1. Holocene Reworking of a Sand Sheet in the Merrimack Embayment, Western Gulf of Maine.
- Author
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Hein, C.J., FitzGerald, D.M., and Barnhardt, W.
- Subjects
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SAND , *PARTICLE size distribution , *HOLOCENE Epoch , *SHEARING force , *BACKSCATTERING - Abstract
Hein, C.J., Fitzgerald, D.M., and Barnhardt, W., 2007. Holocene Reworking of a Sand Sheet in the Merrimack Embayment, Western Gulf of Maine. Journal of Coastal Research, SI 50 (Proceedings of the 9th International Coastal Symposium), 863 – 867. Gold Coast, Australia, ISSN 0749.0208 Recent bathymetric, backscatter, and seafloor sediment samples demonstrate that a large sand sheet was formed in the inner shelf by the reworking of the Merrimack River lowstand delta (deposited 12 kya; currently at 45 m depth) and braid plain during the Holocene transgression. Asymmetric bedforms and distinct grain size distributions suggest the sand sheet is actively being reworked by inner-shelf processes. Bottom sediments range from silty sand at the submerged delta to coarse sand and fine gravel in the innermost shelf (depth: 10-50 m). Coarse-grained sand comprises an expansive (32 km2) featureless sand sheet centered off the Merrimack River. Fine-grained sand discontinuously overlies this sand sheet in many locations and forms long wavelength (100 – 800 m), low amplitude (1-2 m), asymmetrical bedforms. Sets of these bedforms are oriented from slightly oblique offshore to onshore; several bedform sets are located within 1 km and oriented orthogonally to one another. Along the paleo-delta front north-northwest oriented bedforms are dominant. Inshore of these features, the bedforms become more closely spaced and have orientations to the west and west-southwest. Preliminary data suggest that the combined forces of instantaneous storm-wave generated shear stress and storm-induced currents associated with high energy northeast storm events may be responsible for sand sheet reworking and bedform development. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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