Relatively little has been known until now about how temperature affects this microbial process, which is responsible for the initial breakdown of complex organic matter in sediments, said oceanographer Samantha Joye of the University of Georgia and lead scientist on the study.

"What we report was completely unexpected. Temperature short-circuits organic matter recycling," she said.

Joye and coworker, Nathaniel Weston, are publishing their results the week of Nov.14 in the Proceedings of the National Academy of Sciences.

"These surprising results show that temperature strongly affects organic matter breakdown and needs to be taken into account in understanding the role of sediments in the global carbon cycle," said Paul Kemp, program director in the National Science Foundation (NSF)'s Biological Oceanography Program, which supported the research along with NSF's Long-Term Ecological Research (LTER) Program.

The research was conducted at the Georgia Coastal Ecosystems LTER site located on the central Ga. coast and encompassing the estuaries, sounds and marshes surrounding Sapelo Island, Ga. There a buffer of barrier islands protect vast expanses of tidal salt marshes.

Scientists have long known that buried organic carbon in marine sediments plays a crucial role in many terrestrial and atmospheric processes. The number of microorganisms that feast upon this carbon is vast.

"The microbes responsible for organic matter degradation in sediments are often ignored," said Weston. "We were interested in opening the microbial 'black box' in sediments and clarifying the temperature controls on different microbial groups."

Weston and Joye studied sediment cores from Umbrella Creek near the mouth of the Satilla River on the Ga. coast. By sampling sediments at different times of the year, they found that temperature affected the processes that led to the breakdown of organic carbon. Microbes at work in sediments have different optimal temperature ranges, and thus operate at different rates, depending on temperature.

"Microbial processes involved in organic carbon breakdown are extremely sensitive to even small changes in temperature," said Joye. "These results suggest that global climate change may influence the efficiency of organic carbon recycling," impacting coastal ecosystems.

It's as yet unknown, said Joye, whether the temperature-driven changes documented for marine sediments in Ga., located in a temperate climate region, will apply to other geographic zones, such as tropical environments.

The research was also supported by the Georgia Sea Grant Program.

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