Finkl Jr., C.W. ,
Khalil, S.M. ,
and
Andrews, J.L. .
1997.
Offshore sand sources for beach replenishment: Potential borrows on the continental shelf of the eastern Gulf of Mexico..
Marine Georesources & Geotechnology 15(2): 155-173.
Erosion of sandy beaches is a worldwide problem that elicits innovative geoengineering techniques to reduce adverse impacts of shoreline retreat. Beach replenishment has emerged as the "soft" shore-stabilization technique of choice for mitigating beach erosion. This method of shore protection involves the addition of sand to the littoral sediment budget for sacrificial purposes. Because inland sand sources are often uneconomical or impractical to use, and known nearshore sources are limited, finding adequate quantities of suitable sand on the inner continental shelf is often vital to beach replenishment projects. The technical studies of survey and materials analysis that identify and delineate usable sand sources are sometimes almost as expensive as small-project dredging, pumping, and placing the sand on the beach as fill. Inadequate quantity or substandard quality of shelf sand, as well as often-prohibitive overhead expenses, thus compel shoreline managers to seek suitable sand sources offshore. In the study area off the central-west coast of Florida, offshore potential borrow areas (PBAs) were identified on the basis of studies conducted in reconnoitory and detailed phases. Sophisticated state-of-the-art equipment used in this investigation provided more detailed subbottom mapping information than is normally obtained with conventional seismic equipment. An example of sand exploration studies was incorporated in a 215-km super(2) survey of offshore areas by conducting bathymetric surveys and subbottom seismic profiling, collecting jet probes, grab samples, and vibrocores, and analyzing sediment grading in subsamples from vibrocores. These combined analyses indicated that at least 8.8 x 10 super(6) m super(3) of sand is available in potential borrow areas from 7.0 to 12 km offshore in water depths of 8.0 to 11.5 m. In the PBAs, mean grain size of sand falls into the range 0.13-0.53 mm, sorting averages 0.65-1.31 phi , and the overall silt content varies from 3.9-8.5%. High silt contents (13-19%) mapped in some areas make these sedimentary deposits unsuitable as fill for artificial beach renourishment.