Title page for ETD etd-04272010-175047

Type of Document Master's Thesis
Author Dehon, Daniel D
URN etd-04272010-175047
Title Investigating the Use of Bioengineered Oyster Reefs as a Method of Shoreline Protection and Carbon Storage
Degree Master of Science in Biological & Agricultural Engineering (M.S.B.A.E.)
Department Biological & Agricultural Engineering
Advisory Committee
Advisor Name Title
Hall, Steve Committee Chair
Day, John Committee Member
Supan, John Committee Member
  • carbon storage
  • artificial reef
  • oyster
Date of Defense 2010-03-31
Availability unrestricted
The Louisiana Gulf Coast is losing land at an alarming rate for a combination of reasons. At the same time carbon dioxide is accumulating in the atmosphere and the oceans by the increased burning of fossil fuels. Therefore, bioengineered oyster dominated artificial reefs have been developed in an effort to mitigate erosion while storing carbon in the oyster shells. These reefs support the growth of a native oyster species, Crassostrea virginica, which are considered ecological engineers and serve to improve water quality, protect coastal wetlands, capture and store carbon, and enhance the economy. Evaluation of test pieces showed the addition of biological material to encourage significantly higher oyster recruitment (p=0.002). Locations lower in the water column and further from shore also had higher recruitment rates (p=0.0004, p=0.05 respectively). The test on carbon storage potential showed a carbon payback period of ~ 6-8 months and a 500% payback after thirty months. A map of potential emplacement sites (“oyster zone”) was also created to aid in selecting future project locations. Preliminary engineering design was done in order to optimize the geometry of these structures and the emplacement techniques. Future work in this area should include monitoring and documentation of full-scale project emplacements and oyster growth patterns. This project has revealed the potential for the use of a sustainable, ecologically beneficial, and cost effective method of shoreline protection with the added benefit of long-term carbon storage.
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