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Jaw lever analysis of Hawaiian gobioid stream fishes: A simulation study of morphological diversity and functional performance

2009; Wiley; Volume: 270; Issue: 8 Linguagem: Inglês

10.1002/jmor.10737

1097-4687

Takashi Maie, Heiko L. Schoenfuss, Richard W. Blob,

Fish Biology and Ecology Studies

Abstract Differences in feeding behavior and performance among the five native Hawaiian gobioid stream fishes ( Sicyopterus stimpsoni , Lentipes concolor , Awaous guamensis , Stenogobius hawaiiensis , and Eleotris sandwicensis ) have been proposed based on the skeletal anatomy of their jaws and dietary specialization. However, performance of the feeding apparatus likely depends on the proportions and configurations of the jaw muscles and the arrangement of the jaw skeleton. We used a published mathematical model of muscle function to evaluate potential differences in jaw closing performance and their correlations with morphology among these species. For example, high output force calculated for the adductor mandibulae muscles (A2 and A3) of both A. guamensis and E. sandwicensis matched expectations based on the morphology of these species because these muscles are larger than in the other species. In contrast, Stenogobius hawaiiensis exhibited an alternative morphological strategy for achieving high relative output forces of both A2 and A3, in which the placement and configuration of the muscles conveyed high mechanical advantage despite only moderate cross‐sectional areas. These differing anatomical pathways to similar functional performance suggest a pattern of many‐to‐one mapping of morphology to performance. In addition, a functional differentiation between A2 and A3 was evident for all species, in which A2 was better suited for producing forceful jaw closing and A3 for rapid jaw closing. Thus, the diversity of feeding performance of Hawaiian stream gobies seems to reflect a maintenance of functional breadth through the retention of some primitive traits in combination with novel functional capacities in several species. J. Morphol. 2009. © 2009 Wiley‐Liss, Inc.