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245 00 |a Coastal Geomorphic Responses to Sea Level Rise |h [electronic resource] |b Galveston Bay,Texas |y English.
260        |c 1984.
490        |a Coastal Geomorphic Responses to Sea Level Rise: Galveston Bay, Texas |b Chapter 5 |y English.
506        |a Please contact the owning institution for licensing and permissions. It is the user's responsibility to ensure use does not violate any third party rights.
520 3    |a This chapter describes the geomorphic effects of projected sea level rise on low-lying coastal landforms along southeast Galveston Bay, Texas, for a range of Projected sea level rise rates (baseline, low, medium and high) at particular time periods (2025 and 2075). The objective is to determine the coastal changes in response to various assumed sea level increases by these particular dates. Two categories of physical response are addressed: shoreline changes representing landward displacement of the land/water interface and changes in storm surge levels and inland inundation as a result of the projected rates of sea level rise. Groundwater changes, resulting from saltwater intrusion coastal aquifers, were originally considered (Leatherman et al., 1983), but sea level rise was found to result in minimal effects compared to those of cultural alterations. For instance, the groundwater supplies in the Galveston area have already been polluted or overexploited. Also, land surface subsidence, largely resulting from overpumping, has been so pronounced that legislation has recently been enacted prohibiting the further development of groundwater resources (Thompson, 1982). A section of Galveston Island and Bay was selected for this pilot study (see Figure 5-1). This portion of the Gulf coastal plain is quite low and gently seaward. Therefore, a slight rise in sea level would result in, significant horizontal displacement of the shoreline and storm surge envelope. Other selection criteria included microtidal environment, major Gulf Coast estuary, highly developed population centers and industrial complexes at Texas City and north Galveston Island, availability of the National Weather Service storm surge model SLOSH (Sea, Lake andOverland Surges from Hurricanes), and information on historical erosional trends and subsidence data. Three sea level rise scenarios were developed (see Chapter 3); eight rise/year combinations were selected from the projected sea level rise curves for this analysis (see Table 5-1). The table indicates, for example, that absent any acceleration in sea level rise (the baseline scenario), by 2025 sea level will have risen by 13.7 cm (0.5 ft). In the medium sea level rise scenario, sea level will have risen by 48.4 cm (1.6 ft) in 2025. Although subsidence has been a major problem in Texas City, the estimated rate of future subsidence for this area is insignificant, with Galveston Island being essentially stable (Thompson, 1982). As indicated in Figure 5-1, the Galveston study area was divided into several subareas. The results of this analysis are given in tables for all subareas. Graphic representations are presented for illustrative purposes in order to conserve space.
533        |a Electronic reproduction. |c Florida International University, |d 2015. |f (dpSobek) |n Mode of access: World Wide Web. |n System requirements: Internet connectivity; Web browser software.
650    0 |a Climate Change.
650    0 |a Sea Level Rise.
651    0 |a Texas.
651    0 |a Galveston Bay (Tex.).
700 1    |a Leatherman, Stephen P..
830    0 |a dpSobek.
830    0 |a Sea Level Rise.
852        |a dpSobek |c Sea Level Rise
856 40 |u http://dpanther.fiu.edu/dpService/dpPurlService/purl/FI15061892/00001 |y Click here for full text
992 04 |a http://dpanther.fiu.edu/sobek/content/FI/15/06/18/92/00001/FI15061892thm.jpg
997        |a Sea Level Rise


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