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Bigger may not be better for Mississippi River diversionsBigger may not be better for Mississippi River diversions

New research shows how river diversions may change water quality in estuaries.

February 13, 2017

3 Min Read
Bigger may not be better for Mississippi River diversions
The Caernarvon Freshwater Diversion structure, located at the head of Breton Sound Estuary, became operational in 1992.Credit: U.S. Army Corps of Engineers (Public domain.)

River diversions are a common coastal wetland restoration tool, but recent research — conducted by the U.S. Geological Survey (USGS) in collaboration with researchers in Louisiana State University’s department of civil and environmental engineering and AgCenter — has shown that large-scale Mississippi River diversions may significantly change water quality in estuaries, affecting economically important shellfish and fish species.

River diversions are used to provide sediment and nutrients to surrounding estuaries to help rebuild wetlands and are managed by the state of Louisiana in partnership with the U.S. Army Corps of Engineers and other federal agencies. Large-scale diversions in the Mississippi River have been planned to enhance coastal wetland resilience and help them keep pace with sea-level rise.

“The large-scale diversions will likely cause shifts in salinity, which have huge implications for the plants and animals that need a specific salinity,” said USGS research ecologist Hongqing Wang, lead author of the study. “Oysters, in particular, need suitable salinities in estuaries in order to grow big enough to harvest and to produce the next generation.”

Louisiana is the number-one supplier of shrimp, blue crab, crawfish and oysters in the U.S., according to the Louisiana Department of Wildlife & Fisheries. The commercial oyster industry is important ecologically and economically, providing thousands of jobs to commercial fishermen and billions of dollars in income to the state.

Researchers modeled water quality variations in Breton Sound, an estuary in coastal Louisiana that has been influenced by more than two decades of freshwater diversions. They found that small-scale diversions tended to influence water quality in small areas near the diversion, while large-scale diversions affected the entire estuary.

The study is one of few to consider the diversions in the context of sea-level rise, which is an issue of concern on Louisiana’s coastline. USGS estimates that about 90% of the total wetland loss taking place in the continental U.S. is occurring in Louisiana, which has lost an estimated 25% of its land area since 1932.

Even without large-scale diversions, sea-level rise will influence water quality conditions across Breton Sound, Wang said. The impacts of diversions in combination with sea-level rise are more complicated.

“Sea-level rise actually works as an opposite force to the large-scale diversions, and when they interact, water quality conditions become more variable,” Wang said. “This is because there are complex forces — such as sediment transport, river flow, tides and biological processes — interacting within the estuary.”

Large-scale diversions are a cornerstone of Louisiana’s coastal restoration master plan, which lists projects that build or maintain land in response to the state’s coastal land loss.

Wang pointed out that large diversions may have positive benefits for rebuilding wetlands.

“However, when future large, controlled sediment diversions are being considered in order to build new land or rebuild eroded land, it is important to consider their effects on the population and habitat of oysters and other important fishery species,” Wang said.

The study, “A Modeling Study of the Impacts of Mississippi River Diversion & Sea-Level Rise on Water Quality of a Deltaic Estuary,” has been published in Estuaries & Coasts journal and is available online.

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