Focused Magmatism versus Amagmatic spreading along the ultraslow-spreading Southwest Indian Ridge. Evidence from TOBI side scan sonar imagery
Résumé
The analysis of the Towed Ocean Bottom Instrument (TOBI) side scan sonar images along the
Southwest Indian Ridge between 63400E and 65400E reveals strong focusing of magmatic activity
and long amagmatic accretionary ridge segments. Fresh-looking volcanic terrains are observed at
distinct locations along the axis separated by highly tectonized and sedimented terrains of an alongaxis
extent as much as 82 km. The largest tectonized section corresponds to a dramatically thin crust
area with moderate magnetization anomalies. We suggest that seafloor spreading is mainly amagmatic
in this tectonized section of the Southwest Indian Ridge with upper mantle rocks exposed at the
seafloor. Amagmatic accretionary ridge segments of such dimensions are quite distinct from what is
observed at the Mid-Atlantic Ridge but are also recognized at the Gakkel Ridge and may thus be
characteristic of ultra-slow spreading ridges. The correlation between the distribution of fresh-looking
volcanic terrains, the occurrence of shallow areas crowned by axial volcanic ridges, and high
magnetization values suggests a shallow segmentation of the ridge mainly related to variation in the
thickness and/or the intrinsic magnetization of the basaltic source layer. By contrast, strong along-axis
variations of the gravity-derived crustal thickness are shrunken in length relative to this shallow
segmentation of the ridge and occur only beneath the elevated segments. Adjacent to these elevated
segments, small bathymetric swells with fresh-looking volcanic constructions do not correspond to
thicker crust areas. This suggests a highly focused melt supply beneath the elevated segments which
may feed volcanic constructions up to 60 km from the center of these segments by shallow lateral melt
migration in the crust, probably through large dikes. Neither the ultra-slow spreading rate nor the ridge
obliquity explains the variation of the magmatic vigor along the ridge. Mantle source heterogeneities
together with lower mantle temperatures beneath the easternmost Southwest Indian Ridge could partly
control its segmentation.
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