Mixed Report for Oiled Salt Marshes

Louisiana’s salt marshes are recovering from the Deepwater Horizon oil spill, but some areas have been irreversibly lost.

By Ed Yong | June 25, 2012

Affected salt marshesSilliman et al

Affected salt marshesSILLIMAN ET AL

Two years after the Louisiana coastline was coated by crude oil released from the broken Deepwater Horizon oil rig, much of the 75 kilometres of affected salt marshes has recovered, but some areas that were already degraded by human activities have been irrevocably lost. The report, published today in the Proceedings of the National Academy of Sciences, is thus cause for both optimism and concern.

“It would be premature to conclude that the oil-impacted marshes are out of the proverbial woods yet,” said Christopher D'Elia, dean of the School of the Coast and Environment at Louisiana State University.

Salt marshes protect the land and sea from each other. They shelter the shoreline from eroding waves, while their plants absorb nutrients from inland run-offs that might otherwise cause harmful algal blooms. They also provide nurseries for fish and shellfish. “Louisiana coastal waters usually boil with fish and shrimp with the help of [the marshes],” said ecologist Brian Silliman from the University of Florida, who led the study.

Unfortunately, the marshes are under threat. Even before the BP oilrig sprung a leak in the spring of 2010, pollution and other man-made disturbances were destroying a football field’s worth of wetlands every hour.

In October 2010, 5 months after the oil reached Louisiana, Silliman surveyed three affected sites at Barataria Bay, one of the most heavily contaminated areas. Tall grasses prevented the spill from reaching beyond 15 metres of the shoreline but at the edge of the marsh, up to 82 percent of the local vegetation was smothered by oil. “It looked like a thick, black belt alone the shoreline,” said Silliman.

The oiled zone contained dead and flattened grass, piles of snail corpses, and empty mussel shells. Below ground, around 95 percent of plant roots were dead.

When Silliman’s team revisited the same sites in April 2011, the marshes had started to bounce back. Plant cover in the barren areas had increased by around 20 percent. The grasses from the unaffected areas had sent roots into the dead zones, and had started to repopulate them.

Silliman expected the quick recovery. “Salt marsh theory holds that marsh grasses are resilient to oil coverage and will bounce back in a few years from being covered with oil,” he said.  By January 2012, much of the marshland had completely recovered.

But not all areas were so lucky. In places where the marsh was already receding, the oil more than doubled the pace of erosion, with the shoreline retreating by 3 meters per year, compared to the usual average rate of 1.4 metres per year.

“The data confirm what other researchers have reported: oiled marshes are subject to enhanced rates of erosion,” said D'Elia.

By killing the local plants, the oil also destroyed the network of roots that binds the soil together. And with no new roots to fill in, the looser sediment was more quickly washed away by incoming wave. “This erosion permanently transforms the marsh into subtidal mudflats and grasses cannot regrow there,” said Silliman.

Silliman said that the study emphasises the need to stop the salt marshes from eroding away under normal conditions. “Most importantly, that includes increasing the supply of silt to these sediment-starved marshes,” he said. In Louisiana, the construction of channels along the Mississippi has robbed the salt marshes of valuable sediment, which they need to prevent erosion.

Whether this report holds true for all of Louisiana’s marshes affected by the oil spill remains to be seen, however. Silliman’s team only studied a small number of sites, D’Elia said, and the damaged zone may extend far deeper into the marshes at other locations.

B. R. Silliman et al., “Degradation and resilience in Louisiana salt marshes after the BP-Deepwater Horizon oil spill,” Proceedings of the National Academy of Sciences, doi:10.1073/pnas.1204922109, 2012.

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Avatar of: Rob-in-Hood


Posts: 1457

June 26, 2012

A sign of things to come there are a lot more leaks to come we don't get it and never will, oil spills are bad for the environment but governments don't get that. The Sun is free energy and the government can't benefit so they can't make the money, and oil corporations are doing everything they can to keep the world addicted to this crap. Nothing will change because they don't want to so there is nothing left but to watch the world die bit by bit. There are more disaster and more intense weather events occurring daily, I wonder just when it all starts crumbling around us but we only have ourselves to blame. I am sure one day we will regret whats happening but by that time it will be to late.

Avatar of: N K Mishra

N K Mishra

Posts: 1457

June 27, 2012

Salt marshes act as buffer and provide an interface for diversity.

Avatar of: kate s

kate s

Posts: 1457

July 17, 2012

 we are currently under compression, the entire heliosphere, sun and all.  This compression is our birthright.  That explains the scientific confirmations and in depth finding of matters previous only guessed at.  The compression will end 2013 and if science has a way to collect sun ions, then perhaps a small area can be maintained in compression.  Our bodies were designed to be in this compression of gases.  Everything functions as it should and deteriorates when it is not.  Kepler findings of planetary/sun systems confirm we are unusual.  Most of our history is inside this lack of compression so the planet adapts.  We also.  Most of our planet is salt water.  Our blood is salt water.  There will be salt/land contacts in the future. 

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