Drift macroalgal distribution in northern Gulf of Mexico seagrass meadows
Kelly M. Correia,
Scott B. Alford,
Benjamin A. Belgrad,
Kelly M. Darnell,
M. Zachary Darnell,
Bradley T. Furman,
Margaret O. Hall,
Christian T. Hayes,
Charles W. Martin,
Ashley M. McDonald,
Delbert L. Smee
Affiliations
Kelly M. Correia
Dauphin Island Sea Lab, Dauphin Island, AL, United States of America
Scott B. Alford
Nature Coast Biological Station, University of Florida, Cedar Key, FL, United States of America
Benjamin A. Belgrad
Dauphin Island Sea Lab, Dauphin Island, AL, United States of America
Kelly M. Darnell
Division of Coastal Sciences, School of Ocean Science and Engineering, The University of Southern Mississippi, Ocean Springs, MS, United States of America
M. Zachary Darnell
Division of Coastal Sciences, School of Ocean Science and Engineering, The University of Southern Mississippi, Ocean Springs, MS, United States of America
Bradley T. Furman
Florida Fish and Wildlife Conservation Commission, Fish and Wildlife Research Institute, St. Petersburg, FL, United States of America
Margaret O. Hall
Florida Fish and Wildlife Conservation Commission, Fish and Wildlife Research Institute, St. Petersburg, FL, United States of America
Christian T. Hayes
Division of Coastal Sciences, School of Ocean Science and Engineering, The University of Southern Mississippi, Ocean Springs, MS, United States of America
Charles W. Martin
Nature Coast Biological Station, University of Florida, Cedar Key, FL, United States of America
Ashley M. McDonald
Nature Coast Biological Station, University of Florida, Cedar Key, FL, United States of America
Delbert L. Smee
Dauphin Island Sea Lab, Dauphin Island, AL, United States of America
Drift macroalgae, often found in clumps or mats adjacent to or within seagrass beds, can increase the value of seagrass beds as habitat for nekton via added food resources and structural complexity. But, as algal biomass increases, it can also decrease light availability, inhibit faunal movements, smother benthic communities, and contribute to hypoxia, all of which can reduce nekton abundance. We quantified the abundance and distribution of drift macroalgae within seagrass meadows dominated by turtle grass Thalassia testudinum across the northern Gulf of Mexico and compared seagrass characteristics to macroalgal biomass and distribution. Drift macroalgae were most abundant in areas with higher seagrass shoot densities and intermediate canopy heights. We did not find significant relationships between algal biomass and point measures of salinity, temperature, or depth. The macroalgal genera Laurencia and Gracilaria were present across the study region, Agardhiella and Digenia were collected in the western Gulf of Mexico, and Acanthophora was collected in the eastern Gulf of Mexico. Our survey revealed drift algae to be abundant and widespread throughout seagrass meadows in the northern Gulf of Mexico, which likely influences the habitat value of seagrass ecosystems.
