Shoreline, Beach, and Dune Morphodynamics,<br> Texas Gulf Coast

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We conducted three annual airborne lidar surveys along the Texas Gulf shoreline in 2010, 2011, and 2012 to determine short-term shoreline change and its long-term context, map critical beach and dune attributes including the shoreline, potential vegetation line, and landward dune boundary, examine and quantify beach and dune morphology by determining elevation-threshold area (ETA) curves for differing geomorphic environments on the Texas coast, and establish a storm susceptibility index (SSI) for the Gulf shoreline.

On average, long-term shoreline change trends are erosional for all major Texas coastal segments. Over the short term, the Texas Gulf shoreline advanced an average of 6.5 m between 2010 and 2011, a period that was characterized by continued long-term recovery from Hurricane Ike (2008). The shoreline advanced at 75 percent of monitoring sites during this period. This trend largely reversed between 2011 and 2012, when the shoreline retreated at 67 percent of monitoring sites over an average distance of 3.1 m landward. Coastwide shoreline change patterns were similar to long-term trends during this period. The most stable or advancing shorelines were located on the central Texas coast. Shorelines along the upper and lower parts of the coast generally retreated. Predominant shoreline retreat between 2011 and 2012 did not fully offset advance in 2010 to 2011. Between 2010 and 2012, the shoreline advanced at 59 percent of sites over an average distance of 3.4 m, resulting in a net beach gain of 203 ha.

Digital elevation models (DEMs) constructed from airborne lidar data were used to determine elevation-threshold area (ETA) curves for major geomorphic units and each coastal county. Areas exceeding threshold elevations of 2 to 9 m (in 1-m increments) have characteristic shapes that are useful in determining sand storage volumes, susceptibility to storm flooding, and erosion resistance and recoverability. DEMs were also used to create an eight-level storm susceptibility index (SSI) that indicates the predicted protection level from storms at recurrence intervals of 1 to 200 years.


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