Patch, Mary Catherine (2005-08). Acoustic characteristics of bay bottom sediments in Lavaca Bay, TX. Master's Thesis. Thesis uri icon

abstract

  • The purpose of this study is to examine the sediment stratigraphy and oyster reefs
    of Lavaca Bay. There has been little previous research on the bay??s stratigraphy, and
    information from this study is important for industry and resources management. The
    Lavaca Bay estuary is a drowned river valley containing a history of estuary development
    in the late Pleistocene and Holocene. We used a chirp sonar to gather acoustic reflection
    profiles, which were classified to categorize and trace reflectors. The data were plotted to
    make maps of the distribution of various reflection types and contour maps of reflector
    surfaces. The maps were compared with previous studies of Lavaca Bay and Galveston
    Bay to aid interpretation. The vertical sediment stratigraphy showed two main reflector
    packages. The upper package, bay bottom to ~25 m depth, is mostly acoustically
    transparent with a few, semi-continuous, prominent reflectors in the upper 5-10 m. The
    lower package ranges from 15-40 m depth with several strong reflectors sometimes
    underlain by unconformities. To classify reflector characteristics, the upper package was
    divided into two categories, each with 4 sub-categories: 1) surface reflectors??weak,
    medium, strong, and ringing, which describe the general acoustic return of the bay
    bottom, and 2) strong, shallow reflectors??surface strong, mounds, buried strong, andburied multiples, which describe strong acoustic returns in the upper 5 m of stratigraphy.
    Within the lower package, four categories were recognized: 1) subbottom
    reflectors/horizons, occurring ~20-40 m depth, 2) deep wipeout (incoherent/wipeout
    zone), ~10-30 m depth, 3) clinoforms, ~5-30 m depth, and 4) terraces, ~10-30 m depth.
    The data interpretation agrees with previous studies suggesting Lavaca Bay filled
    beginning with coarse sediment and grading to finer sediment. In addition, the surface
    type reflectors are indicative of bottom type, the strong, shallow reflectors are largely
    indicative of oyster reef/shell, and the subbottom reflectors are related to the Pleistocene
    and bay fill. The location/extent of oyster reefs in the bay does not agree well with
    previous studies, suggesting either oysters do not grow over older ones or differences
    between the chirp sonar response and other methods significantly differentiate the
    interpretation of their locations/extents.

publication date

  • August 2005