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Stratigraphic Architecture, Morphodynamics, and Evolution of Breaches along Cedar Island, VA: A Low-profile, Washover-dominated, Trangressive Barrier Island

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dc.contributor.advisor McBride, Randolph A.
dc.contributor.author Hanley, James Thomas
dc.creator Hanley, James Thomas
dc.date.accessioned 2016-04-19T19:28:53Z
dc.date.available 2016-04-19T19:28:53Z
dc.date.issued 2015
dc.identifier.uri http://hdl.handle.net/1920/10185
dc.description.abstract Island breaching has occurred at least three times (1956, 1993, and 1998) over the past 60 years in the same place along southern Cedar Island, Virginia. Each time, the breach captured enough tidal prism to remain open, become a tidal inlet, migrated laterally to the south in the direction of net longshore sediment transport, and closed in four to nine years. Twenty-five sediment cores have been analyzed to determine the horizontal and vertical trends within the inlet throat, flood-tidal delta, and washover deposits within the repeatedly breached area. When open, the latest tidal inlet (1998–2007) had a maximum depth of 4.5 m to 2.6 m and ranged in width from 250 m to 54 m. The latest tidal inlet initially captured approximately 18% of the available tidal prism from Wachapreague Inlet, Virginia. Fifteen primary facies were identified that consist mostly of sand, shell, and mud layers. They represent four depositional environments: beach-washover-aeolian, tidal inlet, flood-tidal delta, and estuarine. The sand facies were deposited in the beach–washover–aeolian, tidal-inlet, and flood-tidal delta environments; the shell facies were deposited in the beach–washover–aeolian environment and at the base of the tidal-inlet environment (channel floor); and the mud facies were deposited only in the estuarine environment. The gross sedimentology (shell, sand, silt, and clay) of the tidal-inlet fill sediments typically showed a fining-upward succession with a coarse shell lag at the channel base and grading upward to fine sand. However, the vertical grain-size trends of some sediment cores coarsened upward based on the sand, silt, and clay fractions.
dc.format.extent 393 pages
dc.language.iso en
dc.rights Copyright 2015 James Thomas Hanley
dc.subject Geology
dc.subject Sedimentary geology
dc.subject Marine geology
dc.subject breach evolution
dc.subject Cedar Island Inlet
dc.subject Cedar Island
dc.subject VA
dc.subject ephemeral tidal inlet
dc.subject morphodynamics
dc.subject stratigrahic architecture
dc.title Stratigraphic Architecture, Morphodynamics, and Evolution of Breaches along Cedar Island, VA: A Low-profile, Washover-dominated, Trangressive Barrier Island
dc.type Dissertation en
thesis.degree.level Doctoral en
thesis.degree.discipline Environmental Science and Policy en
thesis.degree.grantor George Mason University en


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