Quantifying the Contribution of Sediment Compaction to late Holocene Salt-Marsh Sea-Level Reconstructions, North Carolina, USA

Salt-marsh sediments provide accurate and precise reconstructions of late Holocene relative sea-level changes. However, compaction of salt-marsh stratigraphies can cause post-depositional lowering (PDL) of the samples used to reconstruct sea level, creating an estimation of former sea level that is...

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Veröffentlicht in:	Quaternary research 2015-01, Vol.83 (1), p.41-51
Hauptverfasser:	Brain, Matthew J., Kemp, Andrew C., Horton, Benjamin P., Culver, Stephen J., Parnell, Andrew C., Cahill, Niamh
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Sprache:	eng
Schlagworte:	Altitude Calibration Deposition Estimates Marine Post-depositional lowering Reconstruction Salt-marsh peat Sea level Sediments Trends Tump Point
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container_title	Quaternary research
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creator	Brain, Matthew J. Kemp, Andrew C. Horton, Benjamin P. Culver, Stephen J. Parnell, Andrew C. Cahill, Niamh
description	Salt-marsh sediments provide accurate and precise reconstructions of late Holocene relative sea-level changes. However, compaction of salt-marsh stratigraphies can cause post-depositional lowering (PDL) of the samples used to reconstruct sea level, creating an estimation of former sea level that is too low and a rate of rise that is too great. We estimated the contribution of compaction to late Holocene sea-level trends reconstructed at Tump Point, North Carolina, USA. We used a geotechnical model that was empirically calibrated by performing tests on surface sediments from modern depositional environments analogous to those encountered in the sediment core. The model generated depth-specific estimates of PDL, allowing samples to be returned to their depositional altitudes. After removing an estimate of land-level change, error-in-variables changepoint analysis of the decompacted and original sea-level reconstructions identified three trends. Compaction did not generate artificial sea-level trends and cannot be invoked as a causal mechanism for the features in the Tump Point record. The maximum relative contribution of compaction to reconstructed sea-level change was 12%. The decompacted sea-level record shows 1.71 mm yr− 1 of rise since AD 1845.
doi_str_mv	10.1016/j.yqres.2014.08.003
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The maximum relative contribution of compaction to reconstructed sea-level change was 12%. 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subjects	Altitude Calibration Deposition Estimates Marine Post-depositional lowering Reconstruction Salt-marsh peat Sea level Sediments Trends Tump Point
title	Quantifying the Contribution of Sediment Compaction to late Holocene Salt-Marsh Sea-Level Reconstructions, North Carolina, USA
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