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    Relative sea-level change in northeastern Florida (USA) during the last ~8.0 ka


    Hawkes, Andrea D., Kemp, Andrew C., Donnelly, Jeffrey P., Horton, Benjamin P., Peltier, W Richard, Cahill, Niamh, Hill, David F, Ashe, Erica L. and Alexander, Clark R (2016) Relative sea-level change in northeastern Florida (USA) during the last ~8.0 ka. Quaternary Science Reviews, 142. pp. 90-101. ISSN 0277-3791

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    Abstract

    An existing database of relative sea-level (RSL) reconstructions from the U.S. Atlantic coast lacked valid sea-level index points from Georgia and Florida. This region lies on the edge of the collapsing forebulge of the former Laurentide Ice Sheet making it an important location for understanding glacio-isostatic adjustment and the history of ice-sheet melt. To address the paucity of data, we reconstruct RSL in northeastern Florida (St. Marys) over the last ∼8.0 ka from samples of basal salt-marsh sediment that minimize the influence of compaction. The analogy between modern salt-marsh foraminifera and their fossil counterparts preserved in the sedimentary record was used to estimate paleomarsh surface elevation. Sample ages were determined by radiocarbon dating of identifiable and in-situ plant macrofossils. This approach yielded 25 new sea-level index points that constrain a ∼5.7 m rise in RSL during the last ∼8.0 ka. The record shows that no highstand in sea level occurred in this region over the period of the reconstruction. We compared the new reconstruction to Earth-ice models ICE 6G-C VM5a and ICE 6G-C VM6. There is good fit in the later part of the Holocene with VM5a and for a brief time in the earlier Holocene with VM6. However, there are discrepancies in model-reconstruction fit in the early to mid Holocene in northeastern Florida and elsewhere along the Atlantic coast at locations with early Holocene RSL reconstructions. The most pronounced feature of the new reconstruction is a slow down in the rate of RSL rise from approximately 5.0 to 3.0 ka. This trend may reflect a significant contribution from local-scale processes such as tidal-range change and/or change in base flow of the St. Marys River in response to paleoclimate changes. However, the spatial expression (local vs. regional) of this slow down is undetermined and corroborative records are needed to establish its geographical extent.
    Item Type: Article
    Keywords: Salt marsh; Holocene; Foraminifera; Georgia; St. Marys River;
    Academic Unit: Faculty of Science and Engineering > Mathematics and Statistics
    Item ID: 14575
    Identification Number: 10.1016/j.quascirev.2016.04.016
    Depositing User: Niamh Cahill
    Date Deposited: 29 Jun 2021 16:04
    Journal or Publication Title: Quaternary Science Reviews
    Publisher: Elsevier
    Refereed: Yes
    Related URLs:
    URI: https://mu.eprints-hosting.org/id/eprint/14575
    Use Licence: This item is available under a Creative Commons Attribution Non Commercial Share Alike Licence (CC BY-NC-SA). Details of this licence are available here

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