Discerning sediment provenance in the Outer Banks (USA) through detrital zircon geochronology
October 9, 2024
Detrital zircon data from modern barrier island and estuarine environments in the Outer Banks (Atlantic Coast, USA) were statistically compared to sands from nearby rivers to assist in determining source-to-sink pathways. Fluvial samples, collected from near the Fall Line contact between the Appalachian Orogen and sediments of the coastal plain, all have age unique distributions, making them ideal for tracing provenance. Three samples from the Atlantic foreshore showed high similarities to one another, as well as to three samples from the estuarine (back-barrier) Pamlico and Albemarle Sounds. Mixture modeling with multiple data reduction methods and three different statistical tests for similarity consistently indicated that the nearby Potomac River was the primary source for all Atlantic foreshore and estuarine zircons, followed by minor contributions from the James River in some models. The models indicate little or no sediment contribution from the Susquehanna, Roanoke, Tar, Neuse, Cape Fear, and Peedee Rivers. Both Atlantic foreshore and estuarine sands are therefore interpreted to have initially originated from Appalachian bedrock to the north of their present-day location, and subsequently to have been transported southward through the Chesapeake Bay watershed before deposition in Virginia and North Carolina. Prior to barrier island formation in the last several thousand years, differing geomorphology of the Chesapeake Bay facilitated southward movement of sediments from its constituent rivers via longshore drift, where they were deposited in coastal settings on the mainland. The modern barrier islands, formed during the most recent post-glacial transgression, may be reworked from these deposits, but may also include a contribution from sediments that were derived more recently from relict deposits on the shelf. Oceanographic and sedimentological evidence suggests that movement of sand-sized grains from southern rivers across the back-barrier sounds is unlikely. These findings can assist with coastal resilience planning and resource management in a region under severe threat from climate change and rising sea levels.
Citation Information
Publication Year | 2024 |
---|---|
Title | Discerning sediment provenance in the Outer Banks (USA) through detrital zircon geochronology |
DOI | 10.1016/j.margeo.2024.107409 |
Authors | John W. Counts, Jared T. Gooley, Joshua Long, William H. Craddock, Paul O'Sullivan |
Publication Type | Article |
Publication Subtype | Journal Article |
Series Title | Marine Geology |
Index ID | 70259588 |
Record Source | USGS Publications Warehouse |
USGS Organization | Eastern Energy Resources Science Center; Geology, Energy & Minerals Science Center |
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John W. Counts, Ph.D.
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William H. Craddock, Ph.D.
Research Geologist
Research Geologist
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Related
John W. Counts, Ph.D.
Research Geologist
Research Geologist
Email
Phone
William H. Craddock, Ph.D.
Research Geologist
Research Geologist
Email
Phone