Overpressure and Earthquake Initiated Slope Failure in the Ursa Region, Northern Gulf of Mexico

Overpressure and Earthquake Initiated Slope Failure in the Ursa Region, Northern Gulf of Mexico

We use two-dimensional fluid flow and slope stability models to study the evolution of overpressure and slope stability in the Ursa region, northern Gulf of Mexico. Our model predictions match measured overpressures from Integrated Ocean Drilling Project Expedition 308 Site U1324 above 200 mbsf, but...

Full description

Bibliographic Details
Other Authors: Dugan, Brandon
Format: Others
Language:English
Published: 2013
Online Access:http://hdl.handle.net/1911/70969
id ndltd-RICE-oai-scholarship.rice.edu-1911-70969
record_format oai_dc
spelling ndltd-RICE-oai-scholarship.rice.edu-1911-709692013-04-30T03:51:35ZOverpressure and Earthquake Initiated Slope Failure in the Ursa Region, Northern Gulf of MexicoWe use two-dimensional fluid flow and slope stability models to study the evolution of overpressure and slope stability in the Ursa region, northern Gulf of Mexico. Our model predictions match measured overpressures from Integrated Ocean Drilling Project Expedition 308 Site U1324 above 200 mbsf, but overpredicts deeper overpressures by 0.4-1.1 MPa. Slope stability models predict a slope failure at 61 ka on the eastern end of the Ursa region. This predicted failure corresponds to a mass transport deposit (MTD) that has been interpreted as a retrogressive failure initiated by high overpressure. Overpressure alone could not drive failure of a second MTD at ~27 ka. We predict that a magnitude 5 earthquake within 140 km of the Ursa region would initiate this failure. We conclude that overpressure could drive submarine slope failures and horizontal acceleration from earthquakes can further facilitate this process.Dugan, Brandon2013-04-24T21:02:13Z2013-04-24T21:02:13Z2010thesistext54 p.application/pdfhttp://hdl.handle.net/1911/70969eng
collection NDLTD
language English
format Others
sources NDLTD
description We use two-dimensional fluid flow and slope stability models to study the evolution of overpressure and slope stability in the Ursa region, northern Gulf of Mexico. Our model predictions match measured overpressures from Integrated Ocean Drilling Project Expedition 308 Site U1324 above 200 mbsf, but overpredicts deeper overpressures by 0.4-1.1 MPa. Slope stability models predict a slope failure at 61 ka on the eastern end of the Ursa region. This predicted failure corresponds to a mass transport deposit (MTD) that has been interpreted as a retrogressive failure initiated by high overpressure. Overpressure alone could not drive failure of a second MTD at ~27 ka. We predict that a magnitude 5 earthquake within 140 km of the Ursa region would initiate this failure. We conclude that overpressure could drive submarine slope failures and horizontal acceleration from earthquakes can further facilitate this process.
author2 Dugan, Brandon
author_facet Dugan, Brandon
title Overpressure and Earthquake Initiated Slope Failure in the Ursa Region, Northern Gulf of Mexico
spellingShingle Overpressure and Earthquake Initiated Slope Failure in the Ursa Region, Northern Gulf of Mexico
title_short Overpressure and Earthquake Initiated Slope Failure in the Ursa Region, Northern Gulf of Mexico
title_full Overpressure and Earthquake Initiated Slope Failure in the Ursa Region, Northern Gulf of Mexico
title_fullStr Overpressure and Earthquake Initiated Slope Failure in the Ursa Region, Northern Gulf of Mexico
title_full_unstemmed Overpressure and Earthquake Initiated Slope Failure in the Ursa Region, Northern Gulf of Mexico
title_sort overpressure and earthquake initiated slope failure in the ursa region, northern gulf of mexico
publishDate 2013
url http://hdl.handle.net/1911/70969
_version_ 1716584917206302720

Similar Items