Some aspects of the structure and magnetization of the oceanic crust

The structure and magnetization of the oceanic crust reflect its tectonic and magmatic evolution since its initial formation. The magnetization of the crust also provides a record of the polarity reversals and strength of the Earth's geomagnetic field. In this dissertation I first describe abso...

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Main Author:	Granot, Roi
Format:	Doctoral or Postdoctoral Thesis
Language:	unknown
Published:	eScholarship, University of California 2009
Subjects:	UCSD Dissertations Academic Earth sciences. (Discipline) Adare Adare Basin Antarctic Pacific Ross Sea Antarc* Antarctica
Online Access:	http://www.escholarship.org/uc/item/1xf8358h http://n2t.net/ark:/20775/bb1980774t

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spelling	ftcdlib:qt1xf8358h 2023-05-15T13:42:50+02:00 Some aspects of the structure and magnetization of the oceanic crust Granot, Roi 1 PDF (xiv, 97 p.) 2009-01-01 application/pdf http://www.escholarship.org/uc/item/1xf8358h http://n2t.net/ark:/20775/bb1980774t unknown eScholarship, University of California http://www.escholarship.org/uc/item/1xf8358h qt1xf8358h http://n2t.net/ark:/20775/bb1980774t public Granot, Roi. (2009). Some aspects of the structure and magnetization of the oceanic crust. UC San Diego: Retrieved from: http://www.escholarship.org/uc/item/1xf8358h UCSD Dissertations Academic Earth sciences. (Discipline) dissertation 2009 ftcdlib 2016-04-02T18:42:21Z The structure and magnetization of the oceanic crust reflect its tectonic and magmatic evolution since its initial formation. The magnetization of the crust also provides a record of the polarity reversals and strength of the Earth's geomagnetic field. In this dissertation I first describe absolute paleointensity measurements made on gabbroic rocks collected from the lower oceanic crust of the Troodos ophiolite, Cyprus. The resultant data-set provides a view into the geomagnetic field during the end of the Cretaceous normal polarity superchron (CNS, 120.6 to 83 million years ago). This data-set is then compared to the locally and globally existing data and predictions made by geodynamo numerical simulations. The results hint that the geomagnetic field had similar properties during times of frequent reversals and times of stable polarity. The second chapter of this dissertation is focused on the marine magnetic anomalies observed across the North Pacific fracture zones. Here I analyze archival and newly collected magnetic anomaly and bathymetric profiles measured across three fracture zones in the Cretaceous Quiet Zone (CNS in age). Forward and inverse modeling indicate that these anomalies arise from remanent magnetization, with enhanced remanence located on one side of each fracture zone. These long-duration enhanced zones require some long-lived asymmetry in crustal construction processes near ridge-transform intersections. The calculated magnetization contrasts provide long-term constraints on the properties of the geomagnetic field during the Cretaceous superchron. Finally, using seismic reflection and magnetic anomaly grids collected in the Adare Basin, Antarctica, I explore the kinematic evolution of the West Antarctic rift system during the Neogene. Correlation of the Adare seismic sequence to the closest drillholes and the Ross Sea seismic stratigraphy establishes the temporal framework of three regional tectonic events. Overall, minimal but significant extensional activity took place in the Adare Basin after seafloor spreading stopped. Comparison of the results with observations from the central and southern parts of the rift system suggests that a major change in plate motion took place in the middle miocene Doctoral or Postdoctoral Thesis Antarc* Antarctic Antarctica Ross Sea University of California: eScholarship Adare ENVELOPE(170.233,170.233,-71.283,-71.283) Adare Basin ENVELOPE(175.000,175.000,-71.000,-71.000) Antarctic Pacific Ross Sea
institution	Open Polar
collection	University of California: eScholarship
op_collection_id	ftcdlib
language	unknown
topic	UCSD Dissertations Academic Earth sciences. (Discipline)
spellingShingle	UCSD Dissertations Academic Earth sciences. (Discipline) Granot, Roi Some aspects of the structure and magnetization of the oceanic crust
topic_facet	UCSD Dissertations Academic Earth sciences. (Discipline)
description	The structure and magnetization of the oceanic crust reflect its tectonic and magmatic evolution since its initial formation. The magnetization of the crust also provides a record of the polarity reversals and strength of the Earth's geomagnetic field. In this dissertation I first describe absolute paleointensity measurements made on gabbroic rocks collected from the lower oceanic crust of the Troodos ophiolite, Cyprus. The resultant data-set provides a view into the geomagnetic field during the end of the Cretaceous normal polarity superchron (CNS, 120.6 to 83 million years ago). This data-set is then compared to the locally and globally existing data and predictions made by geodynamo numerical simulations. The results hint that the geomagnetic field had similar properties during times of frequent reversals and times of stable polarity. The second chapter of this dissertation is focused on the marine magnetic anomalies observed across the North Pacific fracture zones. Here I analyze archival and newly collected magnetic anomaly and bathymetric profiles measured across three fracture zones in the Cretaceous Quiet Zone (CNS in age). Forward and inverse modeling indicate that these anomalies arise from remanent magnetization, with enhanced remanence located on one side of each fracture zone. These long-duration enhanced zones require some long-lived asymmetry in crustal construction processes near ridge-transform intersections. The calculated magnetization contrasts provide long-term constraints on the properties of the geomagnetic field during the Cretaceous superchron. Finally, using seismic reflection and magnetic anomaly grids collected in the Adare Basin, Antarctica, I explore the kinematic evolution of the West Antarctic rift system during the Neogene. Correlation of the Adare seismic sequence to the closest drillholes and the Ross Sea seismic stratigraphy establishes the temporal framework of three regional tectonic events. Overall, minimal but significant extensional activity took place in the Adare Basin after seafloor spreading stopped. Comparison of the results with observations from the central and southern parts of the rift system suggests that a major change in plate motion took place in the middle miocene
format	Doctoral or Postdoctoral Thesis
author	Granot, Roi
author_facet	Granot, Roi
author_sort	Granot, Roi
title	Some aspects of the structure and magnetization of the oceanic crust
title_short	Some aspects of the structure and magnetization of the oceanic crust
title_full	Some aspects of the structure and magnetization of the oceanic crust
title_fullStr	Some aspects of the structure and magnetization of the oceanic crust
title_full_unstemmed	Some aspects of the structure and magnetization of the oceanic crust
title_sort	some aspects of the structure and magnetization of the oceanic crust
publisher	eScholarship, University of California
publishDate	2009
url	http://www.escholarship.org/uc/item/1xf8358h http://n2t.net/ark:/20775/bb1980774t
op_coverage	1 PDF (xiv, 97 p.)
long_lat	ENVELOPE(170.233,170.233,-71.283,-71.283) ENVELOPE(175.000,175.000,-71.000,-71.000)
geographic	Adare Adare Basin Antarctic Pacific Ross Sea
geographic_facet	Adare Adare Basin Antarctic Pacific Ross Sea
genre	Antarc* Antarctic Antarctica Ross Sea
genre_facet	Antarc* Antarctic Antarctica Ross Sea
op_source	Granot, Roi. (2009). Some aspects of the structure and magnetization of the oceanic crust. UC San Diego: Retrieved from: http://www.escholarship.org/uc/item/1xf8358h
op_relation	http://www.escholarship.org/uc/item/1xf8358h qt1xf8358h http://n2t.net/ark:/20775/bb1980774t
op_rights	public
_version_	1766173320405843968

Some aspects of the structure and magnetization of the oceanic crust

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