Lake Borgne is a lagoon of the Gulf of Mexico in southeastern Louisiana. Although early maps show it as a lake surrounded by land, coastal erosion has made it an arm of the Gulf of Mexico. Its name comes from the French word borgne, which means "one-eyed."
Geography
In southern Louisiana, three large lakes—Maurepas, Pontchartrain, and Borgne—cover 55% of the Pontchartrain Basin. A brackish marsh land bridge and Lake St. Catherine separate Lake Pontchartrain from Lake Borgne. The Rigolets and Chef Menteur Pass are the two open water connections between Pontchartrain and Borgne. File:National Atlas Louisiana east detailed.gif|thumb|left|Lake Borgne is southeast of Lake Pontchartrain and east of New Orleans, Louisiana. Due to coastal erosion, Borgne is now a lagoon connecting to the Gulf of Mexico. Early 18th-century maps show Borgne as a true lake, largely separated from the Gulf by a considerable extent of wetlands that have since disappeared. In a 1902 case before the United States Supreme Court over the oyster banks at the boundary between Louisiana and Mississippi, the State of Mississippi argued that at the time of Louisiana's admission into the Union, there probably was no such "Lake Borgne" or "Mississippi Sound". The basin contains 483,390 acres of wetlands, consisting of nearly 38,500 acres of fresh marsh, 28,600 acres of intermediate marsh, 116,800 acres of brackish marsh, 83,900 acres of saline marsh, and 215,600 acres of cypress swamp. Since 1932, more than 66,000 acres of marsh have converted to water in the Pontchartrain Basin—over 22% of the marsh that existed in 1932. The primary causes of wetland loss in the basin are the interrelated effects of human activities and the estuarine processes that began to predominate many hundreds of years ago. The Mississippi River delta was abandoned by natural changes in the river. In response to the extensive damage from Hurricane Katrina in 2005, the Army Corps of Engineers constructed the 1.8-mile-long IHNC Lake Borgne Surge Barrier, as part of the Hurricane and Storm Damage Risk Reduction System for southeast Louisiana. The project cost approximately $1.1 billion and was built at the confluence of the Gulf Intracoastal Waterway and the Mississippi River Gulf Outlet. It is the largest design-build civil works project in the history of the Corps. It was first used in 2012 to protect against storm surge from Hurricane Isaac, and was fully completed in 2013.
Ecology
The Mississippi Riverlevees significantly limit the input of fresh water, sediment, and nutrients into the Pontchartrain basin. This reduction in freshwater input plays a role in the critical problem of the Pontchartrain Basin—increased salinity. The construction of the Mississippi River–Gulf Outlet Canal, which breaches the natural barrier of the Bayou La Loutre ridge and the Borgne land bridge, has allowed sea water to push farther into the basin. Relative sea level rise of up to 0.96 feet per century also gives saltier waters greater access to surrounding wetlands. As a result, mean monthly salinities have increased since the construction of the MRGO and other canals. In recent years, salinities have stabilized. The heightened salinity has stressed wetlands, especially freshwater marshes and swamps. Since 1932, approximately 24% of the Borgne Land Bridge has been lost to severe shoreline retreat and rapid tidal fluctuations, and the loss rate is increasing. During the same time, 17% of the Maurepas Land Bridge marshes disappeared due to subsidence and spikes in lake salinity. These land bridges prevent estuarine processes, such as increased salinity and tidal scour, from pushing further into the middle and upper basins. Additionally, from 1968 to 1988, 32% of the cypress swamp on the land bridge had either converted to marsh or became open water. If these buffers are not preserved, the land loss rates around Lakes Pontchartrain and Maurepas will increase dramatically. Several marshes in the basin are vulnerable to rapid loss if adequate protection is not quickly provided.