2005 Salt Lake City Annual Meeting (October 16–19, 2005)

Paper No. 3
Presentation Time: 2:00 PM

CHLORINE CHEMISTRY OF SERPENTINITES FROM ELBA, ITALY AS AN INDICATOR OF FLUID SOURCE


BARNES, J.D.1, SELVERSTONE, J.1, SHARP, Z.D.1 and DALLAI, L.2, (1)Earth and Planetary Sciences, Univ of New Mexico, Albuquerque, NM 87131, (2)Department of Earth Sciences, University of Pisa, Pisa, Italy, jdbarnes@unm.edu

Chlorine contents and δ37Cl, δD, and δ18O values were measured from serpentinites in different tectonic positions on Elba island in order to evaluate potential geochemical-tectonic relationships. Elba consists of Ligurian and Tuscan thrust sheets that were intruded by Miocene plutons and dismembered by normal faults. Lower grade serpentinites from the Ophiolite unit contain 0.01-0.1 wt% Cl with δ37Cl values from ~ –1.0 to +1.5‰ (±0.1‰), δD values from ~ –70 to –100‰, and δ18O values from ~ 0 to +3.0‰. The isotopic variations are interpreted to be primary signatures reflecting different sources of serpentinizing fluids. Samples with positive δ37Cl values occur beneath gabbro and basalt and were serpentinized by interaction with seawater. Samples with negative δ37Cl values are only found in samples that are in primary contact with mudstones and cherts. These samples were presumably juxtaposed against the sediments along low-angle normal oceanic faults prior to serpentinization. Serpentinization resulted from interaction with sedimentary pore fluids (pore fluids have negative δ37Cl values). Samples from the Ophiolite unit <100 m from the plutons and all samples from the structurally lower Acquadolce unit (δD: ~ –55 to –95‰; δ18O values: ~ 0 to +5.0‰) lost their original Cl during metamorphism. Obducted serpentinites can thus preserve a record of seafloor tectonic processes if they are not affected by subsequent metamorphism.