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Oxygen isotope evidence for interaction of Franciscan high-grade blocks in the mantle wedge with sediment derived fluids, Ring Mountain (Tiburon) and Jenner Beach, CaliforniaErrico, Jessica Cori 09 November 2012 (has links)
Oxygen isotopes and major and trace element geochemistry have been used to evaluate the geochemical and tectonic history of a Franciscan hornblende-amphibolite and a eclogite block from Ring Mountain, Tiburon and three eclogite/blueschist blocks from Jenner Beach, California, all blocks have experienced varying amounts of retrogression. Relative to the presumed basaltic protolith, enrichments in large ion lithophile elements (LILEs) indicate interaction with sediment derived fluids in the retrograde eclogite and retrograde blueschist samples and high Mg, Cr, and Ni in actinolite rind indicate interaction with ultramafic rock. The [delta]¹⁸O values of chlorite from the Ring Mountain hornblende-amphibolite and the eclogite block have a narrow range of [delta]¹⁸O values (+7.7-8.2%₀, n=8) and actinolite from actinolite rind on the eclogite block from Ring Mountain and the blueschist/eclogite blocks from Jenner Beach are (+7.8-8.5%₀, n=5). Chlorite-actinolite geothermometry yields temperatures of 200-280°C for actinolite rind formation. Additionally, the [delta]¹⁸O values of both chlorite and actinolite at these temperatures indicates equilibrium with the measured value of Tiburon serpentinites, (7.6 to 8.1%₀, n = 3 Wenner and Taylor, 1974). Oxygen isotope analyses of garnet mineral separates from the eclogite and hornblende-amphibolite from Ring Mountain have [delta]¹⁸O values of +6.8±0.3%₀ (n=7), and +8.2±0.2%₀ (n=7), respectively. Garnets from the three eclogite/blueschist blocks at Jenner Beach have a [delta]¹⁸O value of +9.8±0.7%₀, (n=23). The difference in [delta]¹⁸O values of garnets between the high-grade blocks is likely due to in situ hydrothermal alteration of the seafloor basalt prior to subduction. The geochemical trends can be explained by a model in which during the early stages of subduction pieces of altered oceanic crust are detached from the downgoing slab and incorporated into the mantle wedge soon after reaching peak eclogite or amphibolite facies conditions. As subduction continues, the hanging wall cools and fluids released from subducted sediments infiltrate the overlying mantle wedge. As the blocks cool they develop a retrograde blueschist facies overprint under relatively static conditions. With cooling of the hanging wall and infiltration of sedimentary fluids, serpentinization induces reaction between the blocks and surrounding mantle wedge and Mg-rich actinolite rind is formed. The blocks are then plucked from the mantle wedge and incorporated into the subduction channel where they flow back to the surface via corner flow. / text
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P-T-t paths and deformation of blueschist and associated graphite-schist blocks from the Franciscan mélange, San Simeon, CaliforniaUkar, Estibalitz, 1980- 20 October 2010 (has links)
The Franciscan Complex forms the structurally complicated, locally
chaotic basement of the Northern and Central California and southwestern
Oregon Coast Ranges. It is an accretionary wedge formed during the Late-
Jurassic-Tertiary subduction along the west coast of North America.
In northern California, the Franciscan is subdivided into three belts, the
Western, Central, and Coastal belts, which show a zonation in age,
metamorphic “grade”, and structural style. Franciscan mélanges are present
in the Central belt, as well as the Diablo Range --a tectonic window within the
structurally overlying Great Valley Group--, and the Nacimiento Block, where
the study area is located.
One of the best exposures of Franciscan mélange, where contact
relationships between blocks and matrix can be observed, crops out along 6
km of seacliffs near San Simeon. Boudinaged blocks of graywacke,
greenstone, chert, and much rarer blueschist and graphite-schist are
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dispersed in the shale matrix. Block sizes range from 10 cm to 15 m. The
discovery of interlayered blueschist and graphite-schists, and the presence of
lawsonite in some graphite-schists demonstrates that these two lithologies
were metamorphosed together. Graphite-schist blocks in the Franciscan have
not been reported prior to this study.
Two main mineral assemblages were recognized among the studied
34 mafic blueschist blocks: 1) Lws + Na-amp + Pmp + Phe + Ttn + Chl
recrystallized at ~5 kbar and 200-250°C, and 2) Lws + Na-amp + Pmp + Phe
+ Ttn + Ep + Chl, which recrystallized under slightly higher temperatures but
similar pressures (300-350°C, at 5 kbar). A pre-blueschist facies metamorphic
event under greenschist facies conditions is recorded by calcic cores
overprinted by Na-amp rims in about half of the blocks. Sodic amphibole rims
with a higher Fe3+ content probably developed due to the breakdown of
epidote during a decrease in T. These mafic blueschists followed a
counterclockwise P-T path.
Remnants of “actinolitic rinds”, which are reaction zones formed when
the blocks were in contact with serpentine, were found associated with nine of
the studied mafic blueschist blocks. Such rinds were thought to be unique to
better-studied Franciscan high-T blocks.
Graphite-schist blocks (30 studied) contain Qtz + Phen + Ab + Gr, and
are of two types. One type has relict sedimentary textures with a weak
foliation defined by graphite and pressure solution seams. The other type has
a compositional layering with layers containing well recrystallized quartz. Nine
of these blocks also contain lawsonite within the more graphitic layers.
The geochemistry of the blueschist blocks indicates that they were
derived from the MORB-like oceanic crust, and seamounts underplated during the initiation of subduction. The mainly mafic protolith contained a
small volume of interlayered sediment, as indicated by the presence of
associated metasedimentary graphite-schists. Blueschist facies conditions
were attained at the bottom of the overriding plate during the initial states of
Franciscan subduction (150-155 Ma). Mafic material continued to be
underplated, and low-T dynamic blueschist-facies metamorphism continued
to form until at least ~137 Ma.
A model is proposed in which exhumation was facilitated by normal
faulting near the surface driven by gravitational collapse driven by decrease in
subduction plate dip around 80 Ma that is known to have caused the
Laramide orogeny. During this time, blueschist and graphite-schist blocks
were plucked from the bottom of the hanging wall, incorporated into the shaleand
water-rich shear zone at the plate interface, and exhumed during the
upward flow of mélange driven by the movement of the downgoing plate.
Blocks were extended and boudinaged, and metasomatically altered in the
cataclastic zones that developed along necks and margins of the blocks
during upwelling and the dewatering that led to final compaction near the
surface. / text
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