Panthalassa

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The blue ocean surrounding Pangaea is Panthalassa

Panthalassa (Greek πᾶν "all" and θάλασσα "ocean"[1]), also known as the Panthalassic Ocean, was the vast global ocean that surrounded the supercontinent Pangaea, during the late Paleozoic and the early Mesozoic years. It included the Pacific Ocean to the west and north and the Tethys Ocean to the southeast. It became the Pacific Ocean, following the closing of the Tethys basin and the breakup of Pangaea, which created the Atlantic, Arctic, and Indian Ocean basins. The Panthalassic is often called the Paleo-Pacific ("old Pacific") because the Pacific Ocean developed from it in the Mesozoic to the Present.

In the map on the right, the Earth's equator was a line that roughly crossed the spot where Spain, Casablanca (Morocco) and Boston (U.S.) met. South of that line, the land mass is referred to as Gondwana. North of the line, it is referred to as Laurasia.

In the map on the right, the Panthalassa Ocean is depicted as an empty ocean. Plate tectonic studies[1] have argued that during the Paleozoic and Mesozoic small fragments, or terranes, (currently preserved at the North American and Asian margins), were drifting across the ocean until they accreted at the surrounding continental margins.

Formation

By 900 million years ago (in the early Neoproterozoic) a triple junction formed as the supercontinent Rodinia started to rift apart. Between about 800 million and 700 million years ago, it split in half. This was one of the most significant rifting events of all time, because it opened up the Panthalassic Ocean to the west of Laurentia, a continent that became North America.

In western Laurentia (North America), tectonic episode that preceded this rifting produced failed rifts that harbored large depositional basins in Western Laurentia. The global ocean of Mirovia, an ocean that surrounded Rodinia, started to shrink because the Pan-African ocean and Panthalassa were expanding.

Between 650 million and 550 million years ago, another supercontinent was forming, Pannotia, which was shaped like a "V". Inside the "V" was Panthalassa, outside of the "V" was the Pan-African Ocean and remnants of the Mirovia Ocean.

Reconstruction of ocean basin

Based on seismic tomography, subducted plates that are imaged in the mantle indicate that at least several different oceans or seas can be defined in the Panthalassa Ocean separated by intra-oceanic subduction zones[2] (i.e. Wrangellia, Stikinia and Telkhinia during the Triassic and Jurassic). The two main oceans in the centre are named Pontus Ocean in the west, of which its oceanic plates completely subducted over time and Thalassa Ocean in the east, hosting the Farallon Plate, Phoenix Plate, Izanagi Plate and later Pacific Plate. Peripheral oceans or seas have been named (clockwise) Mongol-Okhotsk Ocean, Oimyakon Ocean,[3] Slide Mountain Ocean[3] and Mezcalera Ocean. The transition to the Tethys Ocean in the west occurs via a number of undocumented oceans,[2] of which the Cretaceous Junction Plate[4] is a successor.

Current state

Most of Panthalassa's oceanic basin and crust has been subducted under the North American plate, and the Eurasian Plate.

Panthalassa's oceanic plate remnants may be the Juan de Fuca, Gorda, Cocos and the Nazca plates, all four of which were part of the Farallon Plate.

The Pacific Ocean evolved from Panthalassa after the breakup of the supercontinent of Pangaea, which in Greek means, "all the earth."

See also

References

  1. "Panthalassa". Online Etymology Dictionary. 
  2. 2.0 2.1 van der Meer, D.G., Torsvik, T.H., Spakman, W., van Hinsbergen, D.J.J. and Amaru, M.L., 2012 Intra-Panthalassa Ocean subduction zones revealed by fossil arcs and mantle structure, Nature Geoscience 5, p. 215-219
  3. 3.0 3.1 Nokleberg, W.J. et al. Phanerozoic tectonic evolution of the circum-north Pacific. USGS 231 Professional Paper 1626, (2000). http://pubs.usgs.gov/pp/2000/1626/pp1626.pdf
  4. Talsma, A., Müller, R.D., Bunge, H.-P. and Seton, M., 2010, The Geodynamic Evolution of the Junction Plate: Linking observations to high-resolution models, 4th eResearch Australasia Conference

External links

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