[en] Serrasalmid fishes form a highly specialized group of biters that show a large trophic diversity, ranging from pacus able to crush seeds to piranhas capable of cutting flesh. Their oral jaw system has been hypothesized to be forceful, but variation in bite performance and morphology with respect to diet has not previously been investigated. We tested whether herbivorous species have higher bite forces, larger jaw muscles and more robust jaws than carnivorous species. We measured in vivo and theoretical bite forces in 27 serrasalmid species. We compared the size of the adductor mandibulae muscle, the jaw mechanical advantages, the type of jaw occlusion, and the size and shape of the lower jaw. We also examined the association between bite performance and functional morphological traits of the oral jaw system. Contrary to our predictions, carnivorous piranhas deliver stronger bites than their herbivorous counterparts. The size of the adductor mandibulae muscle varies with bite force and muscles are larger in carnivorous species. Our study highlights an underestimated level of functional morphological diversity in a fish group of exclusive biters. We provide evidence that the trophic specialization towards carnivory in piranhas results from changes in the configuration of the adductor mandibulae muscle and the lower jaw shape, which have major effects on bite performance and bite strategy.
Research Center/Unit :
FOCUS - Freshwater and OCeanic science Unit of reSearch - ULiège
Disciplines :
Zoology
Author, co-author :
Huby, Alessia ; Université de Liège - ULiège > Département de Biologie, Ecologie et Evolution > Morphologie fonctionnelle et évolutive
scite shows how a scientific paper has been cited by providing the context of the citation, a classification describing whether it supports, mentions, or contrasts the cited claim, and a label indicating in which section the citation was made.
Bibliography
Adams DC, Collyer ML, Kaliontzopoulou A, Sherratt E. 2017. Geomorph: software for geometric morphometric analyses. R package version 3.0.5. https://cran.r-project.org/web/packages/geomorph/index.html. Accessed 30 March 2019.
Adams DC, Otárola-Castillo E. 2013. Geomorph: an R package for the collection and analysis of geometric morphometric shape data. Methods in Ecology and Evolution 4: 393-399.
Adams DC, Rohlf FJ, Slice DE. 2013. A field comes of age: geometric morphometrics in the 21st century. Hystrix, the Italian Journal of Mammalogy 24: 7-14.
Aguirre LF, Herrel A, van Damme R, Matthysen E. 2002. Ecomorphological analysis of trophic niche partitioning in a tropical savannah bat community. Proceedings of the Royal Society B: Biological Sciences 269: 1271-1278.
Aguirre LF, Herrel A, Van Damme R, Matthysen E. 2003. The implications of food hardness for diet in bats. Functional Ecology 17: 201-212.
Albertson RC, Kocher TD. 2006. Genetic and developmental basis of cichlid trophic diversity. Heredity 97: 211-221.
Anderson PSL. 2009. Biomechanics, functional patterns, and disparity in Late Devonian arthrodires. Paleobiology 35: 321-342.
Anderson RA, McBrayer LD, Herrel A. 2008. Bite force in vertebrates: opportunities and caveats for use of a nonpareil whole-animal performance measure. Biological Journal of the Linnean Society 93: 709-720.
Astley HC, Abbott EM, Azizi E, Marsh RL, Roberts TJ. 2013. Chasing maximal performance: a cautionary tale from the celebrated jumping frogs of Calaveras County. Journal of Experimental Biology 216: 3947-3953.
Azevedo MA. 2010. Reproductive characteristics of characid fish species (Teleostei, Characiformes) and their relationship with body size and phylogeny. Iheringia. Série Zoologia 100: 469-482.
Barel CDN. 1983. Towards a constructional morphology of cichlid fishes (Teleostei, Perciformes). Netherlands Journal of Zoology 33: 357-424.
Barnett A, Bellwood DR, Hoey AS. 2006. Trophic ecomorphology of cardinalfish. Marine Ecology Progress Series 322: 249-257.
Berkovitz BKB. 2013. Nothing but the tooth: a dental odyssey. Amsterdam: Elsevier Science.
Bookstein FL. 1991. Morphometric tools for landmark data: geometry and biology. Cambridge: Cambridge University Press.
Calcagnotto D, Schaefer SA, DeSalle R. 2005. Relationships among characiform fishes inferred from analysis of nuclear and mitochondrial gene sequences. Molecular Phylogenetics and Evolution 36: 135-153.
Christiansen P, Wroe S. 2007. Bite forces and evolutionary adaptations to feeding ecology in Carnivores. Ecology 88: 347-358.
Cione AL, Dahdul WM, Lundberg JG, Machado-Allison A. 2009. Megapiranha paranensis, a new genus and species of Serrasalmidae (Characiformes, Teleostei) from the upper Miocene of Argentina. Journal of Vertebrate Paleontology 29: 350-358.
Collyer ML, Sekora DJ, Adams DC. 2015. A method for analysis of phenotypic change for phenotypes described by high-dimensional data. Heredity 115: 357-365.
Cooper WJ, Wernle J, Mann K, Albertson RC. 2011. Functional and genetic integration in the skulls of Lake Malawi cichlids. Evolutionary Biology 38: 316-334.
Correa SB, Winemiller KO, López-Fernández H, Galetti M. 2007. Evolutionary perspectives on seed consumption and dispersal by fishes. BioScience 57: 748-756.
Da Silva JM, Carne L, Measey GJ, Herrel A, Tolley KA. 2016. The relationship between cranial morphology, bite performance, diet and habitat in a radiation of dwarf chameleon (Bradypodion). Biological Journal of the Linnean Society 119: 52-67.
Dahdul WM. 2004. Fossil serrasalmine fishes (Teleostei: Characiformes) from the Lower Miocene of north-western Venezuela. Special Papers in Palaeontology 71: 23-28.
Datovo A, Vari RP. 2013. The jaw adductor muscle complex in teleostean fishes: evolution, homologies and revised nomenclature (Osteichthyes: Actinopterygii). PLoS ONE 8: e60846.
De Schepper N, Van Wassenbergh S, Adriaens D. 2008. Morphology of the jaw system in trichiurids: trade-offs between mouth closing and biting performance. Zoological Journal of the Linnean Society 152: 717-736.
Deban SM, Richardson JC. 2017. A peculiar mechanism of bite-force enhancement in lungless salamanders revealed by a new geometric method for modeling muscle moments. Journal of Experimental Biology 220: 3588-3597.
Dollion AY, Measey GJ, Cornette R, Carne L, Tolley KA, da Silva JM, Boistel R, Fabre AC, Herrel A. 2017. Does diet drive the evolution of head shape and bite force in chameleons of the genus Bradypodion? Functional Ecology 31: 671-684.
Dufour CM, Losos JB, Herrel A. 2018. Do differences in bite force and head morphology between a native and an introduced species of anole influence the outcome of species interactions? Biological Journal of the Linnean Society 125: 576-585.
Dumont ER, Herrel A. 2003. The effects of gape angle and bite point on bite force in bats. Journal of Experimental Biology 206: 2117-2123.
Erickson GM, Lappin AK, Vliet KA. 2003. The ontogeny of bite-force performance in American alligator (Alligator mississippiensis). Journal of Zoology 260: 317-327.
Felsenstein J. 1985. Phylogenies and the comparative method. The American Naturalist 125: 1-15.
Ferrara TL, Clausen P, Huber DR, McHenry CR, Peddemors V, Wroe S. 2011. Mechanics of biting in great white and sandtiger sharks. Journal of Biomechanics 44: 430-435.
Frédérich B, Adriaens D, Vandewalle P. 2008a. Ontogenetic shape changes in Pomacentridae (Teleostei, Perciformes) and their relationships with feeding strategies: a geometric morphometric approach. Biological Journal of the Linnean Society 95: 92-105.
Frédérich B, Pilet A, Parmentier E, Vandewalle P. 2008b. Comparative trophic morphology in eight species of damselfishes (Pomacentridae). Journal of Morphology 269: 175-188.
Gayet M, Meunier FJ. 1998. Maastrichtian to early Late Paleocene freshwater Osteichthyes of Bolivia: additions and comments. In: Phylogeny and classification of neotropical fishes. Porto Alegre: EDIPUCRS, 85-110.
Géry J. 1972. Poissons characoïdes des Guyanes: I. Généralités; II. Famille des Serrasalmidae. Leiden: EJ Brill.
Ginot S, Herrel A, Claude J, Hautier L. 2018. Skull size and biomechanics are good estimators of in vivo bite force in murid rodents. The Anatomical Record 301: 256-266.
Gosline WA. 1951. Notes on the characid fishes of the subfamily Serrasalminae. Proceedings of the California Academy of Sciences 27: 17-64.
Goulding M. 1980. The fishes and the forest: explorations in Amazonian natural history. Berkeley: University of California Press.
Goulding M, Carvalho ML. 1982. Life history and management of the tambaqui (Colossoma macropomum, Characidae): an important Amazonian food fish. Revista Brasileira de Zoologia 1: 107-133.
Greaves WS. 1982. A mechanical limitation on the position of the jaw muscles of mammals: the one-third rule. Journal of Mammalogy 63: 261-266.
Greaves WS. 2002. The mammalian jaw: a mechanical analysis. Cambridge: Cambridge University Press.
Grubich JR, Huskey S, Crofts S, Ortí G, Porto J. 2012. Mega-Bites: extreme jaw forces of living and extinct piranhas (Serrasalmidae). Scientific Reports 2: 1009.
Habegger ML, Huber DH, Lajeunesse MJ, Motta PJ. 2017. Theoretical calculations of bite force in billfishes. Journal of Zoology 303: 15-26.
Habegger ML, Motta PJ, Huber DR, Dean MN. 2012. Feeding biomechanics and theoretical calculations of bite force in bull sharks (Carcharhinus leucas) during ontogeny. Zoology 115: 354-364.
Hammer O, Harper DA, Ryan PD. 2001. PAST: paleontological statistics software package for education and data analysis. Palaeontologia Electronica 4: 9.
Harmon LJ, Weir JT, Brock CD, Glor RE, Challenger W. 2007. GEIGER: investigating evolutionary radiations. Bioinformatics 24: 129-131.
Hernandez LP, Motta PJ. 1997. Trophic consequences of differential performance: ontogeny of oral jaw crushing performance in the sheepshead, Archosargus probatocephalus (Teleostei, Sparidae). Journal of Zoology 243: 737-756.
Hernandez LP, Staab KL. 2015. Bottom feeding and beyond: how the premaxillary protrusion of cypriniforms allowed for a novel kind of suction feeding. Integrative and Comparative Biology 55: 74-84.
Herrel A, Adriaens D, Verraes W, Aerts P. 2002. Bite performance in clariid fishes with hypertrophied jaw adductors as deduced by bite modeling. Journal of Morphology 253: 196-205.
Herrel A, Castilla AM, Al-Sulaiti MK, Wessels JJ. 2014. Does large body size relax constraints on bite-force generation in lizards of the genus Uromastyx? Journal of Zoology 292: 170-174.
Herrel A, De Grauw E, Lemos-Espinal JA. 2001. Head shape and bite performance in xenosaurid lizards. Journal of Experimental Zoology 290: 101-107.
Herrel A, Holanova V. 2008. Cranial morphology and bite force in Chamaeleolis lizards - adaptations to molluscivory? Zoology 111: 467-475.
Herrel A, O'Reilly JC, Richmond AM. 2002. Evolution of bite performance in turtles. Journal of Evolutionary Biology 15: 1083-1094.
Herrel A, Petrochic S, Draud M. 2017. Sexual dimorphism, bite force and diet in the diamondback terrapin. Journal of Zoology 304: 217-224.
Herrel A, Podos J, Huber SK, Hendry AP. 2005. Bite performance and morphology in a population of Darwin's finches: implications for the evolution of beak shape. Functional Ecology 19: 43-48.
Herrel A, Spithoven L, Van Damme R, De Vree F. 1999. Sexual dimorphism of head size in Gallotia galloti: testing the niche divergence hypothesis by functional analyses. Functional Ecology 13: 289-297.
Herrel A, Vanhooydonck B, Van Damme R. 2004. Omnivory in lacertid lizards: adaptive evolution or constraint? Journal of Evolutionary Biology 17: 974-984.
Herrel A, Van Damme R, Vanhooydonck B, De Vree F. 2001. The implications of bite performance for diet in two species of lacertid lizards. Canadian Journal of Zoology 79: 662-670.
Herring SW. 1993. Functional morphology of mammalian mastication. American Zoologist 33: 289-299.
Herring SW, Herring SE. 1974. The superficial masseter and gape in mammals. The American Naturalist 108: 561-576.
Herring SW, Rafferty KL, Liu ZJ, Marshall CD. 2001. Jaw muscles and the skull in mammals: the biomechanics of mastication. Comparative Biochemistry and Physiology Part A 131: 207-219.
Herring SW, Scapino RP. 1973. Physiology of feeding in miniature pigs. Journal of Morphology 141: 427-460.
Huber DR, Eason TG, Hueter RE, Motta PJ. 2005. Analysis of the bite force and mechanical design of the feeding mechanism of the durophagous horn shark Heterodontus francisci. Journal of Experimental Biology 208: 3553-3571.
Huber DR, Weggelaar CL, Motta PJ. 2006. Scaling of bite force in the blacktip shark Carcharhinus limbatus. Zoology 109: 109-119.
Janovetz J. 2005. Functional morphology of feeding in the scale-eating specialist Catoprion mento. Journal of Experimental Biology 208: 4757-68.
Jégu M. 2003. Subfamily Serrasalminae (pacus and piranhas). In: Reis RE, Kullander SO, Ferraris CJ, eds. Check list of the freshwater fishes of South and Central America. Porto Alegre: EDIPUCRS, 182-196.
Konow N, Bellwood DR. 2005. Prey-capture in Pomacanthus semicirculatus (Teleostei, Pomacanthidae): functional implications of intramandibular joints in marine angelfishes. Journal of Experimental Biology 208: 1421-1433.
Konow N, Bellwood DR. 2011. Evolution of high trophic diversity based on limited functional disparity in the feeding apparatus of marine angelfishes (f. Pomacanthidae). PLoS ONE 6: e24113.
Konow N, Price S, Abom R, Bellwood D, Wainwright P. 2017. Decoupled diversification dynamics of feeding morphology following a major functional innovation in marine butterflyfishes. Proceedings of the Royal Society B 284: 20170906.
Lappin AK, Hamilton PS, Sullivan BK. 2006. Bite-force performance and head shape in a sexually dimorphic crevicedwelling lizard, the common chuckwalla [Sauromalus ater (= obesus)]. Biological Journal of the Linnean Society 88: 215-222.
Lappin AK, Wilcox SC, Moriarty DJ, Stoeppler SAR, Evans SE, Jones MEH. 2017. Bite force in the horned frog (Ceratophrys cranwelli) with implications for extinct giant frogs. Scientific Reports 7: 11963.
Liem KF. 1993. Ecomorphology of the teleostean skull. In: Kanken J, Hall BK, eds. The skull, Volume 3: functional and evolutionary mechanisms. Chicago: University of Chicago Press, 422-452.
Loeb GE, Gans C. 1986. Electromyography for experimentalists. Chicago: University of Chicago Press.
Mehta RS. 2008. Ecomorphology of the moray bite: relationship between dietary extremes and morphological diversity. Physiological and Biochemical Zoology 82: 90-103.
van der Meij MAA, Bout RG. 2004. Scaling of jaw muscle size and maximal bite force in finches. The Journal of Experimental Biology 207: 2745-2753.
van der Meij MAA, Bout RG. 2006. Seed husking time and maximal bite force in finches. Journal of Experimental Biology 209: 3329-3335.
Mélotte G, Parmentier E, Michel C, Herrel A, Boyle K. 2018. Hearing capacities and morphology of the auditory system in Serrasalmidae (Teleostei: Otophysi). Scientific Reports 8: 1281.
Mélotte G, Vigouroux R, Michel C, Parmentier E. 2016. Interspecific variation of warning calls in piranhas: a comparative analysis. Scientific Reports 6: 36127.
Meyers JJ, Nishikawa KC, Herrel A. 2018. The evolution of bite force in horned lizards: the influence of dietary specialization. Journal of Anatomy 232: 214-226.
Moran CJ, Ferry L. 2014. Bite force and feeding kinematics in the eastern North Pacific kyphosidae. Journal of Experimental Zoology Part A: Ecological Genetics and Physiology 321: 189-197.
Nico LG, Taphorn DC. 1988. Food habits of piranhas in the low Ilanos of Venezuela. Biotropica 20: 311-321.
Nogueira MR, Peracchi AL, Monteiro LR. 2009. Morphological correlates of bite force and diet in the skull and mandible of phyllostomid bats. Functional Ecology 23: 715-723.
Ortí G, Petry P, Porto JI, Jégu M, Meyer A. 1996. Patterns of nucleotide change in mitochondrial ribosomal RNA genes and the phylogeny of piranhas. Journal of Molecular Evolution 42: 169-182.
Ortí G, Sivasundar A, Dietz K, Jégu M. 2008. Phylogeny of the Serrasalmidae (Characiformes) based on mitochondrial DNA sequences. Genetics and Molecular Biology 31: 343-351.
Parmentier E, Castro-Aguirre JL, Vandewalle P. 2000. Morphological comparison of the buccal apparatus in two bivalve commensal Teleostei, Encheliophis dubius and Onuxodon fowleri (Ophidiiformes, Carapidae). Zoomorphology 120: 29-37.
Pelster B, Wood CM, Speers-Roesch B, Driedzic WR, Almeida-Val V, Val A. 2015. Gut transport characteristics in herbivorous and carnivorous serrasalmid fish from ionpoor Rio Negro water. Journal of Comparative Physiology B 185: 225-241.
Pfaller JB, Herrera ND, Gignac PM, Erickson GM. 2010. Ontogenetic scaling of cranial morphology and bite-force generation in the loggerhead musk turtle. Journal of Zoology 280: 280-289.
Powell PL, Roy RR, Kanim P, Bello MA, Edgerton VR. 1984. Predictability of skeletal muscle tension from architectural determinations in guinea pig hindlimbs. Journal of Applied Physiology 57: 1715-1721.
Raadsheer MC, Van Eijden TMGJ, Van Ginkel FC, Prahl-Andersen B. 1999. Contribution of jaw muscle size and craniofacial morphology to human bite force magnitude. Journal of Dental Research 78: 31-42.
Ramsay JB, Wilga CD. 2007. Morphology and mechanics of the teeth and jaws of white-spotted bamboo sharks (Chiloscyllium plagiosum). Journal of Morphology 268: 664-682.
Rao X, Yang C, Ma L, Zhang J, Liang W, Møller AP. 2018. Comparison of head size and bite force in two sister species of parrotbills. Avian Research 9: 11.
R Core Team. 2017. R: A language and environment for statistical computing. https://www.R-project.org/. Accessed 30 March 2019.
Revell LJ. 2009. Size-correction and principal components for interspecific comparative studies. Evolution: International Journal of Organic Evolution 63: 3258-3268.
Revell LJ. 2012. phytools: an R package for phylogenetic comparative biology (and other things). Methods in Ecology and Evolution 3: 217-223.
Rice KW, Buchholz R, Parsons GR. 2016. Correlates of bite force in the Atlantic sharpnose shark, Rhizoprionodon terraenovae. Marine Biology 163: 38.
Rohlf FJ, Slice D. 1990. Extensions of the Procrustes method for the optimal superimposition of landmarks. Systematic Zoology 39: 40-59.
Santana SE, Dumont ER, Davis JL. 2010. Mechanics of bite force production and its relationship to diet in bats. Functional Ecology 24: 776-784.
Schwenk K. 2000. Feeding form, function, and evolution in tetrapod vertebrates. Amsterdam: Elsevier.
Shellis RP, Berkovitz BKB. 1976. Observations on the dental anatomy of piranhas (Characidae) with special reference to tooth structure. Journal of Zoology 180: 69-84.
Thomas P, Pouydebat E, Hardy I, Aujard F, Ross CF, Herrel A. 2015. Sexual dimorphism in bite force in the grey mouse lemur. Journal of Zoology 296: 133-138.
Thompson AW, Betancur RR, López-Fernández H, Ortí G. 2014. A time-calibrated, multi-locus phylogeny of piranhas and pacus (Characiformes: Serrasalmidae) and a comparison of species tree methods. Molecular Phylogenetics and Evolution 81: 242-257.
Turingan RG. 1994. Ecomorphological relationships among Caribbean tetraodontiform fishes. Journal of Zoology 233: 493-521.
Verwaijen D, Van Damme R, Herrel A. 2002. Relationships between head size, bite force, prey handling efficiency and diet in two sympatric lacertid lizards. Functional Ecology 16: 842-850.
Wainwright PC. 1988. Morphology and ecology: functional basis of feeding constraints in Caribbean labrid fishes. Ecology 69: 635-645.
Wainwright PC, Bellwood DR, Westneat MW, Grubich JR, Hoey AS. 2004. A functional morphospace for the skull of labrid fishes: patterns of diversity in a complex biomechanical system. Biological Journal of the Linnean Society 82: 1-25.
Van Wassenbergh S, Herrel A, James RS, Aerts P. 2007. Scaling of contractile properties of catfish feeding muscles. Journal of Experimental Biology 210: 1183-1193.
Westneat MW. 2003. A biomechanical model for analysis of muscle force, power output and lower jaw motion in fishes. Journal of Theoretical Biology 223: 269-281.
Westneat MW. 2004. Evolution of levers and linkages in the feeding mechanisms of fishes. Integrative and Comparative Biology 44: 378-389.
Wroe S, Huber DR, Lowry M, McHenry C, Moreno K, Clausen P, Ferrara TL, Cunningham E, Dean MN, Summers AP. 2008. Three-dimensional computer analysis of white shark jaw mechanics: how hard can a great white bite? Journal of Zoology 276: 336-342.
Wroe S, McHenry C, Thomason J. 2005. Bite club: comparative bite force in big biting mammals and the prediction of predatory behaviour in fossil taxa. Proceedings of the Royal Society B: Biological Sciences 272: 619-625.
Similar publications
Sorry the service is unavailable at the moment. Please try again later.
This website uses cookies to improve user experience. Read more
Save & Close
Accept all
Decline all
Show detailsHide details
Cookie declaration
About cookies
Strictly necessary
Performance
Strictly necessary cookies allow core website functionality such as user login and account management. The website cannot be used properly without strictly necessary cookies.
This cookie is used by Cookie-Script.com service to remember visitor cookie consent preferences. It is necessary for Cookie-Script.com cookie banner to work properly.
Performance cookies are used to see how visitors use the website, eg. analytics cookies. Those cookies cannot be used to directly identify a certain visitor.
Used to store the attribution information, the referrer initially used to visit the website
Cookies are small text files that are placed on your computer by websites that you visit. Websites use cookies to help users navigate efficiently and perform certain functions. Cookies that are required for the website to operate properly are allowed to be set without your permission. All other cookies need to be approved before they can be set in the browser.
You can change your consent to cookie usage at any time on our Privacy Policy page.
