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27 December 2022 Simulated Green Turtle Grazing Reduces Seagrass Productivity and Alters Benthic Community Structure While Triggering Further Disturbance by Feeding Stingrays
Abigail Libbin Cannon, Michael G. Hynes, Mackenzie Brandt, Christian Wold, Aaron O'Dea, Andrew H. Altieri, Jennifer E. Smith
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Abstract

While green turtles (Chelonia mydas) were once abundant throughout the Caribbean, over-exploitation has dramatically reduced their numbers. We conducted a 168-day simulated grazing experiment to determine how loss of this once-abundant mega-herbivore could have affected the productivity and community composition of Thalassia testudinum-dominated seagrass beds in Bocas del Toro, Panama. Simulated grazing reduced both percent cover and productivity of T. testudinum. High runoff and local pollution from industrial farming may limit light availability and reduce seagrass photosynthetic performance to replace biomass lost to simulated grazing. Other seagrass species and algae failed to colonize space opened by reductions in T. testudinum percent cover. Many plots subjected to simulated grazing were also bioturbated by stingrays. Relevance of these findings to balancing sea turtle and seagrass conservation efforts are discussed.

© Copyright 2022 by the College of Arts and Sciences of the University of Puerto Rico, Mayagüez
Abigail Libbin Cannon, Michael G. Hynes, Mackenzie Brandt, Christian Wold, Aaron O'Dea, Andrew H. Altieri, and Jennifer E. Smith "Simulated Green Turtle Grazing Reduces Seagrass Productivity and Alters Benthic Community Structure While Triggering Further Disturbance by Feeding Stingrays," Caribbean Journal of Science 52(2), 373-388, (27 December 2022). https://doi.org/10.18475/cjos.v52i2.a16
Published: 27 December 2022
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