Abstract
<strong class="journal-contentHeaderColor">Abstract.</strong> This paper provides a summary of published sea-level archives representing the past position of sea level during the Last Interglacial sea-level highstand in the Bahamas, Turks and Caicos, and the eastern (Atlantic) coast of Florida, USA. These data were assembled as part of a community effort to build the World Atlas of Last Interglacial Shorelines (WALIS) database. Shallow marine deposits from this sea-level highstand are widespread across the region and are dominated by carbonate sedimentary features. In addition to depositional (constructional) sedimentary indicators of past sea-level position, there is also evidence of erosion, dissolution, and/or subaerial exposure in places that can place an upper limit on the position of sea level. The sea-level indicators that have been observed within this region and attributed to Marine Isotope Stage (MIS) 5e include corals, oolites, and other coastal sedimentary features. Here we compile a total of 50 relative sea-level indicators including 36 in the Bahamas, three in West Caicos, and a remaining 10 for the eastern seaboard of Florida. We have also compiled U-Th age data for 24 fossil corals and 56 oolite samples. While some of these archives have been dated using U-Th disequilibrium methods, amino acid racemization, or optically stimulated luminescence, other features have more uncertain ages that have been deduced in the context of regional mapping and stratigraphy. Sedimentary archives in this region that constrain the elevation of the past position of sea level are associated with uncertainties that range from a couple of decimeters to several meters. Across the Bahamas and on West Caicos, one of the observations that emerges from this compilation is that estimation of sea-level position in this region during Marine Isotope Stage 5e is complicated by widespread stratigraphic evidence for at least one sea-level oscillation. This evidence is defined by submarine features separated by erosion and subaerial exposure, meaning that there were likely multiple distinct peaks in sea level rather than just one. To this end, the timing of these individual sea-level indicators becomes important when compiling and comparing data across the region given that different archives may have formed during different sub-orbital peaks in sea level. The database can be found at <a href="https://doi.org/10.5281/zenodo.5596898">https://doi.org/10.5281/zenodo.5596898</a> (Dutton et al., 2021).
Highlights
The goal of this data compilation is to synthesize existing data for sea level position during the Last Interglacial across a region that includes the Bahamas, Turks and Caicos, and the eastern coast of Florida
We adopt the standardized framework provided by 35 the World Atlas of Last Interglacial Shorelines Database (WALIS, https://warmcoasts.eu/world-atlas.html) to compile a database of previously published relative sea level (RSL) indicators including their descriptions, geochronological constraints, and associated metadata
We briefly describe the different categories of sea level indicators below along with their relation to past sea level position
Summary
The goal of this data compilation is to synthesize existing data for sea level position during the Last Interglacial across a region that includes the Bahamas, Turks and Caicos, and the eastern coast of Florida. We adopt the standardized framework provided by 35 the World Atlas of Last Interglacial Shorelines Database (WALIS, https://warmcoasts.eu/world-atlas.html) to compile a database of previously published relative sea level (RSL) indicators including their descriptions, geochronological constraints, and associated metadata. The WALIS database uses the concept of indicative meaning to define the elevation of a where a particular sea level indicator forms relative to the position of a tidal datum, usually mean sea level. For each direct sea level indicator we have entered in the WALIS database we report the elevation of the indicator as measured relative to a modern tidal datum, Data along with the indicative range (IR) of the indicator. The highest occurrence of ooid shoals in the area was entered in the database
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