Add to ORKGOphiolites are widely studied to unravel how new subduction zones form. They may contain crustal and mantle rocks that formed during juvenile stages of intra-oceanic subduction, modifying the pre-existing oceanic lithosphere within which subduction started, and in which a magmatic arc formed upon subduction maturation. Previous geochemical work on the Cretaceous Andaman Ophiolite and its metamorphic sole, located in the forearc of the Sunda subduction zone of south-east Asia, has revealed geochemical signatures that are difficult to reconcile in a single tectonic setting but may rather record different stages in a longer evolution. A recent kinematic reconstruction proposed that the Andaman Ophiolite may have formed during subduction initia...
Ophiolite complexes emplaced onto the Indian passive margin sequence in southwest Tibet represent th...
Concordant zircon U-Pb ages determined on basement in northern Luzon provide constraints on the tect...
Key to understanding the plate kinematic evolution of the Neotethys oceanic domain that existed betw...
Ophiolites are widely studied to unravel how new subduction zones form. They may contain crustal and...
Subduction polarity reversal during arc-continent collision has been proposed as a key mechanism to ...
The Andaman ophiolites form the basement of the Andaman Islands, which is a part of the outer forear...
The Andaman Ophiolite remained little explored for long but recent studies yielded important first-o...
The Andaman ophiolites are well exposed in the Andaman group of islands, which is part of the Sunda-...
The ophiolite suite from south Andaman Islands forms part of the Tethyan Ophiolite Belt and preserve...
The Andaman and Nicobar ophiolites, in the forearc of the western Sunda subduction zone, underwent e...
Little was known about the nature and origin of the deep crust beneath the Andaman Island Arc in spi...
The Andaman Ophiolite of south-eastern India is located on the outer arc of the Andaman-Java subduct...
Ophiolite complexes emplaced onto the Indian passive margin sequence in southwest Tibet represent th...
Concordant zircon U-Pb ages determined on basement in northern Luzon provide constraints on the tect...
Key to understanding the plate kinematic evolution of the Neotethys oceanic domain that existed betw...
Ophiolites are widely studied to unravel how new subduction zones form. They may contain crustal and...
Subduction polarity reversal during arc-continent collision has been proposed as a key mechanism to ...
The Andaman ophiolites form the basement of the Andaman Islands, which is a part of the outer forear...
The Andaman Ophiolite remained little explored for long but recent studies yielded important first-o...
The Andaman ophiolites are well exposed in the Andaman group of islands, which is part of the Sunda-...
The ophiolite suite from south Andaman Islands forms part of the Tethyan Ophiolite Belt and preserve...
The Andaman and Nicobar ophiolites, in the forearc of the western Sunda subduction zone, underwent e...
Little was known about the nature and origin of the deep crust beneath the Andaman Island Arc in spi...
The Andaman Ophiolite of south-eastern India is located on the outer arc of the Andaman-Java subduct...
Ophiolite complexes emplaced onto the Indian passive margin sequence in southwest Tibet represent th...
Concordant zircon U-Pb ages determined on basement in northern Luzon provide constraints on the tect...
Key to understanding the plate kinematic evolution of the Neotethys oceanic domain that existed betw...