Locomotor function of the dorsal fin in teleost fishes: experimental analysis of wake forces in sunfish

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The Journal of Experimental Biology 204, 2943-2958 (2001)
© 2001 The Company of Biologists Limited

Locomotor function of the dorsal fin in teleost fishes: experimental analysis of wake forces in sunfish

Eliot G. Drucker¹^,* and George V. Lauder²

¹ Department of Ecology and Evolutionary Biology, University of California, Irvine, CA 92697, USA and
² Museum of Comparative Zoology, Harvard University, 26 Oxford Street, Cambridge, MA 02138, USA

*e-mail: edrucker{at}uci.edu

Accepted June 12, 2001

A key evolutionary transformation of the locomotor system ofray-finned fishes is the morphological elaboration of the dorsalfin. Within Teleostei, the dorsal fin primitively is a singlemidline structure supported by soft, flexible fin rays. In itsderived condition, the fin is made up of two anatomically distinctportions: an anterior section supported by spines, and a posteriorsection that is soft-rayed. We have a very limited understandingof the functional significance of this evolutionary variationin dorsal fin design. To initiate empirical hydrodynamic studyof dorsal fin function in teleost fishes, we analyzed the wakecreated by the soft dorsal fin of bluegill sunfish (Lepomismacrochirus) during both steady swimming and unsteady turningmaneuvers. Digital particle image velocimetry was used to visualizewake structures and to calculate in vivo locomotor forces. Studyof the vortices generated simultaneously by the soft dorsaland caudal fins during locomotion allowed experimental characterizationof median-fin wake interactions.

During high-speed swimming (i.e. above the gait transition frompectoral- to median-fin locomotion), the soft dorsal fin undergoesregular oscillatory motion which, in comparison with analogousmovement by the tail, is phase-advanced (by 30% of the cycleperiod) and of lower sweep amplitude (by 1.0cm). Undulationsof the soft dorsal fin during steady swimming at 1.1bodylengths^-1generate a reverse von Kármán vortex street wakethat contributes 12% of total thrust. During low-speed turns,the soft dorsal fin produces discrete pairs of counterrotatingvortices with a central region of high-velocity jet flow. Thisvortex wake, generated in the latter stage of the turn and posteriorto the center of mass of the body, counteracts torque generatedearlier in the turn by the anteriorly positioned pectoral finsand thereby corrects the heading of the fish as it begins totranslate forward away from the turning stimulus. One-thirdof the laterally directed fluid force measured during turningis developed by the soft dorsal fin. For steady swimming, wepresent empirical evidence that vortex structures generatedby the soft dorsal fin upstream can constructively interactwith those produced by the caudal fin downstream. Reinforcementof circulation around the tail through interception of the dorsalfin’s vortices is proposed as a mechanism for augmentingwake energy and enhancing thrust.

Swimming in fishes involves the partitioning of locomotor forceamong several independent fin systems. Coordinated use of thepectoral fins, caudal fin and soft dorsal fin to increase wakemomentum, as documented for L. macrochirus, highlights the abilityof teleost fishes to employ multiple propulsors simultaneouslyfor controlling complex swimming behaviors.

Key words: swimming, maneuvering, locomotion, dorsal fin, vortex wake, wake interaction, flow visualization, digital particle image velocimetry, bluegill sunfish, Lepomis macrochirus.

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				E. D. Tytell Median fin function in bluegill sunfish Lepomis macrochirus: streamwise vortex structure during steady swimming J. Exp. Biol., April 15, 2006; 209(8): 1516 - 1534. [Abstract] [Full Text] [PDF]

				E. G. Drucker and G. V. Lauder Locomotor function of the dorsal fin in rainbow trout: kinematic patterns and hydrodynamic forces J. Exp. Biol., December 1, 2005; 208(23): 4479 - 4494. [Abstract] [Full Text] [PDF]

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				E. D. Tytell The hydrodynamics of eel swimming II. Effect of swimming speed J. Exp. Biol., September 1, 2004; 207(19): 3265 - 3279. [Abstract] [Full Text] [PDF]

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				R. W. Nero, C. H. Thompson, and J. Michael Jech In situ acoustic estimates of the swimbladder volume of Atlantic herring (Clupea harengus) ICES J. Mar. Sci., January 1, 2004; 61(3): 323 - 337. [Abstract] [Full Text] [PDF]

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				E. G. Drucker and G. V. Lauder Function of pectoral fins in rainbow trout: behavioral repertoire and hydrodynamic forces J. Exp. Biol., March 1, 2003; 206(5): 813 - 826. [Abstract] [Full Text] [PDF]

				G. V. Lauder and E. G. Drucker Forces, Fishes, and Fluids: Hydrodynamic Mechanisms of Aquatic Locomotion Physiology, December 1, 2002; 17(6): 235 - 240. [Abstract] [Full Text] [PDF]

				U. K. Muller, E. J. Stamhuis, and J. J. Videler Riding the Waves: the Role of the Body Wave in Undulatory Fish Swimming Integr. Comp. Biol., November 1, 2002; 42(5): 981 - 987. [Abstract] [Full Text] [PDF]

				E. G. Drucker and G. V. Lauder Wake Dynamics and Locomotor Function in Fishes: Interpreting Evolutionary Patterns in Pectoral Fin Design Integr. Comp. Biol., November 1, 2002; 42(5): 997 - 1008. [Abstract] [Full Text] [PDF]

				G. V. Lauder, J. C. Nauen, and E. G. Drucker Experimental Hydrodynamics and Evolution: Function of Median Fins in Ray-finned Fishes Integr. Comp. Biol., November 1, 2002; 42(5): 1009 - 1017. [Abstract] [Full Text] [PDF]

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