The precise control that tuna have of their fins for tight turns and movement while swimming is aided by hydraulic activity of the lymphatic system, a new study reveals. Furthermore, the authors found that this specialization of the lymphatic system is associated with other fishes in the family Scombridae, suggesting that it may have evolved in response to the demand for the sophisticated maneuvering control in these high-performance species. The new report was published in the July 21, 2017 issue of Science and is titled “Hydraulic Control of Tuna Fins: A role for the lymphatic system in vertebrate locomotion.” While dissecting tuna fins, Vadim Pavlov, PhD, of the Stanford University Hopkins Marine Station in Pacific Grove, California, and colleagues found a chamber-like compartment, or large vascular sinus (VS), located at the base of both the second dorsal and anal fins. When the scientists pumped fluid into the chamber, this provided finely controlled adjustment of the fin. Close video monitoring of tuna as they swam revealed that the degree of fin erection increases when tuna are engaging in behaviors that require frequent changes in movement direction, such as searching and feeding, compared to when the fish are simply cruising. Next, the researchers injected special fluid into the VS of tuna to trace fluid dynamics throughout the system.
Login Or Register To Read Full Story