TY - CONF
T1 - Compositional Variability in Serpentinite Solids, IODP Expedition 366: Insights into a Developing Subduction Channel
AU - Ryan, Jeffrey G.
AU - Johnston, Raymond M.
AU - Menzies, Catriona D.
AU - Price, Roy E.
AU - Sissmann, Olivier
AU - Fryer, Patricia
AU - Wheat, Geoffrey
PY - 2017/1/1
Y1 - 2017/1/1
N2 - Recovered rocks and sediments from IODP Expedition 366 sites include serpentinite muds, serpentinized ultramafic rocks, and altered mafic and sedimentary rocks. In terms of major and compatible trace elements (Mg, Fe, Al, Si; Mn, Ni, Cr), serpentinites from Yinazao, Fantangisna and Asut Tesoru seamounts are similar to those encountered during ODP Legs 195 and 125 (S. Chamorro and Conical Smts.) in reflecting depleted mantle protoliths. However, for elements mobile in Mariana forearc porefluids, the samples are highly variable. Yinazao summit (Site U1492) samples are high in Ca and Sr, consistent with their enriched (7-10x seawater) porefluids. These samples and fluids are in thermodynamic equilibrium with gypsum, which occurs as an abundant precipitate in several core segments. Asut Tesoru Site U1496 summit samples have elevated Na2O, consistent with the very high pore fluid Na concentrations (>700mM Na) from this Site. As seen in past ODP Legs, all Exp. 366 serpentinite muds have elevated CaO and Al2O3, consistent with the presence of a mafic/sedimentary component. However, the summit Site muds also show substantial enrichments in elements high in their entrained pore fluids, the compositions of which appear to vary with slab metamorphic conditions (e.g., Hulme et al 2010). The Mariana serpentinite muds thus comprise a developing reservoir of “fertile” hydrated ultramafic materials forming near the slab-mantle interface starting at very shallow (13-19 km) depths, that reflect both the evolving metamorphic state of the downgoing plate, as well as (potentially) its along-strike variability (e.g., Pearce et al 2005).
AB - Recovered rocks and sediments from IODP Expedition 366 sites include serpentinite muds, serpentinized ultramafic rocks, and altered mafic and sedimentary rocks. In terms of major and compatible trace elements (Mg, Fe, Al, Si; Mn, Ni, Cr), serpentinites from Yinazao, Fantangisna and Asut Tesoru seamounts are similar to those encountered during ODP Legs 195 and 125 (S. Chamorro and Conical Smts.) in reflecting depleted mantle protoliths. However, for elements mobile in Mariana forearc porefluids, the samples are highly variable. Yinazao summit (Site U1492) samples are high in Ca and Sr, consistent with their enriched (7-10x seawater) porefluids. These samples and fluids are in thermodynamic equilibrium with gypsum, which occurs as an abundant precipitate in several core segments. Asut Tesoru Site U1496 summit samples have elevated Na2O, consistent with the very high pore fluid Na concentrations (>700mM Na) from this Site. As seen in past ODP Legs, all Exp. 366 serpentinite muds have elevated CaO and Al2O3, consistent with the presence of a mafic/sedimentary component. However, the summit Site muds also show substantial enrichments in elements high in their entrained pore fluids, the compositions of which appear to vary with slab metamorphic conditions (e.g., Hulme et al 2010). The Mariana serpentinite muds thus comprise a developing reservoir of “fertile” hydrated ultramafic materials forming near the slab-mantle interface starting at very shallow (13-19 km) depths, that reflect both the evolving metamorphic state of the downgoing plate, as well as (potentially) its along-strike variability (e.g., Pearce et al 2005).
UR - https://digitalcommons.usf.edu/geo_facpub/1118
UR - https://goldschmidtabstracts.info/abstracts/abstractView?id=2017004579
M3 - Presentation
T2 - Goldschmidt Abstracts
Y2 - 1 January 2017
ER -