About This Item

Share This Item

The AAPG/Datapages Combined Publications Database

Journal of Sedimentary Research (SEPM)

Abstract


Journal of Sedimentary Research, Section B: Stratigraphy and Global Studies
Vol. 64B (1994)No. 3. (August), Pages 408-415

Late Holocene Erosional Shoreface Retreat Within a Siliciclastic-to-carbonate Transition Zone, East Central Florida, USA

Randall W. Parkinson, John R. White (*)

ABSTRACT

This study has reconstructed the late Holocene evolution of a section of the North American Atlantic coast barrier-island system in a siliciclastic-to-carbonate transition zone. A transgressive stratigraphy, analogous to that recognized beneath the siliciclastic barriers of the embayed Atlantic and Gulf coasts, was identified in the study area and generated by erosional shoreface retreat of the barrier island during Holocene sea-level rise.

Vibracores from the backbarrier revealed the preservation of a thin (< 3.5 m) Holocene sediment succession consisting of muddy skeletal sand overlain by intercalations of clean skeletal sand and muddy skeletal sand capped by fibrous peat. In the foreshore, the fibrous peat is compressed and abruptly overlain by coarse shell hash grading upward into skeletal sand. The entire Holocene section rests unconformably upon a thin (< 0.25 m) quartz sand and featureless, gently seaward-dipping Pleistocene limestone surface.

Sedimentologic, paleontologic, stratigraphic, and radiocarbon data suggest that this sequence is transgressive and was generated during erosional shoreface retreat of a wave-dominated, microtidal barrier-island system. The basal, muddy skeletal sand is interpreted to have been deposited in a shallow (3 m) backbarrier lagoon. These sediments were buried during overwash events that transported skeletal sand across the barrier and into the lagoon. Repeated overwash generated a shallowing-upward sequence capped by organic-rich tidal-wetland sediment. Radiocarbon dates suggest that wetland sedimentation started between 1200 and 1960 yr B.P.

Landward retreat of the barrier is indicated by the foreshore unconformity (ravinement surface) that now truncates the fibrous peat. The preservation potential of the entire Holocene paralic section is probably low, given the lack of significant antecedent topographic relief and relatively slow rate of sea-level rise. The preservation potential should increase seaward, however, because the older paralic environments would have been subjected to faster sea-level rise.


Pay-Per-View Purchase Options

The article is available through a document delivery service. Explain these Purchase Options.

Watermarked PDF Document: $14
Open PDF Document: $24