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First published online August 8, 2008
Journal of Experimental Biology 211, 2658-2668 (2008)
Published by The Company of Biologists 2008
doi: 10.1242/jeb.018853

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Scaling of suction-induced flows in bluegill: morphological and kinematic predictors for the ontogeny of feeding performance

Roi Holzman^1,*, David C. Collar^1,2, Steven W. Day³, Kristin L. Bishop¹ and Peter C. Wainwright¹

¹ Section of Evolution and Ecology, University of California, One Shields Avenue, Davis, CA 95616, USA
² Department of Organismic and Evolutionary Biology, Harvard University, 26 Oxford Street, Cambridge, MA 02138, USA
³ Department of Mechanical Engineering, Rochester Institute of Technology, 76 Lomb Memorial Drive, Rochester, NY 14623-5604, USA

^* Author for correspondence (e-mail: raholzman{at}ucdavis.edu)

Accepted 6 June 2008

During ontogeny, animals undergo changes in size and shape that result in shifts in performance, behavior and resource use. These ontogenetic changes provide an opportunity to test hypotheses about how the growth of structures affects biological functions. In the present study, we ask how ontogenetic changes in skull biomechanics affect the ability of bluegill sunfish, a high-performance suction feeder, to produce flow speeds and accelerations during suction feeding. The flow of water in front of the mouth was measured directly for fish ranging from young-of-year to large adults, using digital particle imaging velocimetry (DPIV). As bluegill size increased, the magnitude of peak flow speed they produced increased, and the effective suction distance increased because of increasing mouth size. However, throughout the size range, the timing of peak fluid speed remained unchanged, and flow was constrained to approximately one gape distance from the mouth. The observed scaling relationships between standard length and peak flow speed conformed to expectations derived from two biomechanical models, one based on morphological potential to produce suction pressure (the Suction Index model) and the other derived from a combination of morphological and kinematic variables (the Expanding Cone model). The success of these models in qualitatively predicting the observed allometry of induced flow speed reveals that the scaling of cranial morphology underlies the scaling of suction performance in bluegill.

Key words: biomechanics, ontogeny, scaling, suction feeding, hydrodynamics

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