Projects

Central Everglades Project

  • State: Florida
  • Type: Hydrologic Restoration
  • Estuary: Everglades
  • Land Benefit: 10,000 acres

The Central Everglades Project, authorized by Congress in 2016, is a bundle of high-impact project components aimed to improve the delivery of water to the central Everglades ecosystem. It includes elements to store, treat, and convey water south of Lake Okeechobee, and components to remove barriers to the sheetflow of water between the Water Conservation Areas and Everglades National Park. CEP will work synergistically with the EAA Reservoir and the Tamiami Trail Bridging to de-compartmentalize the Everglades and send water south. When completed, CEP will restore the natural sheetflow to 10,000 acres of degraded Everglades’ wetlands and improve the health of Florida Bay.

Fish and Waterfowl Benefits

Florida Bay, known universally among those who love to fish there as “the backcountry,” stretches from the southernmost tip of the mainland, south to the Florida Keys. Hundreds of mangrove islands dot the bay, and are ringed by shallow flats that make a perfect home for snook, redfish, spotted seatrout and lots more.

Project Status (CEP actually consist of many distinct projects, but most are currently in this phase):
Conceptual > Feasibility & Planning > Engineering & Design > Under Construction > Completed


Read More

Pensacola East Bay Living Shorelines & Oyster Reef Restoration

  • State: Florida
  • Type: Living Shoreline/Oyster Restoration
  • Estuary: Pensacola Bay
  • Land Benefit: 6.5 shoreline miles

This project will create up to 6.5 miles of living shorelines in the East Bay area of Pensacola Bay. The project will include installation of materials to provide structure suitable for development of oyster reef habitat and will serve as a natural approach to controlling shoreline erosion. The project will apply the most appropriate substrate for oyster larvae to settle and colonize, restoring critical oyster habitat. The deployment of oyster habitat (which serves as a breakwater) and the planting of salt marsh vegetation will protect the shoreline by dampening wave energy (which erodes the shoreline) and stabilizing sediments (which cause turbidity). These improvements will promote the growth of seagrass and increase colonization by oysters.

Fish and Waterfowl Benefits

Living shorelines created by this project will ultimately provide nursery habitat for commercially and recreationally important finfish and shellfish, as well as forage and nesting areas for birds.

Project Status: 
Conceptual > Feasibility & Planning > Engineering & Design > Under Construction > Completed


Read More

Calcasieu Ship Channel Salinity Control Measures

  • State: Louisiana
  • Type: Hydrologic Restoration
  • Basin: Chenier Plain
  • Land Benefit: 21,648 acres

The Calcasieu Ship Channel, which connects the Gulf of Mexico to Calcasieu Lake, located in the Chenier Plain. Once a stable, the Chenier Plain has undergone decades of dredging to build navigation canals, which has dramatically changed the flow of water in the area. Saltwater intrusion has led to the extensive loss of freshwater marshes and increased the threat of storm surge to nearby communities. This project will build a network of dike and sill structures designed to limit saltwater intrusion from the Calcasieu Ship Channel into nearby marshes that provide habitat to fish and wildlife and a storm surge buffer to communities. 

Fish and Wildlife Benefits

By helping sustain nearby wetlands, this project will benefit the wetlands of this region which provide important habitat to the area’s wildlife. The areas that benefit from this project include the Sabine National Wildlife Refuge and the Cameron Prairie National Wildlife Refuge which provide a variety of recreational opportunities to sportsmen, such as fishing, crabbing, and hunting waterfowl and alligator.

Project Status: 
Conceptual > Feasibility & Planning > Engineering & Design > Under Construction > Completed

Read More

River Reintroduction into Maurepas Swamp

  • State: Louisiana
  • Type: Sediment Diversion
  • Basin: Pontchartrain-Maurepas Basin

Also known as Mississippi River Reintroduction into Maurepas Swamp, this diversion project, near Garyville, Louisiana will channel fresh water and some sediment from the river to benefit the eastern Maurepas swamp. Dominated by bald cypress and water tupelo trees, this swamp is one of the largest forested wetlands in the nation. However, levees constructed along the river and the closure of Bayou Manchac have isolated the area from spring floods that once provided vital fresh water, nutrients and sediment. This along with higher salinities that were throughout the Pontchartrain Basin before the closure of the Mississippi River-Gulf Outlet has left the swamp in a state of rapid decline – trees are dying, and young trees are not growing to replace them. The East Maurepas Diversion will benefit the swamp by reconnecting it with the river, preventing further loss and the conversion to open water, and push back against future increases in salinity due to sea level rise. .

Fish and Waterfowl Benefits

Increased fresh water and nutrient input in the Maurepas Swamp will help prevent further conversion of swamp to open water and combat saltwater intrusion into the more than 100,000 acre Maurepas Swamp Wildlife Management Area which offers opportunities for sportsmen to hunt white-tailed deer, ducks and alligator and fish for freshwater species, such as largemouth bass, sunfish, and crappie.

Project Status:
Conceptual > Feasibility & Planning > Engineering & Design > Under Construction > Completed

Latest News: $14.2 million awarded to design, engineer Maurepas Swamp diversion project

Read More

Increase Atchafalaya Flow into Terrebonne Marshes

  • State: Louisiana
  • Type: Hydrologic Restoration
  • Basin: Terrebonne-Atchafalaya Basin
  • Land Benefit: 17,200 acres

This freshwater diversion project stretches from the Atchafalaya River to the Houma Navigation Canal, which is part of the Gulf Intracoastal Waterway system. Terrebonne Basin marshes are equally far away from the Mississippi and Atchafalaya rivers and are blocked from significant amounts of river water and sediment. As a result of saltwater intrusion and sediment starvation, these marshes have been rapidly converted to open water. This project would dredge and deepen the Gulf Intracoastal Waterway to increase the flow of fresh water from the Atchafalaya River eastward, to help sustain northern Terrebonne Marshes.

Fish and Waterfowl Benefits

Over the last 50 years, while there’s been net land gain around the Atchafalaya River and Wax Lake Outlet, more than 250,000 acres of land have been lost in Terrebonne Bay. This project will increase freshwater input into northern Terrebonne marshes to sustain and protect freshwater marshes, benefitting important habitat for fish and wildlife, like the Mandalay National Wildlife Refuge where sportsman can crab, fish, hunt waterfowl, hogs and white-tailed deer.

Project Status: 
Conceptual > Feasibility & Planning > Engineering & Design > Under Construction > Completed

Read More

Mid-Breton Sediment Diversion

  • State: Louisiana
  • Type: Sediment Diversion
  • Basin: Breton-Chandeleur Basin
  • Land Benefit: 20,232 acres

This project will be located along the east bank of the river, near White Ditch, Louisiana. This sediment diversion will supply fresh water and sediment into deteriorating marshes of the Breton Sound Basin. The wetlands in the project’s influence area have disappeared due to changes in the supply and distribution of fresh water, sediment starvation, rapid subsidence, saltwater intrusion and storm events. This project will reconnect the wetlands in the mid-Breton Basin with the river, diverting sediment and fresh water to build new land and sustain existing marsh.

Fish and Waterfowl Benefits

This project will build, enhance, sustain and protect wetlands in the mid-Breton Basin. The project will also help restore and maintain the estuarine gradient (fresh water habitat in the upper basin to salt water closer to the Gulf) that is vital to the estuary’s fish, blue crabs, and waterfowl, other species and recreational fish species in the Gulf.

Project Status: 
Conceptual > Feasibility & Planning > Engineering & Design > Under Construction > Completed

Read More

Large-Scale Barataria Marsh Creation

  • State: Louisiana
  • Type: Marsh Restoration
  • Basin: Barataria Basin
  • Land Benefit: 8,618 acres

This marsh creation project is in Mid-Barataria Basin in the vicinity of the town of Lafitte. Historically, there was a limited connection between the fresher upper basin and the saltier lower basin. Canal networks, erosion and subsidence have eaten holes through the natural barriers, exposing wetlands in the upper basin to saltwater intrusion and waves. A critical landscape feature, this project will continue to build on marsh creation projects that have been constructed or are under construction to strengthen the Barataria Landbridge. Sediment conveyed from the river through a pipeline will be used to build new marsh, nourish existing marsh in the area, help restore historic low salinities in the upper basin and help protect the nearby community of Lafitte from storm surge and tidal flooding.

Fish and Waterfowl Benefits

Restoration and renourishment of the Barataria Land-Bridge will help protect the 30,000 acre Salvador/Timken Wildlife Management Area and Jean Lafitte National Historic Park and Preserve, located in the upper part of the Barataria Basin, from the devastating effects of saltwater intrusion and damage from storms. Both of these areas provide freshwater habitat to waterfowl, deer, bass, catfish and other species and recreational opportunities to sportsman.

Project Status: 
Conceptual > Feasibility & Planning > Engineering & Design > Under Construction > Completed

Read More

Mid-Barataria Sediment Diversion

  • State: Louisiana
  • Type: Sediment Diversion
  • Basin: Barataria Basin
  • Land Benefit: 68,000 acres

This sediment diversion project is located on the west bank of the river, near Myrtle Grove. The brackish and freshwater wetlands in the area are highly degraded due to saltwater intrusion, decreased fresh water supply, alterations to the natural flow of water in the area and a lack of sediment input. This project will reconnect the river to the Barataria Basin and divert sediment and fresh water to build new land, maintain existing marshes and increase habitat’s ability to persist in the face of rising sea levels and recover from storm events.

Fish and Waterfowl Benefits

By building new land and helping to sustain the existing wetlands, this project will restore and enhance critical habitat for fish, ducks and other wildlife in mid-Barataria Basin. This project will also help to sustain the Barataria Landbridge which protects freshwater habitat in the upper part of the basin that provide recreational opportunities for sportsman, including the 30,000 acre Salvador/Timken Wildlife Management Area and the 20,000 acre Jean Lafitte National Historic Park and Preserve, from the saltwater intrusion and storms.

Project Status: 
Conceptual > Feasibility & Planning > Engineering & Design > Under Construction > Completed

Read More

Showing 11 - 18 of 18 results