Dome lavas from the 2004 eruption of Mount St. Helens show elevated Li contents in plagioclase phenocrysts at the onset of dome growth in October 2004. These cannot be explained by variations in plagioclase-melt partitioning, but require elevated Li contents in coexisting melt, a fact confi rmed by measurements of Li contents as high as 207 μg/g in coexisting melt inclusions. Similar Li enrichment has been observed in material erupted prior to and during the climactic May 1980 eruption, and is likewise best explained via pre-eruptive transfer of an exsolved alkali-rich vapor phase derived from deeper within the magma transport system. Unlike 1980, however, high Li samples from 2004 show no evidence of excess (210Pb)/(226Ra), implying that measurable Li enrichments may occur despite signifi cant differences in the timing and/or extent of magmatic degassing. Diffusion modeling shows that Li enrichment occurred within ~1 yr before eruption, and that magma remained Li enriched until immediately before eruption and cooling. This short fl ux time and the very high Li contents in ash produced by phreatomagmatic activity prior to the onset of dome extrusion suggest that vapor transfer and accumulation were associated with initiation of the current eruption. Overall, observation of a high Li signature in both 1980 and 2004 dacites indicates that Li enrichment may be a relatively common phenomenon, and may prove useful for petrologic monitoring of Mount St. Helens and other silicic volcanoes. Lithium diffusion is also suffi ciently rapid to constrain vapor transfer on similar time scales to short-lived radionuclides.
Mount St. Helens, diffusion, plagioclase, lithium, vapor transport, sustainability
Published Article/Book Citation
The article was published in Geology, 35 (2007) pp. 231-234. geology.gsapubs.org/content/35/3/231.full.pdf+html
Author Posting. Copyright © Geological Society of America, 2007. This article is posted here by permission of the publisher for personal use, not for redistribution.
Kent, A.J.R., Blundy, J., Cashman, K., Cooper, K.M., Donnelly, C., Pallister, J.S., Reagan, M., Rowe, M.C., Thornber, C.R., Vapor transport prior to the October 2004 eruption of Mount St. Helens, Washington: Insight from Li and 210Pb systematics. Geology (2007) : v. 35, pp. 231-234. doi: 10.1130/G22809A.1