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    Physical and Program Options for the Inland Migration of Louisiana’s Coastal Wetlands in Response to Relative Sea Level Rise

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    Main Report
    8.3 Mb
    Appendix
    22.6 Mb
    Date
    2012-04-26
    Authors
    Bihler, Alicia
    Beck, Heidi
    Kemm, Melissa
    Pardo, Sam
    Perron, Douglas
    Advisor
    Ferguson, P. Lee
    Repository Usage Stats
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    Abstract
    Louisiana contains over a third of the coastal wetlands in the contiguous US, but has seen a drastic reduction in total wetland area in the last century. This loss is especially troubling for coastal Louisiana where wetlands play a vital role in protecting and supporting the state’s economy and culture. Under natural conditions, coastal wetlands will move upland with rising sea level or sinking land. However, engineered structures and shore armoring, such as levees, seawalls, and bulkheads, impede this process. Advanced planning for wetland migration is needed to keep communities and infrastructure out of harm’s way from encroaching open water and to mitigate future wetland loss. This project investigates the potential for wetland migration in Louisiana through 1) the mapping and analysis of coastal wetland migration and 2) an examination of policy alternatives relevant to wetland migration. Wetland loss and migration was analyzed in Lafourche, St. Mary, and Vermilion parishes using the Sea Level Affecting Marshes Model (SLAMM). Moderate and less optimistic values of subsidence rates were modeled with constant global sea level rise projections to identify the impacts of dike and levee protection on wetland loss and the upland migration of coastal wetlands. The percent of wetland loss offset by wetland migration was calculated for each parish in an effort to aid in management decisions. It was found that wetland migration into dry land areas did not occur in any of the three parishes unless dike and levee protection of undeveloped dry lands was removed. The intensity of subsidence and the distribution of dry land greatly impact the overall benefits of allowing coastal wetlands to migrate into dry lands. This observation was exemplified in Lafourche Parish, which has a limited distribution of dry land and was modeled using higher subsidence rates than those found in both St. Mary and Vermilion parishes. Not only was the net loss of wetlands greater when dike and levee protection was removed in Lafourche Parish, but the total amount of wetland gain by means of wetland migration was incapable of offsetting a significant amount wetland loss. The policy analysis was developed with respect to the criteria and framework of Louisiana’s Comprehensive Master Plan for a Sustainable Coast and for use in an exploratory model. Considering the results of the geospatial analysis within this report, a model was developed to assist in management decisions regarding the migration of coastal wetlands across Louisiana’s geophysically and socio-economically variable coastline. The model was constructed using five main criteria to assess six different policy alternatives. Policy criteria included wetland migration, flood risk, equity, adaptability, and political feasibility, and the policy alternatives assessed were rolling easements, density restrictions, transferable development rights, conservation easements, defeasible estates and voluntary acquisition. Specific recommendations were made with the goal of developing an equitable and efficient wetland migration policy capable of complementing and improving current coastal management plans.
    Type
    Master's project
    Department
    Nicholas School of the Environment and Earth Sciences
    Subject
    Relative Sea Level Rise
    wetlands
    Louisiana
    wetland migration
    wetland loss
    SLAMM
    Permalink
    https://hdl.handle.net/10161/5239
    Citation
    Bihler, Alicia; Beck, Heidi; Kemm, Melissa; Pardo, Sam; & Perron, Douglas (2012). Physical and Program Options for the Inland Migration of Louisiana’s Coastal Wetlands in Response to Relative Sea Level Rise. Master's project, Duke University. Retrieved from https://hdl.handle.net/10161/5239.
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    This work is licensed under a Creative Commons Attribution-Noncommercial-No Derivative Works 3.0 United States License.

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