Estimating tectonic uplift of the Cape Fear Arch (south-eastern United States) using reconstructions of Holocene relative sea level

Orson Van De Plassche; Alex J. Wright; Benjamin P. Horton; Simon E. Engelhart; Andrew C. Kemp; David Mallinson; Robert E. Kopp

doi:10.1002/jqs.2746

Estimating tectonic uplift of the Cape Fear Arch (south-eastern United States) using reconstructions of Holocene relative sea level

Orson Van De Plassche, Alex J. Wright, Benjamin P. Horton^*, Simon E. Engelhart, Andrew C. Kemp, David Mallinson, Robert E. Kopp

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

30 Citations (Scopus)

Abstract

We use relative sea-level (RSL) reconstructions and a spatiotemporal statistical model to estimate the rate of uplift of the Cape Fear Arch, a Mesozoic structural high, during the last ~4000 years. We reconstructed RSL using 12 radiocarbon-dated samples of basal salt-marsh sediment preserved at Elizabeth Creek Marsh on the Cape Fear River. The new data show that RSL rose by ~3m during the past ~4.6 ka at an average rate of 0.67±0.12mm a^-1. RSL reconstructions from other sites in southern North Carolina (which have rates of 0.91±0.10 to 0.84±0.24mm a^-1) probably show (P>0.9) higher rates of regional RSL rise for the same period, while sites from northern South Carolina (which have rates of 0.72±0.17 to 0.80±0.21mm a^-1) probably (P>0.67) show the same. We attribute the differences between Elizabeth Creek Marsh and neighboring regions to uplift of the Cape Fear Arch, which we estimate to be 0.24±0.15mm a^-1. Uplift of the arch may be responsible for lower rates of 20^th century RSL rise recorded by the Wilmington tide gauge relative to rates measured elsewhere along the US mid-Atlantic coast.

Original language	English
Pages (from-to)	749-759
Number of pages	11
Journal	Journal of Quaternary Science
Volume	29
Issue number	8
DOIs	https://doi.org/10.1002/jqs.2746
Publication status	Published - Nov 1 2014
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2014 John Wiley & Sons, Ltd.

ASJC Scopus Subject Areas

Arts and Humanities (miscellaneous)
Earth and Planetary Sciences (miscellaneous)
Palaeontology

Keywords

Cape Fear Arch
Late Holocene
Relative sea level
Salt marsh
Tectonic uplift

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10.1002/jqs.2746

Cite this

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title = "Estimating tectonic uplift of the Cape Fear Arch (south-eastern United States) using reconstructions of Holocene relative sea level",

abstract = "We use relative sea-level (RSL) reconstructions and a spatiotemporal statistical model to estimate the rate of uplift of the Cape Fear Arch, a Mesozoic structural high, during the last ~4000 years. We reconstructed RSL using 12 radiocarbon-dated samples of basal salt-marsh sediment preserved at Elizabeth Creek Marsh on the Cape Fear River. The new data show that RSL rose by ~3m during the past ~4.6 ka at an average rate of 0.67±0.12mm a-1. RSL reconstructions from other sites in southern North Carolina (which have rates of 0.91±0.10 to 0.84±0.24mm a-1) probably show (P>0.9) higher rates of regional RSL rise for the same period, while sites from northern South Carolina (which have rates of 0.72±0.17 to 0.80±0.21mm a-1) probably (P>0.67) show the same. We attribute the differences between Elizabeth Creek Marsh and neighboring regions to uplift of the Cape Fear Arch, which we estimate to be 0.24±0.15mm a-1. Uplift of the arch may be responsible for lower rates of 20th century RSL rise recorded by the Wilmington tide gauge relative to rates measured elsewhere along the US mid-Atlantic coast.",

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AU - Van De Plassche, Orson

AU - Wright, Alex J.

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AU - Engelhart, Simon E.

AU - Kemp, Andrew C.

AU - Mallinson, David

AU - Kopp, Robert E.

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AB - We use relative sea-level (RSL) reconstructions and a spatiotemporal statistical model to estimate the rate of uplift of the Cape Fear Arch, a Mesozoic structural high, during the last ~4000 years. We reconstructed RSL using 12 radiocarbon-dated samples of basal salt-marsh sediment preserved at Elizabeth Creek Marsh on the Cape Fear River. The new data show that RSL rose by ~3m during the past ~4.6 ka at an average rate of 0.67±0.12mm a-1. RSL reconstructions from other sites in southern North Carolina (which have rates of 0.91±0.10 to 0.84±0.24mm a-1) probably show (P>0.9) higher rates of regional RSL rise for the same period, while sites from northern South Carolina (which have rates of 0.72±0.17 to 0.80±0.21mm a-1) probably (P>0.67) show the same. We attribute the differences between Elizabeth Creek Marsh and neighboring regions to uplift of the Cape Fear Arch, which we estimate to be 0.24±0.15mm a-1. Uplift of the arch may be responsible for lower rates of 20th century RSL rise recorded by the Wilmington tide gauge relative to rates measured elsewhere along the US mid-Atlantic coast.

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KW - Tectonic uplift

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Estimating tectonic uplift of the Cape Fear Arch (south-eastern United States) using reconstructions of Holocene relative sea level

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

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