Recovery and Restoration of Biloxi Marsh in the Mississippi River Delta
The State of Louisiana is leading an integrated wetland restoration and flood risk reduction program in the Mississippi River Delta. East of New Orleans, Biloxi Marsh, a ~1700 km2 peninsula jutting 60 km north toward the State of Mississippi is one of few Delta wetland tracts well positioned to diss...
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| Veröffentlicht in: | Water (Basel) 2021-11, Vol.13 (22), p.3179 |
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| creator | Kemp, G. Paul McDade, Elizabeth C. Day, John W. Lane, Robert R. Dawers, Nancye H. Day, Jason N. |
| description | The State of Louisiana is leading an integrated wetland restoration and flood risk reduction program in the Mississippi River Delta. East of New Orleans, Biloxi Marsh, a ~1700 km2 peninsula jutting 60 km north toward the State of Mississippi is one of few Delta wetland tracts well positioned to dissipate hurricane surge and waves threatening the city’s newly rebuilt hurricane flood defenses. Both its location on the eastern margin of the Delta, and its genesis as the geologic core of the shallow water St. Bernard/Terre aux Boeuf sub-delta, which was the primary Mississippi outlet for almost 2000 years, make Biloxi Marsh attractive for restoration, now that the Mississippi River Gulf Outlet deep-draft ship channel has been dammed, and 50 years of impacts from construction and operation have abated. Now, the cascade of ecosystem damage it caused can be reversed or offset by restoration projects that leverage natural recovery and increased access to suspended sediment from the Mississippi River. Biloxi Marsh is (1) geologically stable, (2) benefiting from increased input of river sediment, and (3) could be restored to sustainability earlier and for a longer period than most of the rest of the submerging Mississippi Delta. The focus of this review is on the Biloxi Marsh, but it also provides a template for regional studies, including analysis of 2D and 3D seismic and other energy industry data to explore why existing marshes that look similar on the ground or from the air may respond to restoration measures with different levels of success. Properties of inherent durability and resilience can be exploited in restoration project selection, sequencing and expenditure. Issues encountered and investigative methods applied in the Biloxi Marsh are likely to resonate across initiatives now contemplated to sustain valuable river deltas worldwide. |
| doi_str_mv | 10.3390/w13223179 |
| format | Article |
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Paul ; McDade, Elizabeth C. ; Day, John W. ; Lane, Robert R. ; Dawers, Nancye H. ; Day, Jason N.</creator><creatorcontrib>Kemp, G. Paul ; McDade, Elizabeth C. ; Day, John W. ; Lane, Robert R. ; Dawers, Nancye H. ; Day, Jason N.</creatorcontrib><description>The State of Louisiana is leading an integrated wetland restoration and flood risk reduction program in the Mississippi River Delta. East of New Orleans, Biloxi Marsh, a ~1700 km2 peninsula jutting 60 km north toward the State of Mississippi is one of few Delta wetland tracts well positioned to dissipate hurricane surge and waves threatening the city’s newly rebuilt hurricane flood defenses. Both its location on the eastern margin of the Delta, and its genesis as the geologic core of the shallow water St. Bernard/Terre aux Boeuf sub-delta, which was the primary Mississippi outlet for almost 2000 years, make Biloxi Marsh attractive for restoration, now that the Mississippi River Gulf Outlet deep-draft ship channel has been dammed, and 50 years of impacts from construction and operation have abated. Now, the cascade of ecosystem damage it caused can be reversed or offset by restoration projects that leverage natural recovery and increased access to suspended sediment from the Mississippi River. Biloxi Marsh is (1) geologically stable, (2) benefiting from increased input of river sediment, and (3) could be restored to sustainability earlier and for a longer period than most of the rest of the submerging Mississippi Delta. The focus of this review is on the Biloxi Marsh, but it also provides a template for regional studies, including analysis of 2D and 3D seismic and other energy industry data to explore why existing marshes that look similar on the ground or from the air may respond to restoration measures with different levels of success. Properties of inherent durability and resilience can be exploited in restoration project selection, sequencing and expenditure. Issues encountered and investigative methods applied in the Biloxi Marsh are likely to resonate across initiatives now contemplated to sustain valuable river deltas worldwide.</description><identifier>ISSN: 2073-4441</identifier><identifier>EISSN: 2073-4441</identifier><identifier>DOI: 10.3390/w13223179</identifier><language>eng</language><publisher>Basel: MDPI AG</publisher><subject>Coasts ; Construction ; Deltas ; Durability ; Earthquake damage ; Environmental restoration ; Field study ; Fishing ; Flood control ; Flood protection ; Floods ; Fluvial sediments ; Geology ; Hurricanes ; Navigable channels ; Outlets ; Planning ; Risk management ; Risk reduction ; Rivers ; Salinity ; Sea level ; Sediments ; Seismic engineering ; Shallow water ; Ships ; Shoreline protection ; Soil erosion ; Suspended sediments ; Sustainability ; Two dimensional analysis ; Wetlands</subject><ispartof>Water (Basel), 2021-11, Vol.13 (22), p.3179</ispartof><rights>2021 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/). 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| subjects | Coasts Construction Deltas Durability Earthquake damage Environmental restoration Field study Fishing Flood control Flood protection Floods Fluvial sediments Geology Hurricanes Navigable channels Outlets Planning Risk management Risk reduction Rivers Salinity Sea level Sediments Seismic engineering Shallow water Ships Shoreline protection Soil erosion Suspended sediments Sustainability Two dimensional analysis Wetlands |
| title | Recovery and Restoration of Biloxi Marsh in the Mississippi River Delta |
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