Abstract
Spreading processes associated with slow-spreading ridges are a complex interplay of volcanic accretion and tectonic dismemberment of the oceanic crust, resulting in an irregular seafloor morphology made up of blocks created by episodes of intense volcanic activity or tectonic deformation. These blocks undergo highly variable evolution, such as tilts or dissection by renewed tectonic extension, depending on their positions with respect to the spreading axis, core complexes, detachment or transform faults. Here, we use near-seafloor magnetic and bathymetric data and seismic profiles collected over the TAG Segment of the Mid-Atlantic Ridge to constrain the tectonic evolution of these blocks. Our study reveals that the presence and evolution of oceanic core complexes play a key role in triggering block movements. The deep subvertical detachment fault roots on the plate boundary, marked by a thermal anomaly and transient magma bodies. Thermal and magmatic variations control the structure and morphology of the seafloor above the subhorizontal detachment surface, occasionally leading to relocating the detachment.
Highlights
Unlike fast-spreading centers associated with intense volcanic activity, slow-spreading ridges are characterized by lower magma flux[1] and tectonic extension, often accommodated by long-lived detachments faults[2,3,4,5]
Assuming the crustal block hosting the hydrothermal mound is geologically homogeneous and has not been tilted, the reduced to the pole (RTP) magnetic anomaly is a low centered over the bathymetric features
Any tilt unraveled by the magnetic anomaly analysis happened subsequently to the hydrothermal mound formation and is very recent
Summary
Unlike fast-spreading centers associated with intense volcanic activity, slow-spreading ridges are characterized by lower magma flux[1] and tectonic extension, often accommodated by long-lived detachments faults[2,3,4,5]. Assuming the crustal block hosting the hydrothermal mound is geologically homogeneous and has not been tilted, the RTP magnetic anomaly is a low centered over the bathymetric features. For hydrothermal mounds growing on a homogeneous and tilted basaltic block, the RTP magnetic anomaly is no longer a magnetic low.
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