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Easter hotspot

From Wikipedia, the free encyclopedia

The Easter hotspot (#7) on the map

TheEaster hotspot is avolcanichotspot located in the southeasternPacific Ocean. The hotspot created the Sala y Gómez Ridge which includesEaster Island,Salas y Gómez Island and thePukaoseamount.

Geography

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The Easter hotspot is avolcanichotspot located in the southeasternPacific Ocean, and forms part of the Easter–Sala y Gómez volcanic chain, stretching over 4,000 km (2,500 mi) across theNazca Plate.Easter andSalas y Gómez Island mark the emergent tips of massive undersea volcanoes along the ridge. There is evidence of the presence of more than 3,000 volcanic centers.[1] Detailed morphological analysis using bathymetric data identified sea mounts that are more than 1,000 m (3,300 ft) high that are aligned and spread along the chain, while smaller ones with circular bases are scattered across the area.[2]

Geology

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The region’s volcanism is thus shaped by both deep mantle forces and dynamic plate tectonic activity.[1] It was created by themantle plume, is one of the longest volcanic chains in theEaster Microplate of the Pacific Ocean. The mantle plume feeding this hotspot comes from about 600 km (370 mi) deep inside the Earth. This plume pushes westward on the nearby East Pacific Rise (a major mid-ocean ridge) while its most buoyant part causes volcanic activity on the sea floor giving rise to islands like Easter Island. It is considered to be the surface tip of a much bigger, deep mantle structure connected to the Pacific Large Low Shear Velocity Province.[3] Easter Island is an example of an end-member type of hotspot volcano, characterized by low eruptive rate, immature rift zones, and scarce sector collapses.[4] The hotspot might also have contributed to the formation of theTuamotu Archipelago,Line Islands, and the chain of seamounts lying in between.[5]

Researchers discoveredzircon crystals in Easter Island sediments that are up to 165 million years old than the island’s own volcanic rocks aged to 2.5 million years and its underlying seafloor formed 3 to 4.8 million years ago. These zircons show geochemical signatures typical of deep mantle plume activity.[6]

See also

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References

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  1. ^ab"The Easter – Sala y Gomez Volcanic Chain".Mantle Plumes. Retrieved1 June 2025.
  2. ^Origin of the Easter Submarine Alignment: morphology and structural lineaments(PDF).Scielo (Report). Retrieved1 June 2025.
  3. ^John M O’Connor; Marcel Regelous; Karsten M Haase (November 2017)."Synchronous motion of the Easter mantle plume and the East Pacific Rise".Nat Commun.15.doi:10.1038/s41467-024-54115-2.PMC 11570642.
  4. ^Vezzoli, Luigina; Acocella, Valerio (1 May 2009)."Easter Island, SE Pacific: An end-member type of hotspot volcanism".GSA Bulletin.121 (5–6):869–886.Bibcode:2009GSAB..121..869V.doi:10.1130/B26470.1.ISSN 0016-7606.
  5. ^W. J. Morgan (1971)."Convection Plumes in the Lower Mantle".Nature.230 (5288):42–43.Bibcode:1971Natur.230...42M.doi:10.1038/230042a0.S2CID 4145715.
  6. ^Zircon xenocrysts from Easter Island (Rapa Nui) reveal hotspot activity since the middle Jurassic.Authorea (Report). Retrieved1 June 2025.

External links

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Antarctic plate
African plate
Eurasian plate
Indo-Australian plate
Nazca plate
North American plate
Pacific plate
South American plate
Proposed mechanisms:Mantle plume ·Plate theory
‹ Thetemplate below (Culture of Easter Island) is being considered for merging with Easter Island. Seetemplates for discussion to help reach a consensus. ›
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