paleoceanography Article

paleoceanography summary

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Learn about the transformation of Panthalassa, the largest ocean on Earth, and how ocean basins and the paths of ocean currents have changed over time

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Below is the article summary. For the full article, see paleoceanography.

paleoceanography, Scientific study of Earth’s oceanographic history involving the analysis of the ocean’s sedimentary record, the history of tectonic plate motions, glacial changes, and established relationships between present sedimentation patterns and environmental factors. For much of Earth’s early history, one vast ocean, Panthalassa, existed on Earth. Currents in this ocean would have been simple and slow, largely circulating around the supercontinent Gondwana and several smaller island-continents before the formation of Pangea, during the Carboniferous Period. At that time, the bulk of Gondwana sat below 30° S latitude, and colder conditions there allowed for the development of continental glaciers. Pangea formed during the early Permian Period; it was an enormous C-shaped landmass that stretched from pole to pole. Warm ocean currents striking the supercontinent were deflected poleward, and cold currents were deflected toward the Equator, which allowed for the development of large subtropical deserts. The Tethys seaway emerged after Pangea broke apart, connecting what would become the Pacific, Atlantic, and Indian oceans. This development once again allowed warm water to circulate globally in the lower latitudes. Modern ocean circulation patterns and basin shapes were mostly in place by the beginning of the Miocene Epoch, save for a small seaway connecting the Pacific Ocean with the Caribbean Sea, which lasted until about three million years ago. The deflection of warm equatorial currents toward the poles resumed after its closure.