Abstract
The Quaternary record of the US Mid-Atlantic coastal system includes onshore emergent late Pleistocene shoreline deposits, offshore inner shelf and barrier island units, and paleovalleys formed during multiple glacial stage sea-level lowstands. The geochronology of this coastal system is based on uranium series, radiocarbon, amino acid racemization (AAR), and optically stimulated luminescence (OSL) methods. We report over 600 mollusk AAR results from 93 sites between northeastern North Carolina and the central New Jersey shelf, representing samples from both onshore cores or outcrops, sub-barrier and offshore cores, and transported shells from barrier island beaches. AAR age estimates are constrained by paired 14C analyses on specific shells and associated U-series coral ages from onshore sites. AAR data from offshore cores are interpreted in the context of detailed seismic stratigraphy. The distribution of Pleistocene-age shells on the island beaches is linked to the distribution of inner shelf or sub-barrier source units. Age mixing over a range of time-scales (~1 ka to ~100 ka) is identified by AAR results from onshore, beach, and shelf collections, often contributing insights into the processes forming individual barrier islands. The regional aminostratigraphic framework identifies a widespread late Pleistocene (Marine Isotope Stage 5) aminozone, with isolated records of middle and early Pleistocene deposition. AAR results provide age estimates for the timing of formation of the three major paleochannels that underlie the Delmarva Peninsula: Persimmon Point paleochannel ≥800 ka; Exmore paleochannel ~400–500 ka (MIS 12); and Eastville paleochannel > 125 ka (MIS 6). The results demonstrate the value of synthesizing abundant AAR chronologic data across various coastal environments, integrating multiple distinct geologic studies. The ages and elevations of the Quaternary units are important for current hypotheses about relative sea-level history and crustal dynamics in the region, which was likely influenced by the Laurentide ice sheet, the margin just ~400 km to the north.
Highlights
The Quaternary units of the Delmarva Peninsula (Delaware, Mary land, and Virginia) on the US Mid-Atlantic margin (~37◦ to ~39.5oN) (Figs. 1–3) consist of multiple estuarine, open-bay, fluvial, barrier island and lagoonal deposits that have formed during multiple cycles of Qua ternary sea-level change
The typical precision of amino acid racemization (AAR) analysis of an individual shell can be as small as 2%, numerous diagenetic and thermal factors, as well as age-mixing, can cause the precision of a single ami nozone to be on the order of 10% (Wehmiller et al, 2000)
We use this qualitative guideline to define aminozones based on the reverse-phase liquid chromatography (RP) results, with the caveat that a range of ages can be represented by a defined aminozone even if all the D/L values fall within this range
Summary
The Quaternary units of the Delmarva Peninsula (Delaware, Mary land, and Virginia) on the US Mid-Atlantic margin (~37◦ to ~39.5oN) (Figs. 1–3) consist of multiple estuarine, open-bay, fluvial, barrier island and lagoonal deposits that have formed during multiple cycles of Qua ternary sea-level change. The Virginia portion of the peninsula is underlain by four major paleochannels, formed during glacial stage low sea levels, whose posi tions track the southward progradation of the peninsula during the Quaternary (Colman et al, 1990; McFarland and Beach, 2019).
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