Wōdejebato
Guyot in the Marshall Islands northwest of the smaller Pikinni Atoll / From Wikipedia, the free encyclopedia
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Wōdejebato (formerly known as Sylvania) is a Cretaceous[lower-alpha 1] guyot or tablemount in the northern Marshall Islands, Pacific Ocean. Wōdejebato is probably a shield volcano and is connected through a submarine ridge to the smaller Pikinni Atoll 74 kilometres (46 mi) southeast of the guyot; unlike Wōdejebato, Pikinni rises above sea level. The seamount rises for 4,420 metres (14,500 ft) to 1,335 metres (4,380 ft) depth and is formed by basaltic rocks. The name Wōdejebato refers to a sea god of Pikinni.
Wōdejebato, Sylvania | |
---|---|
Summit depth | 1,335 metres (4,380 ft) |
Height | 4,420 metres (14,500 ft) |
Summit area | 1,200 square kilometres (462 sq mi) |
Location | |
Coordinates | 12°N 164.9°E / 12; 164.9[1] |
Country | Marshall Islands |
Geology | |
Type | Shield volcano |
Age of rock | Cenomanian and Campanian |
History | |
Discovery date | 1944 |
It was probably formed by a hotspot in what is present-day French Polynesia before plate tectonics moved it to its present-day location. The Macdonald, Rarotonga, Rurutu and Society hotspots may have been involved in its formation. The first volcanic phase took place in the Cenomanian and was followed by the formation of a carbonate platform that quickly disappeared below the sea. A second volcanic episode between 85 and 78.4 million years ago (in the Campanian) led to the formation of an island. This island was eventually eroded and rudist reefs generated an atoll or atoll-like structure, covering the former island with carbonates and thus a second carbonate platform.
The second carbonate platform drowned about 68 million years ago (in the Maastrichtian), perhaps because at that time it was moving through the equatorial area which may have been too hot or too nutrient-rich to support the growth of a coral reef. Thermal subsidence lowered the drowned seamount to its present depth. After a hiatus, sedimentation commenced on the seamount and led to the deposition of manganese crusts and pelagic sediments, some of which were later modified by phosphate.