Constraints from melt inclusions on depths of magma residence at intermediate magma supply along the Galapagos Spreading Center

TitleConstraints from melt inclusions on depths of magma residence at intermediate magma supply along the Galapagos Spreading Center
Publication TypeJournal Article
Year of Publication2015
AuthorsColman, A, Sinton, JM, V Wanless, D
JournalEARTH AND PLANETARY SCIENCE LETTERS
Volume412
Pagination122–131
Date Publishedfeb
Type of ArticleArticle
ISSN0012-821X
KeywordsHOV Alvin (Human Occupied Vehicle)
Abstract

Shallow, seismically imaged melt lenses are a ubiquitous feature of mid-ocean ridges with high magma supply; melt lenses deepen and become less continuous along axis as the rate of magma supply decreases. Despite compelling petrologic evidence for evolution of magma within the crust prior to eruption at lower magma supply, melt lenses are rarely detected along ridge segments with rates of magma supply less than 0.3 x 10(6) m(3)/yr/km, and the depths of sub-axial magma reservoirs are therefore poorly known. We use ion microprobe measurements of H2O and CO2 concentrations of olivine-hosted melt inclusions to calculate vapor saturation pressures that constrain crystallization depths at two locations along the Galapagos Spreading Center (94.2 degrees W and 95 degrees W). These sites were chosen to examine crystallization pressures in the presence (94.2 degrees W) and absence (95 degrees W) of a seismically imaged melt lens. At 95 degrees W, where magma supply is too low to sustain a seismically resolvable melt lens, samples were selected from each of the three most recent eruptive units, allowing us to document temporal variations in vapor saturation pressures and the depth of magma residence at this location. Clusters in melt inclusion entrapment depths for these eruptions range from 3.0 to 3.4 km below the seafloor, indicating that magmas at 95 degrees W resided at a narrow range of mid-crustal depths prior to eruption, generally consistent with the global trend of increasing melt lens depth with decreasing rate of magma supply. A discrepancy between seismic data and the peak in melt inclusion entrapment depths at 94.2 degrees W may reflect temporal variability of magmatic systems at this location. This study demonstrates the potential for using measurements of the concentrations of H2O and CO2 in olivine-hosted melt inclusions to determine the depths of crustal magmatic systems that feed mid-ocean ridge eruptions, even in locations where seismic studies have not detected melt lenses. (C) 2014 Elsevier B.V. All rights reserved.

DOI10.1016/j.epsl.2014.12.007