Add to ORKGAbstract: Three models are proposed for the orientation of extensional faults and dykes at mid-ocean ridges based on their relationship to the ridge axis and the relative plate separation vector. These models predict four ridge geometries allowing them to be tested by orientation data from 17 different sites within the Earth's oceans. A transtensional model is shown to he generally applicable to the structure of mid-ocean ridges, with special conditions required for a departure from it. Spreading rate influences ridge geometry with intermediate and fast spreading ridges more likely to have an orthogonal spreading geometry, which is an end member case of the transtensional model
Oceanic ridge segments interact forming different types of structures, of which transform faults and...
International audienceNew lithospheric analog models of oblique rifting presented here capture the m...
International audienceMid-ocean ridges (MOR) axes are not straight, but segmented over scales of 10s...
Three models are proposed for the orientation of extensional faults and dykes at mid-ocean ridges ba...
Obliquely spreading mid-ocean ridges, such as the Reykjanes Ridge, display two distinct fault sets d...
One of the most puzzling characteristics of sea-floor morphology is the occurrence of anomalously sh...
The mechanics responsible for the initiation of the orthogonal pattern characterizing mid-ocean ridg...
International audienceThe relationship between spreading and stretching directions is investigated a...
[1] Lithosphere extension and continental breakup axes are often (sub-) parallel to orogenic belts a...
International audienceOccurrence of multiple faults populations with contrasting orientations in obl...
International audience8 V-shaped oceanic propagators are widespread around the world. Their geometry...
International audienceOceanic detachment faulting is a major mode of seafloor accretion at slow and ...
The effect of the seafloor subsidence on the horizontal stress field is investigated by combining th...
Abyssal-hill-bounding faults that pervade the oceanic crust are the most common tectonic feature on ...
Nontransform offsets are a fundamental aspect of the offset geometry exhibited along the mid-oceanic...
Oceanic ridge segments interact forming different types of structures, of which transform faults and...
International audienceNew lithospheric analog models of oblique rifting presented here capture the m...
International audienceMid-ocean ridges (MOR) axes are not straight, but segmented over scales of 10s...
Three models are proposed for the orientation of extensional faults and dykes at mid-ocean ridges ba...
Obliquely spreading mid-ocean ridges, such as the Reykjanes Ridge, display two distinct fault sets d...
One of the most puzzling characteristics of sea-floor morphology is the occurrence of anomalously sh...
The mechanics responsible for the initiation of the orthogonal pattern characterizing mid-ocean ridg...
International audienceThe relationship between spreading and stretching directions is investigated a...
[1] Lithosphere extension and continental breakup axes are often (sub-) parallel to orogenic belts a...
International audienceOccurrence of multiple faults populations with contrasting orientations in obl...
International audience8 V-shaped oceanic propagators are widespread around the world. Their geometry...
International audienceOceanic detachment faulting is a major mode of seafloor accretion at slow and ...
The effect of the seafloor subsidence on the horizontal stress field is investigated by combining th...
Abyssal-hill-bounding faults that pervade the oceanic crust are the most common tectonic feature on ...
Nontransform offsets are a fundamental aspect of the offset geometry exhibited along the mid-oceanic...
Oceanic ridge segments interact forming different types of structures, of which transform faults and...
International audienceNew lithospheric analog models of oblique rifting presented here capture the m...
International audienceMid-ocean ridges (MOR) axes are not straight, but segmented over scales of 10s...