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Surveying Life On Sea Turtles

Two baby olive ridley sea turtles.

These baby olive ridleys (Lepidochelys olivacea) will eventually provide a home to crustaceans, mollusks, and other epibionts. That's according to a survey of epibionts living on mature, nesting olive ridleys and green sea turtles in Jalisco, Mexico. 


Alejandro Peña de Niz

“It is strange to think of a sea turtle as an ecosystem,” says Amanda Feuerstein, program coordinator and research assistant at the Smithsonian’s National Museum of Natural History, “but they are…they have all of these other animals living on their skin and shells.”

Feuerstein is co-author of a recent survey documenting the crustaceans, mollusks, algae, and other marine organisms that make a home on the bodies of olive ridley and green sea turtles living in the Pacific. For three years—2001, 2002, and 2008—on Teopa Beach in Jalisco, Mexico, Feuerstein and colleagues examined the shell, neck, and flippers of female turtles that had come out onto the beach to nest, collecting and carefully documenting all the organisms—known as epibionts—they found. 

It is the first comprehensive survey on Pacific turtle epibionts, and was recently published in the Bulletin of the Peabody Museum of Natural History. The survey was organized by the Turtle Epibiont Project of the Yale Peabody Museum of Natural History.

Sixteen different epibiont species were found on the turtles, Feuerstein says, including crabs, a variety of barnacles, the remora or “shark sucker,” and leeches. Most of the Pacific sea turtle epibionts are obligate—meaning they are found only on sea turtles, nowhere else.

A composite photograph of three of the crustaceans found living on olive ridley and green turtles in the Pacific.

Crustaceans were just some of the epibionts found living on olive ridley and green turtles in the Pacific. Others organisms included leeches, barnacles and algae.


Eric Lazo-Wasem, Peabody Museum of Natural History at Yale University

Compared to turtles living in the Atlantic, “the Pacific turtles are coming up pretty darn clean,” says Eric Lazo-Wasme of the Peabody Museum of Natural History, lead author of the study. Similar surveys of Atlantic Ocean turtles have recorded as many as 90 epibiont species living on them. The scientists are uncertain why Pacific turtles have fewer epibionts.

“For years we considered epibionts as harmless hitchhikers on the turtles, but that opinion is starting to change,” Lazo-Wasem explains. “Barnacles in large numbers can cause significant drag on a turtle as it swims and some barnacles embed into the skin and have very long projections that pierce laterally into the skin.”  Leeches have also been shown to transmit disease.

The impetus for the survey was born out of conservation concern for sea turtles as an endangered species. Coevolutionary relationships between turtles and their epibionts, and how these relationships affect turtle health and ecology have only recently come under scrutiny, the researchers say.

Amanda Feuerstein with a nesting olive ridley (Lepidochelys olivacea). Feuerstein is a co-author of a study that surveyed algae, crustaceans, mollusks, and other epibionts that live on the turtles in the Pacific Ocean.


Amanda Feuerstein

The study includes photographs of and taxonomic commentary on each of the epibiont species documented and survey instructions for future studies on how to collect epibionts from sea turtles. “We wanted to make the paper one that people could really use,” Lazo-Wasem says. “We weren’t really pleased with past surveys because there was not a lot of detail in them.”

“When we endanger animals like sea turtles many other groups of animals are affected,” Feuerstein says. “Losing one species is more complicated and tragic” than people may realize.

Epibionts Associated with the Nesting Marine Turtles Lepidochelys olivacea and Chelonia mydas in Jalisco, Mexico: A Review and Field Guide” appeared in the Bulletin of the Peabody Museum of Natural History and was co-authored by Eric Lazo-Wasem, Amanda Feuerstein, Theodora Pinou of Western Connecticut State University and Alejandro Pena de Niz, of the Centro Para La Proteccion y Conservacion de Tortugas Marinas.

Editor's Note: This post was originally published on Smithsonian Science. Amanda Feuerstein is an occasional contributor to the Ocean Portal blog.