Oceanic transform faults and fracture zones (FZs) represent major bathymetric features that keep the records of past and present strike‐slip motion along conservative plate boundaries. Although they play an important role in ridge segmentation and evolution of the lithosphere, their structural characteristics, and their variation in space and time, are poorly understood. To address some of the unknowns, we conducted interdisciplinary geophysical studies in the equatorial Atlantic Ocean, the region where some of the most prominent transform discontinuities have been developing. Here we present the results of the data analysis in the vicinity of the Chain FZ, on the South American Plate. The crustal structure across the Chain FZ, at the conta...
International audienceThe uppermost oceanic crust composes of Layers 2A and 2B, and the boundary bet...
The Chain Fracture Zone is a 300‐km‐long transform fault that offsets the Mid‐Atlantic Ridge. We ana...
Recent improvements in our ability to enhance the resolution of satellite-derived marine gravity dat...
Oceanic transform faults and fracture zones represent major bathymetric features that keep the recor...
International audienceOceanic transform faults and fracture zones (FZs) represent major bathymetric ...
Plate tectonics characterize transform faults as conservative plate boundaries where the lithosphere...
We present seismic tomographic results from a unique seismic refraction and wide-angle survey along ...
International audienceWe present seismic tomographic results from a unique seismic refraction and wi...
Plate tectonics characterize transform faults as conservative plate boundaries where the lithosphere...
Transform faults constitute conservative plate boundaries, where adjacent plates are in tangential c...
We present seismic tomographic results from a unique seismic refraction and wide-angle survey along ...
In slow spreading environments, oceanic crust is formed by a combination of magmatic and tectonic pr...
The crustal accretion along mid-ocean ridges is known to be spreading-rate dependent. Along fast-spr...
The Chain Fracture Zone is a 300 km long transform fault that offsets the Mid Atlantic Ridge. We ana...
International audienceTransform faults accommodate the lateral motions between lithospheric plates, ...
International audienceThe uppermost oceanic crust composes of Layers 2A and 2B, and the boundary bet...
The Chain Fracture Zone is a 300‐km‐long transform fault that offsets the Mid‐Atlantic Ridge. We ana...
Recent improvements in our ability to enhance the resolution of satellite-derived marine gravity dat...
Oceanic transform faults and fracture zones represent major bathymetric features that keep the recor...
International audienceOceanic transform faults and fracture zones (FZs) represent major bathymetric ...
Plate tectonics characterize transform faults as conservative plate boundaries where the lithosphere...
We present seismic tomographic results from a unique seismic refraction and wide-angle survey along ...
International audienceWe present seismic tomographic results from a unique seismic refraction and wi...
Plate tectonics characterize transform faults as conservative plate boundaries where the lithosphere...
Transform faults constitute conservative plate boundaries, where adjacent plates are in tangential c...
We present seismic tomographic results from a unique seismic refraction and wide-angle survey along ...
In slow spreading environments, oceanic crust is formed by a combination of magmatic and tectonic pr...
The crustal accretion along mid-ocean ridges is known to be spreading-rate dependent. Along fast-spr...
The Chain Fracture Zone is a 300 km long transform fault that offsets the Mid Atlantic Ridge. We ana...
International audienceTransform faults accommodate the lateral motions between lithospheric plates, ...
International audienceThe uppermost oceanic crust composes of Layers 2A and 2B, and the boundary bet...
The Chain Fracture Zone is a 300‐km‐long transform fault that offsets the Mid‐Atlantic Ridge. We ana...
Recent improvements in our ability to enhance the resolution of satellite-derived marine gravity dat...