Reconstructing Common Era Relative Sea-Level Changes on the Gulf Coast of Florida

Previous research on relative sea-level (RSL) changes in the western North Atlantic identified variations in the timing and magnitude of sea-level oscillations during the past 2,600 years. Quantifying the disparities between these records is reliant upon a robust database of sea-level reconstruction...

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Bibliographic Details
Main Author: Gerlach, Matthew
Format: Text
Language:unknown
Published: DigitalCommons@URI 2016
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Online Access:https://digitalcommons.uri.edu/theses/888
https://doi.org/10.23860/thesis-gerlach-matthew-2016
https://digitalcommons.uri.edu/context/theses/article/1894/viewcontent/Gerlach_uri_0186M_11490.pdf
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Summary:Previous research on relative sea-level (RSL) changes in the western North Atlantic identified variations in the timing and magnitude of sea-level oscillations during the past 2,600 years. Quantifying the disparities between these records is reliant upon a robust database of sea-level reconstructions with an appropriate spatial and temporal distribution that can potentially capture a range of ice sheet melt mass balance fingerprints and ocean dynamic processes. To address an absence of high-resolution Common Era sea-level data in the southeastern US, we reconstructed ~ 1.0 m of RSL change encompassing the past ~ 2,400 years from the Gulf Coast of Florida. Paleomarsh elevation was reconstructed using a regional foraminiferal transfer function trained on 66 modern samples. A composite chronology of radiocarbon dates and pollution and pollen markers of known age were used to build an age-depth model. The geologic reconstruction was combined with a regional set of tide gauge records to create a continuous RSL dataset from ~ 450 BCE to present day. Quantitative trends with formal uncertainties were estimated (95% credible interval) by applying the errors-in-variables integrated Gaussian process (EIV-IGP) model to the combined RSL dataset. RSL fell at a maximum rate of -1.01 mm/yr. (0.65 to -2.68, 95% credible interval) from ~ 450 BCE to 50 BCE. The trend is consistent with a recent reconstruction of global sea-level variability derived from geological sea-level records. RSL then stabilized and began to rise ~ 0.3 mm/yr. until a change point was identified at 1270 CE (1000 CE to 1430 CE, 95% credible interval) and RSL rose ~ 0.5 mm/yr. until the late 19th century. RSL reconstructions from northern Florida and Louisiana show similar stability throughout the majority of the Common Era. This observation is in contrast to reconstructions north of Cape Hatteras on the U.S. Atlantic coast that demonstrate positive and negative deviations from the background trend from 0 CE to 1850 CE. Our new data provides further evidence ...