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Ecosystem Services Provided by Oyster Reefs: An Experimental Assessment in Mobile Bay, Al (focus: infaunal community) - 2004-2006

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The Alabama Oyster Reef Restoration Program began in 2004 to experimentally assess ecosystem benefits of oyster reef restoration in marsh creeks in Mobile Bay, AL, USA, and document the spatial scale at which such benefits could be measured. The project relied on a Before-After-Control-Impact (BACI) design in which 3 pairs of marsh creeks were monitored for 8 months prior to oyster additions, and fifteen months after oyster reef additions. Addition of oysters to one randomly selected creek of each of the three pairs resulted in densities higher than ever previously reported. We assessed whether oyster addition affected water clarity, nutrient dynamics, water-column primary production, benthic primary and secondary production, and abundance of juvenile fish and invertebrates by sampling monthly or bimonthly. While there were short-lived, small-scale increases in water clarity, there were no persistent, large changes in any response variables between experimental and control creeks. The absence of dramatic effects was likely due to a combination of factors, including inaccurate initial assumptions, between-creek variability and intense tropical storm activity. Regardless of cause, we did not find substantial changes in water clarity and biological activity in the experimental creeks. Therefore, we do not expect large ecosystem benefits to result from oyster restoration in other marsh creeks in the Gulf of Mexico. This is not to say that restoration of oyster reefs should not be carried out, especially since our oyster reef restoration was successful and functional oyster reefs offer other benefits such as enhanced benthic-pelagic coupling and denitrification through deposition of feces onto sediments. But our findings do suggest that surrounding landscape may play a critical role if the major goal of oyster reef restoration is to augment mobile fishes and decapod crustaceans.

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Author Dr. Kenneth Heck
Maintainer data@disl.org
Last Updated July 23, 2022, 03:03 (UTC)
Created July 23, 2022, 03:03 (UTC)
Access_Constraints Permission to access these data must be given by Dr. Kenneth Heck of the Dauphin Island Sea Lab.
Place Keywords Mobile Bay, Alabama, Gulf of Mexico, Dauphin Island
Theme Keywords oyster, restoration, marsh creeks, Before-After-Control-Impact, BACI, water clarity, nutrient dynamics, water-column primary production, benthic primary production, benthic secondary production, juvenile fish, invertebrate, abundance
Use_Constraints Acknowledgment of the DISL's Marine Ecology Lab, National Oceanic and Atmospheric Administration (NOAA) and The Alabama Center for Estuarine Studies (ACES) would be appreciated in products developed from these data, and such acknowledgment as is standard for citation and legal practices for data source is expected by users of these data. Users should be aware that comparison with other data sets for the same area from other time periods may be inaccurate due to inconsistencies resulting from changes in mapping conventions, data collection, and computer processes over time. The distributor shall not be liable for improper or incorrect use of these data, based on the description of appropriate/inappropriate uses described in the metadata document. These data are not legal documents and are not to be used as such.
dc.contributor DISL: Marine Ecology Lab
dc.coverage.placeName Mobile Bay Alabama Gulf of Mexico Dauphin Island
dc.coverage.t.max 200608T
dc.coverage.t.min 200405T
dc.coverage.x.max -88.08363
dc.coverage.x.min -88.11629
dc.coverage.y.max 30.27601
dc.coverage.y.min 30.25368
dc.creator Dauphin Island Sea Lab (DISL): Marine Ecology Lab
dc.date 20080222
dc.description The Alabama Oyster Reef Restoration Program began in 2004 to experimentally assess ecosystem benefits of oyster reef restoration in marsh creeks in Mobile Bay, AL, USA, and document the spatial scale at which such benefits could be measured. The project relied on a Before-After-Control-Impact (BACI) design in which 3 pairs of marsh creeks were monitored for 8 months prior to oyster additions, and fifteen months after oyster reef additions. Addition of oysters to one randomly selected creek of each of the three pairs resulted in densities higher than ever previously reported. We assessed whether oyster addition affected water clarity, nutrient dynamics, water-column primary production, benthic primary and secondary production, and abundance of juvenile fish and invertebrates by sampling monthly or bimonthly. While there were short-lived, small-scale increases in water clarity, there were no persistent, large changes in any response variables between experimental and control creeks. The absence of dramatic effects was likely due to a combination of factors, including inaccurate initial assumptions, between-creek variability and intense tropical storm activity. Regardless of cause, we did not find substantial changes in water clarity and biological activity in the experimental creeks. Therefore, we do not expect large ecosystem benefits to result from oyster restoration in other marsh creeks in the Gulf of Mexico. This is not to say that restoration of oyster reefs should not be carried out, especially since our oyster reef restoration was successful and functional oyster reefs offer other benefits such as enhanced benthic-pelagic coupling and denitrification through deposition of feces onto sediments. But our findings do suggest that surrounding landscape may play a critical role if the major goal of oyster reef restoration is to augment mobile fishes and decapod crustaceans.
dc.language en
dc.source Alabama Oyster Reef Restoration Project (core samples of infaunal community)
dc.subject oyster restoration marsh creeks Before-After-Control-Impact BACI water clarity nutrient dynamics water-column primary production benthic primary production benthic secondary production juvenile fish invertebrate abundance
dc.title Ecosystem Services Provided by Oyster Reefs: An Experimental Assessment in Mobile Bay, Al (focus: infaunal community) - 2004-2006
dc.type spreadsheet and report
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