Seamount volcanism along the Gakkel Ridge, Arctic Ocean

The Gakkel Ridge in the Arctic Ocean is the slowest spreading portion of the global midocean ridge system. Total spreading rates vary from 12.8 mm yr−1 near Greenland to 6.5 mm yr−1 at the Siberian margin. Melting models predict a dramatic decrease in magma production and resulting crustal thickness...

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Bibliographic Details
Main Author: Cochran, James R.
Format: Article in Journal/Newspaper
Language:English
Published: 2008
Subjects:
Geophysics
Marine geophysics
Geomorphology
Seamounts
Mid-ocean ridges
Volcanism
Arctic
Arctic Ocean
Greenland
Mid-Atlantic Ridge
Gakkel Ridge
Online Access:https://doi.org/10.7916/d8-893z-cs08
id ftcolumbiauniv:oai:academiccommons.columbia.edu:10.7916/d8-893z-cs08
record_format openpolar
spelling ftcolumbiauniv:oai:academiccommons.columbia.edu:10.7916/d8-893z-cs08 2023-05-15T15:06:52+02:00 Seamount volcanism along the Gakkel Ridge, Arctic Ocean Cochran, James R. 2008 https://doi.org/10.7916/d8-893z-cs08 English eng https://doi.org/10.7916/d8-893z-cs08 Geophysics Marine geophysics Geomorphology Seamounts Mid-ocean ridges Volcanism Articles 2008 ftcolumbiauniv https://doi.org/10.7916/d8-893z-cs08 2019-06-29T22:19:36Z The Gakkel Ridge in the Arctic Ocean is the slowest spreading portion of the global midocean ridge system. Total spreading rates vary from 12.8 mm yr−1 near Greenland to 6.5 mm yr−1 at the Siberian margin. Melting models predict a dramatic decrease in magma production and resulting crustal thickness at these low spreading rates. At slow spreading ridges, small volcanic seamounts are a dominant morphologic feature of the rift valley floor and an important mechanism in building the oceanic crust. This study quantitatively investigates the extent, nature and distribution of seamount volcanism at the ultraslow Gakkel Ridge, the manner in which it varies along the ridge axis and the relationship of the volcanoes to the larger scale rift morphology. A numerical algorithm is used to identify and characterize isolated volcanic edifices by searching gridded swath-bathymetry data for closed concentric contours protruding above the surrounding seafloor. A maximum likelihood model is used to estimate the total number of seamounts and the characteristic height within different seamount populations. Both the number and size of constructional volcanic features is greatly reduced at the Gakkel Ridge compared with the Mid-Atlantic Ridge (MAR). The density of seamounts (number/area) on the rift valley floor of the Western Volcanic Zone (WVZ) is ∼55% that of the MAR. The observed volcanoes are also much smaller, so, the amount of erupted material is greatly reduced compared with the MAR. However, the WVZ is still able to maintain a MAR-like morphology with axial volcanic ridges, volcanoes scattered on the valley floor and rift valley walls consisting of high-angle faults. Seamount density at the Eastern Volcanic Zone (EVZ) is ∼45% that of the WVZ (∼25% that of the MAR). Seamounts are clustered at the widely spaced magmatic centers characteristic of the EVZ, although some seamounts are found between magmatic centers. These seamounts tend to be located at the edge of the rift valley or on the valley walls rather than on the valley floor. Seamounts in the Sparsely Magmatic Zone (SMZ) are located almost entirely at the 19◦E magmatic center with none observed within a 185 km-long portion of the rift valley floor. The EVZ and SMZ appear to display a mode of crustal accretion, characterized by extreme focusing of melt to the magmatic centers. Magmas erupted between the magmatic centers appear to have ascended along faults. This is very different from what is observed at the WVZ (or the MAR), and there is a threshold transition between the two modes of crustal accretion. At the Gakkel Ridge, the location of the transition appears to be localized by a boundary in mantle composition. Article in Journal/Newspaper Arctic Arctic Ocean Greenland Columbia University: Academic Commons Arctic Arctic Ocean Greenland Mid-Atlantic Ridge Gakkel Ridge ENVELOPE(90.000,90.000,87.000,87.000)
institution Open Polar
collection Columbia University: Academic Commons
op_collection_id ftcolumbiauniv
language English
topic Geophysics
Marine geophysics
Geomorphology
Seamounts
Mid-ocean ridges
Volcanism
spellingShingle Geophysics
Marine geophysics
Geomorphology
Seamounts
Mid-ocean ridges
Volcanism
Cochran, James R.
Seamount volcanism along the Gakkel Ridge, Arctic Ocean
topic_facet Geophysics
Marine geophysics
Geomorphology
Seamounts
Mid-ocean ridges
Volcanism
description The Gakkel Ridge in the Arctic Ocean is the slowest spreading portion of the global midocean ridge system. Total spreading rates vary from 12.8 mm yr−1 near Greenland to 6.5 mm yr−1 at the Siberian margin. Melting models predict a dramatic decrease in magma production and resulting crustal thickness at these low spreading rates. At slow spreading ridges, small volcanic seamounts are a dominant morphologic feature of the rift valley floor and an important mechanism in building the oceanic crust. This study quantitatively investigates the extent, nature and distribution of seamount volcanism at the ultraslow Gakkel Ridge, the manner in which it varies along the ridge axis and the relationship of the volcanoes to the larger scale rift morphology. A numerical algorithm is used to identify and characterize isolated volcanic edifices by searching gridded swath-bathymetry data for closed concentric contours protruding above the surrounding seafloor. A maximum likelihood model is used to estimate the total number of seamounts and the characteristic height within different seamount populations. Both the number and size of constructional volcanic features is greatly reduced at the Gakkel Ridge compared with the Mid-Atlantic Ridge (MAR). The density of seamounts (number/area) on the rift valley floor of the Western Volcanic Zone (WVZ) is ∼55% that of the MAR. The observed volcanoes are also much smaller, so, the amount of erupted material is greatly reduced compared with the MAR. However, the WVZ is still able to maintain a MAR-like morphology with axial volcanic ridges, volcanoes scattered on the valley floor and rift valley walls consisting of high-angle faults. Seamount density at the Eastern Volcanic Zone (EVZ) is ∼45% that of the WVZ (∼25% that of the MAR). Seamounts are clustered at the widely spaced magmatic centers characteristic of the EVZ, although some seamounts are found between magmatic centers. These seamounts tend to be located at the edge of the rift valley or on the valley walls rather than on the valley floor. Seamounts in the Sparsely Magmatic Zone (SMZ) are located almost entirely at the 19◦E magmatic center with none observed within a 185 km-long portion of the rift valley floor. The EVZ and SMZ appear to display a mode of crustal accretion, characterized by extreme focusing of melt to the magmatic centers. Magmas erupted between the magmatic centers appear to have ascended along faults. This is very different from what is observed at the WVZ (or the MAR), and there is a threshold transition between the two modes of crustal accretion. At the Gakkel Ridge, the location of the transition appears to be localized by a boundary in mantle composition.
format Article in Journal/Newspaper
author Cochran, James R.
author_facet Cochran, James R.
author_sort Cochran, James R.
title Seamount volcanism along the Gakkel Ridge, Arctic Ocean
title_short Seamount volcanism along the Gakkel Ridge, Arctic Ocean
title_full Seamount volcanism along the Gakkel Ridge, Arctic Ocean
title_fullStr Seamount volcanism along the Gakkel Ridge, Arctic Ocean
title_full_unstemmed Seamount volcanism along the Gakkel Ridge, Arctic Ocean
title_sort seamount volcanism along the gakkel ridge, arctic ocean
publishDate 2008
url https://doi.org/10.7916/d8-893z-cs08
long_lat ENVELOPE(90.000,90.000,87.000,87.000)
geographic Arctic
Arctic Ocean
Greenland
Mid-Atlantic Ridge
Gakkel Ridge
geographic_facet Arctic
Arctic Ocean
Greenland
Mid-Atlantic Ridge
Gakkel Ridge
genre Arctic
Arctic Ocean
Greenland
genre_facet Arctic
Arctic Ocean
Greenland
op_relation https://doi.org/10.7916/d8-893z-cs08
op_doi https://doi.org/10.7916/d8-893z-cs08
_version_ 1766338440113160192

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