V13B-3102
Linking Plagioclase Zoning Patterns to Active Magma Processes

Monday, 14 December 2015
Poster Hall (Moscone South)
Pavel E Izbekov1, Kirsten P Nicolaysen2, Owen K Neill3, Vasily Shcherbakov4, Pavel Plechov4 and John C Eichelberger5, (1)Alaska Volcano Observatory Fairbanks, Fairbanks, AK, United States, (2)Whitman College, Walla Walla, WA, United States, (3)Washington State University, Pullman, WA, United States, (4)Moscow State University, Moscow, Russia, (5)University of Alaska Fairbanks, Office of the Graduate School, Fairbanks, AK, United States
Abstract:
Plagioclase, one of the most common and abundant mineral phases in volcanic products, will vary in composition in response to changes in temperature, pressure, composition of the ambient silicate melt, and melt H2O concentration. Changes in these parameters may cause dissolution or growth of plagioclase crystals, forming characteristic textural and compositional variations (zoning patterns), the complete core-to-rim sequence of which describes events experienced by an individual crystal from its nucleation to the last moments of its growth. Plagioclase crystals in a typical volcanic rock may look drastically dissimilar despite their spatial proximity and the fact that they have erupted together. Although they shared last moments of their growth during magma ascent and eruption, their prior experiences could be very different, as plagioclase crystals often come from different domains of the same magma system. Distinguishing similar zoning patterns, correlating them across the entire population of plagioclase crystals, and linking these patterns to specific perturbations in the magmatic system may provide additional perspective on the variety, extent, and timing of magma processes at active volcanic systems. Examples of magma processes, which may be distinguished based on plagioclase zoning patterns, include (1) cooling due to heat loss, (2) heating and/or pressure build up due to an input of new magmatic material, (3) pressure drop in response to magma system depressurization, and (4) crystal transfer between different magma domains/bodies. This review will include contrasting examples of zoning patters from recent eruptions of Karymsky, Bezymianny, and Tolbachik Volcanoes in Kamchatka, Augustine and Cleveland Volcanoes in Alaska, as well as from the drilling into an active magma body at Krafla, Iceland.