Thermal Development and Rejuvenation of the Marginal Plateaus Along the Transtensional Volcanic Margins of the Norwegian-Greenland Sea

The predominance of large-scale paleo-shear zones in the Norwegian-Greenland Sea is thought to be the major cause of asymmetric seafloor spreading in this region. Plate reconstructions suggest that nascent mid-ocean ridges propagated into these obliquely oriented shear zones causing transtension to...

Full description

Bibliographic Details
Main Author: Okay, Nilgun
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: CUNY Academic Works 1995
Subjects:
Environmental Sciences
Greenland
Jan Mayen
Jan Mayen Fracture Zone
Knipovich Ridge
Mosby Peak
Nordaustlandet
Senja
Svalbard
Yermak Plateau
Greenland Sea
Yermak plateau
Spitsbergen
Online Access:https://academicworks.cuny.edu/gc_etds/3901
https://academicworks.cuny.edu/cgi/viewcontent.cgi?article=4964&context=gc_etds
id ftcityunivny:oai:academicworks.cuny.edu:gc_etds-4964
record_format openpolar
spelling ftcityunivny:oai:academicworks.cuny.edu:gc_etds-4964 2023-05-15T16:27:29+02:00 Thermal Development and Rejuvenation of the Marginal Plateaus Along the Transtensional Volcanic Margins of the Norwegian-Greenland Sea Okay, Nilgun 1995-01-01T08:00:00Z application/pdf https://academicworks.cuny.edu/gc_etds/3901 https://academicworks.cuny.edu/cgi/viewcontent.cgi?article=4964&context=gc_etds English eng CUNY Academic Works https://academicworks.cuny.edu/gc_etds/3901 https://academicworks.cuny.edu/cgi/viewcontent.cgi?article=4964&context=gc_etds Dissertations, Theses, and Capstone Projects Environmental Sciences dissertation 1995 ftcityunivny 2021-09-18T22:16:20Z The predominance of large-scale paleo-shear zones in the Norwegian-Greenland Sea is thought to be the major cause of asymmetric seafloor spreading in this region. Plate reconstructions suggest that nascent mid-ocean ridges propagated into these obliquely oriented shear zones causing transtension to occur. The asymmetric evolution of the northern Norwegian-Greenland Sea is evident from both the morphology of the seafloor as well as its geophysical characteristics. The eastern passive margins of the northern Norwegian-Greenland Sea are punctuated by volcanic plateaus which have significantly higher heat flow than the western passive margins. It is hypothesized that marginal volcanic plateaus formed originally in response to deviatoric stress developed at nascent mid-ocean ridge/shear zone intersections along transtensional margins causing lava to pond upwards on the eastern flank of the intersections. In addition, not only did paleo-shear zones serve as loci for the extrusion of seafloor basalts, but the distal limbs of these shear zones appear to be present-day sites for the emanation of heat from the seafloor thus thermally rejuvenating the eastern margins in the process. Heat flow analyses suggest that the thermal interactions between the Aegir and paleo-Mohns Ridges with the Eastern Jan Mayen Fracture Zone System created the Voring Plateau and rejuvenated the adjacent continental crust (to a thermal age of 16 my). The subsequent northward propagation of the paleo-Mohns Ridge into/and along the paleo-Senja Shear Zone, probably underplated the Svalbard Platform, and thus caused a broad thermal swell in the region. Multiple intrusions from this northward propagating asthenosphere probably occurred along deep-seated faults in and adjacent to the Svalbard Platform and the northern Svalbard-Nordaustlandet margin. Thermal modeling results also reveal that a secondary detachment fault system cuts the southern Yermak Plateau and intersects the Spitsbergen Shear Zone and could have acted as a conduit for the upward propagation of the Knipovich Ridge-related asthenosphere. Recent northward propagation of the Knipovich Ridge caused rejuvenation of the southern Yermak Plateau (35-11 mybp). SeaMARC-II, and geophysical data also suggest diffuse intrusion and thermal rejuvenation along the northern Svalbard-Nordaustlandet margin creating the Yermak Seamount, Mosby Peak and the Nordaustlandet Volcanic Terrain (30-37 mybp) in the process. Doctoral or Postdoctoral Thesis Greenland Greenland Sea Jan Mayen Nordaustlandet Svalbard Yermak plateau Spitsbergen City University of New York: CUNY Academic Works Greenland Jan Mayen Jan Mayen Fracture Zone ENVELOPE(-8.000,-8.000,71.200,71.200) Knipovich Ridge ENVELOPE(7.074,7.074,75.712,75.712) Mosby Peak ENVELOPE(3.307,3.307,-54.424,-54.424) Nordaustlandet ENVELOPE(22.400,22.400,79.800,79.800) Senja ENVELOPE(16.803,16.803,69.081,69.081) Svalbard Svalbard ENVELOPE(20.000,20.000,78.000,78.000) Yermak Plateau ENVELOPE(5.000,5.000,81.250,81.250)
institution Open Polar
collection City University of New York: CUNY Academic Works
op_collection_id ftcityunivny
language English
topic Environmental Sciences
spellingShingle Environmental Sciences
Okay, Nilgun
Thermal Development and Rejuvenation of the Marginal Plateaus Along the Transtensional Volcanic Margins of the Norwegian-Greenland Sea
topic_facet Environmental Sciences
description The predominance of large-scale paleo-shear zones in the Norwegian-Greenland Sea is thought to be the major cause of asymmetric seafloor spreading in this region. Plate reconstructions suggest that nascent mid-ocean ridges propagated into these obliquely oriented shear zones causing transtension to occur. The asymmetric evolution of the northern Norwegian-Greenland Sea is evident from both the morphology of the seafloor as well as its geophysical characteristics. The eastern passive margins of the northern Norwegian-Greenland Sea are punctuated by volcanic plateaus which have significantly higher heat flow than the western passive margins. It is hypothesized that marginal volcanic plateaus formed originally in response to deviatoric stress developed at nascent mid-ocean ridge/shear zone intersections along transtensional margins causing lava to pond upwards on the eastern flank of the intersections. In addition, not only did paleo-shear zones serve as loci for the extrusion of seafloor basalts, but the distal limbs of these shear zones appear to be present-day sites for the emanation of heat from the seafloor thus thermally rejuvenating the eastern margins in the process. Heat flow analyses suggest that the thermal interactions between the Aegir and paleo-Mohns Ridges with the Eastern Jan Mayen Fracture Zone System created the Voring Plateau and rejuvenated the adjacent continental crust (to a thermal age of 16 my). The subsequent northward propagation of the paleo-Mohns Ridge into/and along the paleo-Senja Shear Zone, probably underplated the Svalbard Platform, and thus caused a broad thermal swell in the region. Multiple intrusions from this northward propagating asthenosphere probably occurred along deep-seated faults in and adjacent to the Svalbard Platform and the northern Svalbard-Nordaustlandet margin. Thermal modeling results also reveal that a secondary detachment fault system cuts the southern Yermak Plateau and intersects the Spitsbergen Shear Zone and could have acted as a conduit for the upward propagation of the Knipovich Ridge-related asthenosphere. Recent northward propagation of the Knipovich Ridge caused rejuvenation of the southern Yermak Plateau (35-11 mybp). SeaMARC-II, and geophysical data also suggest diffuse intrusion and thermal rejuvenation along the northern Svalbard-Nordaustlandet margin creating the Yermak Seamount, Mosby Peak and the Nordaustlandet Volcanic Terrain (30-37 mybp) in the process.
format Doctoral or Postdoctoral Thesis
author Okay, Nilgun
author_facet Okay, Nilgun
author_sort Okay, Nilgun
title Thermal Development and Rejuvenation of the Marginal Plateaus Along the Transtensional Volcanic Margins of the Norwegian-Greenland Sea
title_short Thermal Development and Rejuvenation of the Marginal Plateaus Along the Transtensional Volcanic Margins of the Norwegian-Greenland Sea
title_full Thermal Development and Rejuvenation of the Marginal Plateaus Along the Transtensional Volcanic Margins of the Norwegian-Greenland Sea
title_fullStr Thermal Development and Rejuvenation of the Marginal Plateaus Along the Transtensional Volcanic Margins of the Norwegian-Greenland Sea
title_full_unstemmed Thermal Development and Rejuvenation of the Marginal Plateaus Along the Transtensional Volcanic Margins of the Norwegian-Greenland Sea
title_sort thermal development and rejuvenation of the marginal plateaus along the transtensional volcanic margins of the norwegian-greenland sea
publisher CUNY Academic Works
publishDate 1995
url https://academicworks.cuny.edu/gc_etds/3901
https://academicworks.cuny.edu/cgi/viewcontent.cgi?article=4964&context=gc_etds
long_lat ENVELOPE(-8.000,-8.000,71.200,71.200)
ENVELOPE(7.074,7.074,75.712,75.712)
ENVELOPE(3.307,3.307,-54.424,-54.424)
ENVELOPE(22.400,22.400,79.800,79.800)
ENVELOPE(16.803,16.803,69.081,69.081)
ENVELOPE(20.000,20.000,78.000,78.000)
ENVELOPE(5.000,5.000,81.250,81.250)
geographic Greenland
Jan Mayen
Jan Mayen Fracture Zone
Knipovich Ridge
Mosby Peak
Nordaustlandet
Senja
Svalbard
Svalbard
Yermak Plateau
geographic_facet Greenland
Jan Mayen
Jan Mayen Fracture Zone
Knipovich Ridge
Mosby Peak
Nordaustlandet
Senja
Svalbard
Svalbard
Yermak Plateau
genre Greenland
Greenland Sea
Jan Mayen
Nordaustlandet
Svalbard
Yermak plateau
Spitsbergen
genre_facet Greenland
Greenland Sea
Jan Mayen
Nordaustlandet
Svalbard
Yermak plateau
Spitsbergen
op_source Dissertations, Theses, and Capstone Projects
op_relation https://academicworks.cuny.edu/gc_etds/3901
https://academicworks.cuny.edu/cgi/viewcontent.cgi?article=4964&context=gc_etds
_version_ 1766016660914831360

Similar Items