South-Central Section - 52nd Annual Meeting - 2018

Paper No. 6-16
Presentation Time: 8:30 AM-6:00 PM

MELT-ROCK REACTION IN PERIDOTITES FROM THE SANTA ELENA OPHIOLITE, NW COSTA RICA


CARR, Danelle, 4605 Greenfield Dr, Arlington, TX 76016, LOOCKE, Matthew, University of Texas at Arlington, Shimadzu Institute for Research Technologies, 500 Yates St, Arlington, TX 76019 and SNOW, Jonathan E., Earth and Atmospheric Sciences, University of Houston, Houston, TX 77204

The Santa Elena Ophiolite (SEO), located on the northwestern coast of Costa Rica, consists primarily of preserved oceanic mantle and crustal rocks thrust above an accretionary complex. The SEO is predominantly characterized by mantle peridotites (i.e., primarily spinel lherzolite with minor amounts of harzburgite and dunite) cut and intruded by minor pegmatitic gabbros, layered gabbros, plagiogranites, and doleritic and basaltic dykes. Previous studies have concluded that the complex formed in a suprasubduction zone (SSZ) setting based on the geochemical nature of the layered gabbros and plagiogranites (i.e., depleted LREE and HFSE and enriched LILE and Pb), as well, as the peridotites (i.e., low-TiO2, Zr, and V, and high MgO, Cr, and Ni)(Denyer and Gazel, 2009). Eighteen ultramafic samples collected during the winter 2010/2011 field season (SECR11) exhibit abundant evidence for melt-rock reaction (e.g., disseminated plagioclase and plagioclase-spinel, clinopyroxene-spinel, and plagioclase-clinopyroxene symplectites) and provide a unique opportunity to characterize the textural and chemical nature of melt-rock reaction in the SEO. We present the results of a petrologic investigation (i.e., petrography and electron probe microanalysis) of 28 thin sections (19 spinel lherzolites, of which 14 are plagioclase-bearing, 4 pyroxenite veins, and 5 harzburgites) derived from the SECR11 sample set. Major element analyses of spinels (N=788) in the peridotites exhibit chemistries characteristic of abyssal peridotites that overlap with forearc peridotites (e.g., Cr#s 7-57, Mg#s 48-81, TiO2 0.01-0.77). In some cases, we observe extreme variations in spinel chemistry between grains separated by no more than 300 um. The results of this investigation have the potential to better our understanding of the nature of melt generation and migration and melt-rock interaction in the SEO mantle section and shed further light on the complex petrogenetic history of the SEO.