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Linking form and function of the fibrous joints in the skull: A new quantification scheme for cranial sutures using the extant fish Polypterus endlicherii
Author(s) -
Markey Molly J.,
Marshall Charles R.
Publication year - 2007
Publication title -
journal of morphology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.652
H-Index - 74
eISSN - 1097-4687
pISSN - 0362-2525
DOI - 10.1002/jmor.10504
Subject(s) - extant taxon , biology , skull , fish <actinopterygii> , anatomy , form and function , evolutionary biology , fishery
The aim of this study is to connect specific sutural morphologies with the specific types of deformation they experience. To meet this goal, we quantified the morphologies of the interfrontal (IF), interparietal (IP), and frontoparietal (FP) sutures in the extant fish Polypterus endlicherii , and used our published measurements of in vivo deformation of these sutures during feeding to infer how suture morphology and function are connected. Specifically, we found that three relatively simple measures of cross‐sectional suture complexity (i.e., the ratio of total sutural length to its shortest end‐to‐end length; amount of sutural overlap; and size of the largest interdigitation) can be used to distinguish between the IF, FP, and IP sutures, which exhibit very different cross‐sectional shapes and responses to loading. Interestingly, these differences in cross‐sectional morphology are not reflected by the linear traces of these sutures on the surface of the skull, implying that cross‐sectional shape of a suture must be known to infer the loading conditions it experiences. Plotting the three cross‐sectional metrics against one another to yield a sutural morphospace shows that the IF, IP, and FP sutures define regions that are largely distinct from one another. Our previous measurements of strain across these sutures suggested that the FP region would lie between the IF and IP regions; instead, the FP region is largely set apart from the other two fields. Based on this discovery, and on the locations of cranial muscles, we propose a new model of deformation in the skull of P. endlicherii during feeding, in which rotation parallel to the skull roof is combined with bending, subjecting the FP suture to complex shearing. Finally, although the sutures of P. endlicherii appear to be significantly less complex than those of mammals, these fish sutures show a similar range of morphologies and perform similar functions as do mammalian sutures. J. Morphol., 2007. © 2006 Wiley‐Liss, Inc.

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