclasts, and distorted vesicles mainly in H2O-poor pyroclasts. We conclude that obsidian pyroclasts generated during the North Mono eruption were formed by cycles of fragmentation, sintering/suturing, and relaxation, over a very wide range of depths within the conduit; we find no evidence to support pumice (foam) collapse as the formation mechanism. Similar textures, and the occurrence of xenolithic material, in obsidian pyroclasts in other eruptions suggest that sintering may be generally responsible for the origin of obsidian pyroclasts. Our conceptual model indicates that volatile contents in obsidian pyroclasts reflect both degassing of bubbly magma and the composition of gas trapped between sintering particles.

Citation

Gardner, J., Llewellin, E., Watkins, J., & Befus, K. (2016). Formation of Obsidian Pyroclasts by Sintering of Ash Particles in the Volcanic Conduit. Earth and Planetary Science Letters, 459(1), 252-263. https://doi.org/10.1016/j.epsl.2016.11.037

Journal Article Type Article
Acceptance Date Nov 20, 2016
Online Publication Date Dec 6, 2016
Publication Date Dec 6, 2016
Deposit Date Nov 22, 2016
Publicly Available Date Mar 29, 2024
Journal Earth and Planetary Science Letters
Print ISSN 0012-821X
Publisher Elsevier
Peer Reviewed Peer Reviewed
Volume 459
Issue 1
Pages 252-263
DOI https://doi.org/10.1016/j.epsl.2016.11.037

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