Add to ORKGWe present a new hypothesis that relates global plate tectonics to the formation of marginal basins, island arcs, spreading ridges and arc-shaped mountain belts around the North Pacific Ocean. According to our model, the ellipsoidal-shaped Paleogene basins of the South China Sea, Parece-Vela Basin, Shikoku Basin, Sea of Japan and the Sea of Okhotsk in addition to those of the North American Cordillera can be attributed to the change in plate convergence direction at 42 Ma between the Indoaustralian and Eurasian plates. The new direction of convergence was parallel to the eastern continental margin of Asia and resulted in widespread extension perpendicular to this margin and to the western margin of North America. Both margins form part of a...
The Eocene (~50–45 Ma) major absolute plate motion change of the Pacific plate forming the Hawaii‐Em...
The Eocene (~50–45 Ma) major absolute plate motion change of the Pacific plate forming the Hawaii‐Em...
The belt boundary thrust within the Cretaceous–Neogene accretionary complex of the Shimanto Belt, so...
We present a new hypothesis that relates global plate tectonics to the formation of marginal basins,...
We present a new hypothesis that relates global plate tectonics to the formation of marginal basins,...
We present a new hypothesis that relates global plate tectonics to the formation of marginal basins,...
We present a new hypothesis that relates global plate tectonics to the formation of marginal basins,...
We present a new hypothesis that relates global plate tectonics to the formation of marginal basins,...
We present here a new hypothesis that relates the timing of global plate tectonics and the formation...
A model is presented for the displacement history between western North America, eastern Eurasia, an...
Plate reconstructions and island arc geochemistry in the northwest Pacific predict the intersection ...
Plate reconstructions and island arc geochemistry in the northwest Pacific predict the intersection ...
Plate reconstructions and island arc geochemistry in the northwest Pacific predict the intersection ...
The Eocene (~50–45 Ma) major absolute plate motion change of the Pacific plate forming the Hawaii‐Em...
Abstract: Neogene arc activity in the Southwest Pacific began simultaneously at 25 Ma on three diffe...
The Eocene (~50–45 Ma) major absolute plate motion change of the Pacific plate forming the Hawaii‐Em...
The Eocene (~50–45 Ma) major absolute plate motion change of the Pacific plate forming the Hawaii‐Em...
The belt boundary thrust within the Cretaceous–Neogene accretionary complex of the Shimanto Belt, so...
We present a new hypothesis that relates global plate tectonics to the formation of marginal basins,...
We present a new hypothesis that relates global plate tectonics to the formation of marginal basins,...
We present a new hypothesis that relates global plate tectonics to the formation of marginal basins,...
We present a new hypothesis that relates global plate tectonics to the formation of marginal basins,...
We present a new hypothesis that relates global plate tectonics to the formation of marginal basins,...
We present here a new hypothesis that relates the timing of global plate tectonics and the formation...
A model is presented for the displacement history between western North America, eastern Eurasia, an...
Plate reconstructions and island arc geochemistry in the northwest Pacific predict the intersection ...
Plate reconstructions and island arc geochemistry in the northwest Pacific predict the intersection ...
Plate reconstructions and island arc geochemistry in the northwest Pacific predict the intersection ...
The Eocene (~50–45 Ma) major absolute plate motion change of the Pacific plate forming the Hawaii‐Em...
Abstract: Neogene arc activity in the Southwest Pacific began simultaneously at 25 Ma on three diffe...
The Eocene (~50–45 Ma) major absolute plate motion change of the Pacific plate forming the Hawaii‐Em...
The Eocene (~50–45 Ma) major absolute plate motion change of the Pacific plate forming the Hawaii‐Em...
The belt boundary thrust within the Cretaceous–Neogene accretionary complex of the Shimanto Belt, so...