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Louisiana Sinkhole? -Gulf Stream Shift Linked to Methane Gas Escaping from Seabeds

“The new work could reinvigorate a debate on the risk of methane release from the oceans and whether destabilized hydrates make the continental slopes more unstable”

By Nature magazine and Virginia Gewin

Somewhere off the eastern coast of North Carolina, a frozen mixture of water and methane gas tucked in seabed sediments is starting to break down. Researchers blame a shifting Gulf Stream — the swift Atlantic Ocean current that flows north from the Gulf of Mexico — which is now delivering warmer waters to areas that had previously only experienced colder temperatures.

“We know methane hydrates exist here and, if warming continues, it can potentially lead to less stable sediments in this region,” says Matthew Hornbach, a marine geologist at the Southern Methodist University in Dallas, Texas, who led the study that is published online today in Nature. The results suggest that the warmer temperatures are destabilizing up to 2.5 gigatons of methane hydrate along the continental slope of the eastern United States. This region is prone to underwater landslides, which could release the methane, a powerful greenhouse gas.

Whether that methane would make it to the atmosphere and worsen global warmingis unclear, but scientists think that it is unlikely. “We don’t need to worry about any huge blow of methane into the atmosphere,” says Carolyn Ruppel, a geophysicist at the US Geological Survey in Woods Hole, Massachusetts. Rather, she says, Hornbach and his co-author Benjamin Phrampus, also of the Southern Methodist University, have uncovered a powerful new way to use data from the geological record to catch non-anthropogenic climate changes that are already happening.

Frozen zone
The authors’ approach combines models of subsurface temperature dynamics with seismic images to directly detect the depth at which the methane hydrate is no longer stable and shifts from a frozen solid to free gas. Because hydrate formation is dependent on temperature, the position of the bottom of this frozen zone can be used to estimate subsurface temperature dynamics.

Using seismic data collected in 1977 to model where they expected the frozen methane to become gaseous in the western North Atlantic margin, they found that the observed interface between the frozen solid and the free gas was much deeper than predicted. After systematically checking every detail, the team ruled out several factors that could have explained their observations — including sea-level changes, increased sedimentation rates or decreased heat flow through the sediments. They eventually realized that the only thing that could cause the discrepancy was that the water was cooler in the past. Phrampus ran the model again using data from much cooler waters 100 kilometers northwest of the Gulf Stream, and got an almost perfect fit.

Next, the authors modeled heat flow through the methane hydrate sediments in relation to time, and estimated that it would take around 5,000 years of warmer waters for all of the methane to sublimate and become gas. “We don’t know where we are in the 5,000-year time frame, but our best approximation suggests we are 800 to 1,000 years in,” says Phrampus.

Trouble ahead?
This work promises to reinvigorate an ongoing debate over the risk of methane release from the oceans and whether destabilized hydrates make the continental slopes more unstable.

http://www.scientificamerican.com/article.cfm?id=gulf-stream-shift-linked-to-methane-gas-escaping-from-seabeds

November 2, 2012 - Posted by | Uncategorized

3 Comments »

  1. Reblogged this on The Louisiana Sinkhole Bugle and commented:
    Just what fragile methane laden seabed needs … fracking & BP drilling!

    Comment by flyingcuttlefish | November 3, 2012 | Reply

  2. The scientists who know about the methane need to sound the alarm about all the fracking go on near this methane!
    And they need to follow the BP disaster and its ongoing effects on Louisiana’s subsurface.

    Comment by flyingcuttlefish | November 3, 2012 | Reply


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