Late Holocene sea- and land-level change on the U.S. southeastern Atlantic coast

Andrew C. Kemp; Christopher E. Bernhardt; Benjamin P. Horton; Robert E. Kopp; Christopher H. Vane; W. Richard Peltier; Andrea D. Hawkes; Jeffrey P. Donnelly; Andrew C. Parnell; Niamh Cahill

doi:10.1016/j.margeo.2014.07.010

Late Holocene sea- and land-level change on the U.S. southeastern Atlantic coast

Andrew C. Kemp, Christopher E. Bernhardt, Benjamin P. Horton, Robert E. Kopp, Christopher H. Vane, W. Richard Peltier, Andrea D. Hawkes, Jeffrey P. Donnelly, Andrew C. Parnell, Niamh Cahill

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

46 Citations (Scopus)

Abstract

Late Holocene relative sea-level (RSL) reconstructions can be used to estimate rates of land-level (subsidence or uplift) change and therefore to modify global sea-level projections for regional conditions. These reconstructions also provide the long-term benchmark against which modern trends are compared and an opportunity to understand the response of sea level to past climate variability. To address a spatial absence of late Holocene data in Florida and Georgia, we reconstructed ~. 1.3. m of RSL rise in northeastern Florida (USA) during the past ~. 2600. years using plant remains and foraminifera in a dated core of high salt-marsh sediment. The reconstruction was fused with tide-gauge data from nearby Fernandina Beach, which measured 1.91. ±. 0.26. mm/year of RSL rise since 1900 CE. The average rate of RSL rise prior to 1800 CE was 0.41. ±. 0.08. mm/year. Assuming negligible change in global mean sea level from meltwater input/removal and thermal expansion/contraction, this sea-level history approximates net land-level (subsidence and geoid) change, principally from glacio-isostatic adjustment. Historic rates of rise commenced at 1850-1890 CE and it is virtually certain (P= 0.99) that the average rate of 20th century RSL rise in northeastern Florida was faster than during any of the preceding 26 centuries. The linearity of RSL rise in Florida is in contrast to the variability reconstructed at sites further north on the U.S. Atlantic coast and may suggest a role for ocean dynamic effects in explaining these more variable RSL reconstructions. Comparison of the difference between reconstructed rates of late Holocene RSL rise and historic trends measured by tide gauges indicates that 20th century sea-level trends along the U.S. Atlantic coast were not dominated by the characteristic spatial fingerprint of melting of the Greenland Ice Sheet. © 2014 Elsevier B.V.

Original language	English
Pages (from-to)	90-100
Journal	Marine Geology
Volume	357
DOIs	https://doi.org/10.1016/j.margeo.2014.07.010
Publication status	Published - 1 Nov 2014
Externally published	Yes

Bibliographical note

Publication details (e.g. title, author(s), publication statuses and dates) are captured on an “AS IS” and “AS AVAILABLE” basis at the time of record harvesting from the data source. Suggestions for further amendments or supplementary information can be sent to [email protected].

Funding

This work was supported by NOAA ( NA11OAR431010 ), NSF ( EAR-0952032 , EAR-1052848 , EAR-1419366 , and ARC-1203415 ), the BGS climate and landscape research program, and SimSci under the program for research in third-level institutions and co-funded under the European regional development fund. Bernhardt is funded through the USGS Climate and Land Use R&D program. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government. Vane publishes with the permission of the Director of the British Geological Survey. We thank R. Drummond for generating Earth-ice model predictions. C. Smith (USGS) provided constructive comments. We thank the two anonymous reviewers who provided constructive comments on this manuscript. This is a contribution to IGCP 588 and PALSEA2.

Research Keywords

Florida
Foraminifera
Glacio-isostatic adjustment Greenland fingerprint
Salt marsh

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title = "Late Holocene sea- and land-level change on the U.S. southeastern Atlantic coast",

abstract = "Late Holocene relative sea-level (RSL) reconstructions can be used to estimate rates of land-level (subsidence or uplift) change and therefore to modify global sea-level projections for regional conditions. These reconstructions also provide the long-term benchmark against which modern trends are compared and an opportunity to understand the response of sea level to past climate variability. To address a spatial absence of late Holocene data in Florida and Georgia, we reconstructed ~. 1.3. m of RSL rise in northeastern Florida (USA) during the past ~. 2600. years using plant remains and foraminifera in a dated core of high salt-marsh sediment. The reconstruction was fused with tide-gauge data from nearby Fernandina Beach, which measured 1.91. ±. 0.26. mm/year of RSL rise since 1900 CE. The average rate of RSL rise prior to 1800 CE was 0.41. ±. 0.08. mm/year. Assuming negligible change in global mean sea level from meltwater input/removal and thermal expansion/contraction, this sea-level history approximates net land-level (subsidence and geoid) change, principally from glacio-isostatic adjustment. Historic rates of rise commenced at 1850-1890 CE and it is virtually certain (P= 0.99) that the average rate of 20th century RSL rise in northeastern Florida was faster than during any of the preceding 26 centuries. The linearity of RSL rise in Florida is in contrast to the variability reconstructed at sites further north on the U.S. Atlantic coast and may suggest a role for ocean dynamic effects in explaining these more variable RSL reconstructions. Comparison of the difference between reconstructed rates of late Holocene RSL rise and historic trends measured by tide gauges indicates that 20th century sea-level trends along the U.S. Atlantic coast were not dominated by the characteristic spatial fingerprint of melting of the Greenland Ice Sheet. {\textcopyright} 2014 Elsevier B.V.",

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AU - Hawkes, Andrea D.

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AU - Parnell, Andrew C.

AU - Cahill, Niamh

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M3 - RGC 21 - Publication in refereed journal

SN - 0025-3227

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EP - 100

JO - Marine Geology

JF - Marine Geology

ER -

Late Holocene sea- and land-level change on the U.S. southeastern Atlantic coast

Abstract

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Research Keywords

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