An article in the current issue of the journal Marine Ecology Progress Series describes experiments by URI Graduate School of Oceanography (GSO) biological oceanographers Lora Harris, Betty Buckley, Scott Nixon, and Ben Allen to investigate how different habitats affect predator-prey relationships. The three habitats in the study included eelgrass Zostera marina, macroalgae, and bare sediment.
The study was supported by Rhode Island Sea Grant and carried out in the Lagoon Mesocosm Facility, located at the GSO's Narragansett Bay Campus.
Mesocosms containing marine sediments, coastal water, and varying densities of eelgrass or macroalgae were used to simulate conditions found in shallow coastal lagoons of Rhode Island. Bluefish, commonly found in Narragansett Bay and Rhode Island salt ponds, were used as predators in each experiment after appropriate acclimation in each habitat type. Prey fish were provided in equally weighted rations and included silversides, tautog, cunner, and menhaden, all species found in local eelgrass meadows and all part of the bluefish diet.
The scientists found that the presence of eelgrass significantly increased survival of silversides, tautog, and cunner even at very low shoot densities. Experiments using macroalgae did not result in significantly different survival rates between bare sand and macroalgae habitat for silversides or cunner, the two species tested for this vegetation type.
"These findings confirm the hypothesis that eelgrass habitats serve a functional role as refuges from predation for some prey fish," said Harris. "Studies have shown that the more
Contact: Lisa Cugini
University of Rhode Island