Shear Velocity Structure of the Mantle Beneath the North American Plate
The long-period tangential components of seismograms recorded by the WWSS network over the last 20 years are used to constrain the shear velocity variations in the mantle beneath the North American plate. The first two chapters derive vertical shear velocity profiles beneath three tectonic provinces...
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ftcaltechdiss:oai:thesis.library.caltech.edu:11821 2023-09-05T13:22:01+02:00 Shear Velocity Structure of the Mantle Beneath the North American Plate Grand, Stephen Pierre 1986 application/pdf https://thesis.library.caltech.edu/11821/ https://thesis.library.caltech.edu/11821/2/Grand_SP_1986.pdf https://resolver.caltech.edu/CaltechTHESIS:10172019-145940396 en eng https://thesis.library.caltech.edu/11821/2/Grand_SP_1986.pdf Grand, Stephen Pierre (1986) Shear Velocity Structure of the Mantle Beneath the North American Plate. Dissertation (Ph.D.), California Institute of Technology. doi:10.7907/xqhn-dj49. https://resolver.caltech.edu/CaltechTHESIS:10172019-145940396 <https://resolver.caltech.edu/CaltechTHESIS:10172019-145940396> other Thesis NonPeerReviewed 1986 ftcaltechdiss https://doi.org/10.7907/xqhn-dj49 2023-08-14T17:30:04Z The long-period tangential components of seismograms recorded by the WWSS network over the last 20 years are used to constrain the shear velocity variations in the mantle beneath the North American plate. The first two chapters derive vertical shear velocity profiles beneath three tectonic provinces: the East Pacific Rise, the Canadian shield and the old northwest Atlantic ocean. The SH motion seismograms were interpreted as multi-bounce shear bodywaves and use was made of Cagniard-de Hoop and WKBJ synthetic seismogram techniques to model the data with the assumption that the structure within each province was laterally homogeneous. The three models were constructed such that the S-waves and up to 4 minutes of later arrivals in the data were fit in terms of travel-time, phase and amplitude. The most useful arrival in the study was the SS phase. The three regions studied were found to have very similar structure below 400 km depth. Anomalously large increases in velocity of about 6.5% from 375 to 425 km depth and 11% from 625 to 700 km depth were found beneath each tectonic area with no indication of lateral variations in the structures. These high gradient zones were modeled as discontinuities of 4.5% at 405 km depth and 7.5% at 660 km depth. Other common features of the models are a high gradient from 425 to 625 km depth and an anomalously high gradient beneath the discontinuity at 660 km depth to about 750 km depth. Above 400 km depth, large lateral differences in structure exist beneath the three provinces. Velocities beneath the shield were found to be about 10% higher at 100 km depth, 5% higher at 200 km depth and 3% higher at 300 km depth, relative to the Rise model. The old Atlantic has high velocities to about 100 km depth, but below 150 km the structure is similar to that beneath the East Pacific Rise. The shield model has a very low gradient and high velocity in the upper 175 km. The velocity decreases by about 3% at 200 km depth with a low gradient below to 400 km depth. Beneath the Atlantic and East ... Thesis Northwest Atlantic CaltechTHESIS (California Institute of Technology Pacific |
institution |
Open Polar |
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CaltechTHESIS (California Institute of Technology |
op_collection_id |
ftcaltechdiss |
language |
English |
description |
The long-period tangential components of seismograms recorded by the WWSS network over the last 20 years are used to constrain the shear velocity variations in the mantle beneath the North American plate. The first two chapters derive vertical shear velocity profiles beneath three tectonic provinces: the East Pacific Rise, the Canadian shield and the old northwest Atlantic ocean. The SH motion seismograms were interpreted as multi-bounce shear bodywaves and use was made of Cagniard-de Hoop and WKBJ synthetic seismogram techniques to model the data with the assumption that the structure within each province was laterally homogeneous. The three models were constructed such that the S-waves and up to 4 minutes of later arrivals in the data were fit in terms of travel-time, phase and amplitude. The most useful arrival in the study was the SS phase. The three regions studied were found to have very similar structure below 400 km depth. Anomalously large increases in velocity of about 6.5% from 375 to 425 km depth and 11% from 625 to 700 km depth were found beneath each tectonic area with no indication of lateral variations in the structures. These high gradient zones were modeled as discontinuities of 4.5% at 405 km depth and 7.5% at 660 km depth. Other common features of the models are a high gradient from 425 to 625 km depth and an anomalously high gradient beneath the discontinuity at 660 km depth to about 750 km depth. Above 400 km depth, large lateral differences in structure exist beneath the three provinces. Velocities beneath the shield were found to be about 10% higher at 100 km depth, 5% higher at 200 km depth and 3% higher at 300 km depth, relative to the Rise model. The old Atlantic has high velocities to about 100 km depth, but below 150 km the structure is similar to that beneath the East Pacific Rise. The shield model has a very low gradient and high velocity in the upper 175 km. The velocity decreases by about 3% at 200 km depth with a low gradient below to 400 km depth. Beneath the Atlantic and East ... |
format |
Thesis |
author |
Grand, Stephen Pierre |
spellingShingle |
Grand, Stephen Pierre Shear Velocity Structure of the Mantle Beneath the North American Plate |
author_facet |
Grand, Stephen Pierre |
author_sort |
Grand, Stephen Pierre |
title |
Shear Velocity Structure of the Mantle Beneath the North American Plate |
title_short |
Shear Velocity Structure of the Mantle Beneath the North American Plate |
title_full |
Shear Velocity Structure of the Mantle Beneath the North American Plate |
title_fullStr |
Shear Velocity Structure of the Mantle Beneath the North American Plate |
title_full_unstemmed |
Shear Velocity Structure of the Mantle Beneath the North American Plate |
title_sort |
shear velocity structure of the mantle beneath the north american plate |
publishDate |
1986 |
url |
https://thesis.library.caltech.edu/11821/ https://thesis.library.caltech.edu/11821/2/Grand_SP_1986.pdf https://resolver.caltech.edu/CaltechTHESIS:10172019-145940396 |
geographic |
Pacific |
geographic_facet |
Pacific |
genre |
Northwest Atlantic |
genre_facet |
Northwest Atlantic |
op_relation |
https://thesis.library.caltech.edu/11821/2/Grand_SP_1986.pdf Grand, Stephen Pierre (1986) Shear Velocity Structure of the Mantle Beneath the North American Plate. Dissertation (Ph.D.), California Institute of Technology. doi:10.7907/xqhn-dj49. https://resolver.caltech.edu/CaltechTHESIS:10172019-145940396 <https://resolver.caltech.edu/CaltechTHESIS:10172019-145940396> |
op_rights |
other |
op_doi |
https://doi.org/10.7907/xqhn-dj49 |
_version_ |
1776202559782912000 |