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dc.contributor.authorMacho, Gabriele A.*
dc.contributor.authorShimizu, D.*
dc.contributor.authorJiang, Y.*
dc.contributor.authorSpears, I.R.*
dc.date.accessioned2009-10-06T14:06:05Z
dc.date.available2009-10-06T14:06:05Z
dc.date.issued2005
dc.identifier.citationMacho, G.A., Shimizu, D, Jiang, Y. and Spears, I.R. (2005). Australopithecus anamensis: a finite element approach to studying functional adaptations in extinct hominins. The Anatomical Record Part A: Discoveries in Molecular Cellular and Evolutionary Biology. Vol. 283A, No. 2, pp. 310-318.
dc.identifier.urihttp://hdl.handle.net/10454/3625
dc.descriptionNo
dc.description.abstractAustralopithecus anamensis is the stem species of all later hominins and exhibits the suite of characters traditionally associated with hominins, i.e., bipedal locomotion when on the ground, canine reduction, and thick-enameled teeth. The functional consequences of its thick enamel are, however, unclear. Without appropriate structural reinforcement, these thick-enameled teeth may be prone to failure. This article investigates the mechanical behavior of A. anamensis enamel and represents the first in a series that will attempt to determine the functional adaptations of hominin teeth. First, the microstructural arrangement of enamel prisms in A anamensis teeth was reconstructed using recently developed software and was compared with that of extant hominoids. Second, a finite-element model of a block of enamel containing one cycle of prism deviation was reconstructed for Homo, Pan, Gorilla, and A. anamensis and the behavior of these tissues under compressive stress was determined. Despite similarities in enamel microstructure between A. anamensis and the African great apes, the structural arrangement of prismatic enamel in A. anamensis appears to be more effective in load dissipation under these compressive loads. The findings may imply that this hominin species was well adapted to puncture crushing and are in some respects contrary to expectations based on macromorphology of teeth. Taking together, information obtained from both finite-element analyses and dental macroanatomy leads us to suggest that A. anamensis was probably adapted for habitually consuming a hard-tough diet. However, additional tests are needed to understand the functional adaptations of A. anamensis teeth fully.
dc.language.isoen
dc.subjectAustralopithecus anamensis
dc.subjectEnamel microstructure
dc.subjectFinite-element stress analyses
dc.subjectPaleobiology
dc.subjectKanapoi
dc.titleAustralopithecus anamensis: a finite element approach to studying functional adaptations in extinct hominins.
dc.status.refereedYes
dc.typeArticle
dc.type.versionNo full-text in the repository
dc.identifier.doihttps://doi.org/10.1002/ar.a.20175
dc.openaccess.statusclosedAccess


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