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Start Over Author "Cannat, Mathilde" Publisher american geophysical union (agu)
47 results on '"Cannat, Mathilde"'

2. Effects of substrate composition and subsurface fluid pathways on the geochemistry of seafloor hydrothermal deposits at the Lucky Strike Vent Field, Mid‐Atlantic Ridge

Author

Sánchez‐mora, Dennis, Jamieson, John, Cannat, Mathilde, Escartín, Javier, Barreyre, Thibaut, Sánchez‐mora, Dennis, Jamieson, John, Cannat, Mathilde, Escartín, Javier, and Barreyre, Thibaut

Abstract

The Lucky Strike vent field, located on the Mid-Atlantic Ridge (MAR), is hosted on enriched mid-ocean ridge basalt associated with the nearby Azores hotspot. In this study, we present bulk rock geochemistry coupled with in situ sulfur isotope analysis of hydrothermal samples from Lucky Strike. We assess the geological controls on the differences in the major and trace element content and sulfur isotopic composition of the hydrothermal deposits within the vent field. The hydrothermal deposits contain elevated concentrations of elements typically enriched in E-MORB, such as Mo, Ba, and Sr, compared to typical values for other hydrothermal deposits hosted on the MAR. The range in sulfur isotope compositions of hydrothermal marcasite and chalcopyrite (-2.5 to 8.7‰) is similar to the range recorded at other sediment-free basalt-hosted seafloor hydrothermal sites. However, at Lucky Strike, the Capelinhos vent, situated 1.4 km east of the main field, is enriched in 34S (by ∼3.5‰ for both marcasite and chalcopyrite), relative to the main field. This difference reflects contrasting subseafloor fluid/rock interactions at these two sites, including subseafloor sulfide precipitation at the main field that results in <20% of reduced sulfur within the upwelling hydrothermal fluid reaching the seafloor. We also compare the geochemistry of the hydrothermal deposits at Lucky Strike to other hydrothermal sites along the MAR and show that the average hydrothermal deposit Ba/Co is useful to discriminate between E-MORB and other mafic/ultramafic hosted deposits. Plain Language Summary We investigate the variations in composition of metal- and sulfur-rich hydrothermal deposits that form on the seafloor at a cluster of high-temperature hot springs called the Lucky Strike hydrothermal vent field, on the Mid-Atlantic Ridge. We find that the mineralogy and geochemistry of the deposits do not vary spatially within this vent field. However, variations in the relative abundances of different su

Published
2022
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8. Internal structure of the oceanic lithosphere at a melt‐starved ultra‐slow‐spreading mid‐ocean ridge: insights from 2‐D seismic data

Author

Momoh, Ekeabino, Cannat, Mathilde, Leroy, Sylvie, Momoh, Ekeabino, Cannat, Mathilde, and Leroy, Sylvie

Abstract

Extensive outcrops of serpentinized peridotite in melt‐starved spreading corridors of the ultraslow easternmost Southwest Indian Ridge are hypothesized to be due to slip on successive long‐offset normal faults that alternate polarity (flip‐flop detachment faults). We investigate the nature of the oceanic crust which forms under these conditions, using seismic reflection data acquired during the SISMOSMOOTH 2014 cruise. Using 3‐D binning, the seismic profiles were binned elastically, while three of the profiles shot closely were merged into one to take advantage of the larger air gun source volume. Using a poststack imaging sequence, we observe several types of reflectors at crustal and infracrustal depths, in the axial valley and off‐axis. Correlating our seismic observations with Residual Mantle Bouguer gravity anomalies and seafloor observations, we find that our results are explicable in the frame‐work of the flip‐flop hypothesis of detachment faulting. Reflectors imaged down to 5 km into the basement and interpreted as due to damaged zones outlining the detachment faults dip 50° at the early stages, while at late stages after developing offsets >10 km, they dip 25°. Other reflectors observed in the crust are interpreted as moderate offset (< 200 m) normal faults accommodating deformation and alteration in the hanging wall and channelling the sparse melt to the seafloor. We interpret these and other observed seismic reflectors in the frame of a two‐phase evolutionary sequence over the lifetime of two successive flip‐flop detachment faults: exhumation, footwall flexure, damage, serpentinization and incipient magmatism in the footwall of one detachment fault; followed by further tectonic damage, alteration and incipient magmatism in the hanging wall of the next detachment fault.

Published
2020
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