The feeding biomechanics and dietary ecology of Australopithecus africanus

David S. Strait; Gerhard W. Weber; Simon Neubauer; Janine Chalk; Brian G. Richmond; Peter W. Lucas; Mark A. Spencer; Caitlin Schrein; Paul C. Dechow; Callum F. Ross; Ian R. Grosse; Barth W. Wright; Paul Constantino; Bernard A. Wood; Brian Lawn; William L. Hylander; Qian Wang; Craig Byron; Dennis E. Slice; Amanda L. Smith

doi:10.1073/pnas.0808730106

The feeding biomechanics and dietary ecology of Australopithecus africanus

David S. Strait
, Gerhard W. Weber
, Simon Neubauer
, Janine Chalk
, Brian G. Richmond
, Peter W. Lucas
, Mark A. Spencer
, Caitlin Schrein
, Paul C. Dechow
, Callum F. Ross
, Ian R. Grosse
, Barth W. Wright
, Paul Constantino
, Bernard A. Wood
, Brian Lawn
, William L. Hylander
, Qian Wang
, Craig Byron
, Dennis E. Slice
, Amanda L. Smith

Research output: Contribution to journal › Article › peer-review

234 Scopus citations

Abstract

The African Plio-Pleistocene hominins known as australopiths evolved a distinctive craniofacial morphology that traditionally has been viewed as a dietary adaptation for feeding on either small, hard objects or on large volumes of food. A historically influential interpretation of this morphology hypothesizes that loads applied to the premolars during feeding had a profound influence on the evolution of australopith craniofacial form. Here, we test this hypothesis using finite element analysis in conjunction with comparative, imaging, and experimental methods. We find that the facial skeleton of the Australopithecus type species, A. africanus, is well suited to withstand premolar loads. However, we suggest that the mastication of either small objects or large volumes of food is unlikely to fully explain the evolution of facial form in this species. Rather, key aspects of australopith craniofacial morphology are more likely to be related to the ingestion and initial preparation of large, mechanically protected food objects like large nuts and seeds. These foods may have broadened the diet of these hominins, possibly by being critical resources that australopiths relied on during periods when their preferred dietary items were in short supply. Our analysis reconciles apparent discrepancies between dietary reconstructions based on biomechanics, tooth morphology, and dental microwear.

Original language	English
Pages (from-to)	2124-2129
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	106
Issue number	7
DOIs	https://doi.org/10.1073/pnas.0808730106
State	Published - Feb 17 2009

Keywords

Diet
Evolution
Face
Finite element analysis
Hominin

Access to Document

10.1073/pnas.0808730106

Cite this

Strait, D. S., Weber, G. W., Neubauer, S., Chalk, J., Richmond, B. G., Lucas, P. W., Spencer, M. A., Schrein, C., Dechow, P. C., Ross, C. F., Grosse, I. R., Wright, B. W., Constantino, P., Wood, B. A., Lawn, B., Hylander, W. L., Wang, Q., Byron, C., Slice, D. E., & Smith, A. L. (2009). The feeding biomechanics and dietary ecology of Australopithecus africanus. Proceedings of the National Academy of Sciences of the United States of America, 106(7), 2124-2129. https://doi.org/10.1073/pnas.0808730106

@article{703b5fd65939444e96f31f60027d91ae,

title = "The feeding biomechanics and dietary ecology of Australopithecus africanus",

abstract = "The African Plio-Pleistocene hominins known as australopiths evolved a distinctive craniofacial morphology that traditionally has been viewed as a dietary adaptation for feeding on either small, hard objects or on large volumes of food. A historically influential interpretation of this morphology hypothesizes that loads applied to the premolars during feeding had a profound influence on the evolution of australopith craniofacial form. Here, we test this hypothesis using finite element analysis in conjunction with comparative, imaging, and experimental methods. We find that the facial skeleton of the Australopithecus type species, A. africanus, is well suited to withstand premolar loads. However, we suggest that the mastication of either small objects or large volumes of food is unlikely to fully explain the evolution of facial form in this species. Rather, key aspects of australopith craniofacial morphology are more likely to be related to the ingestion and initial preparation of large, mechanically protected food objects like large nuts and seeds. These foods may have broadened the diet of these hominins, possibly by being critical resources that australopiths relied on during periods when their preferred dietary items were in short supply. Our analysis reconciles apparent discrepancies between dietary reconstructions based on biomechanics, tooth morphology, and dental microwear.",

keywords = "Diet, Evolution, Face, Finite element analysis, Hominin",

author = "Strait, \{David S.\} and Weber, \{Gerhard W.\} and Simon Neubauer and Janine Chalk and Richmond, \{Brian G.\} and Lucas, \{Peter W.\} and Spencer, \{Mark A.\} and Caitlin Schrein and Dechow, \{Paul C.\} and Ross, \{Callum F.\} and Grosse, \{Ian R.\} and Wright, \{Barth W.\} and Paul Constantino and Wood, \{Bernard A.\} and Brian Lawn and Hylander, \{William L.\} and Qian Wang and Craig Byron and Slice, \{Dennis E.\} and Smith, \{Amanda L.\}",

year = "2009",

month = feb,

day = "17",

doi = "10.1073/pnas.0808730106",

language = "English",

volume = "106",

pages = "2124--2129",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

issn = "0027-8424",

number = "7",

}

Strait, DS, Weber, GW, Neubauer, S, Chalk, J, Richmond, BG, Lucas, PW, Spencer, MA, Schrein, C, Dechow, PC, Ross, CF, Grosse, IR, Wright, BW, Constantino, P, Wood, BA, Lawn, B, Hylander, WL, Wang, Q, Byron, C, Slice, DE & Smith, AL 2009, 'The feeding biomechanics and dietary ecology of Australopithecus africanus', Proceedings of the National Academy of Sciences of the United States of America, vol. 106, no. 7, pp. 2124-2129. https://doi.org/10.1073/pnas.0808730106

TY - JOUR

T1 - The feeding biomechanics and dietary ecology of Australopithecus africanus

AU - Strait, David S.

AU - Weber, Gerhard W.

AU - Neubauer, Simon

AU - Chalk, Janine

AU - Richmond, Brian G.

AU - Lucas, Peter W.

AU - Spencer, Mark A.

AU - Schrein, Caitlin

AU - Dechow, Paul C.

AU - Ross, Callum F.

AU - Grosse, Ian R.

AU - Wright, Barth W.

AU - Constantino, Paul

AU - Wood, Bernard A.

AU - Lawn, Brian

AU - Hylander, William L.

AU - Wang, Qian

AU - Byron, Craig

AU - Slice, Dennis E.

AU - Smith, Amanda L.

PY - 2009/2/17

Y1 - 2009/2/17

N2 - The African Plio-Pleistocene hominins known as australopiths evolved a distinctive craniofacial morphology that traditionally has been viewed as a dietary adaptation for feeding on either small, hard objects or on large volumes of food. A historically influential interpretation of this morphology hypothesizes that loads applied to the premolars during feeding had a profound influence on the evolution of australopith craniofacial form. Here, we test this hypothesis using finite element analysis in conjunction with comparative, imaging, and experimental methods. We find that the facial skeleton of the Australopithecus type species, A. africanus, is well suited to withstand premolar loads. However, we suggest that the mastication of either small objects or large volumes of food is unlikely to fully explain the evolution of facial form in this species. Rather, key aspects of australopith craniofacial morphology are more likely to be related to the ingestion and initial preparation of large, mechanically protected food objects like large nuts and seeds. These foods may have broadened the diet of these hominins, possibly by being critical resources that australopiths relied on during periods when their preferred dietary items were in short supply. Our analysis reconciles apparent discrepancies between dietary reconstructions based on biomechanics, tooth morphology, and dental microwear.

AB - The African Plio-Pleistocene hominins known as australopiths evolved a distinctive craniofacial morphology that traditionally has been viewed as a dietary adaptation for feeding on either small, hard objects or on large volumes of food. A historically influential interpretation of this morphology hypothesizes that loads applied to the premolars during feeding had a profound influence on the evolution of australopith craniofacial form. Here, we test this hypothesis using finite element analysis in conjunction with comparative, imaging, and experimental methods. We find that the facial skeleton of the Australopithecus type species, A. africanus, is well suited to withstand premolar loads. However, we suggest that the mastication of either small objects or large volumes of food is unlikely to fully explain the evolution of facial form in this species. Rather, key aspects of australopith craniofacial morphology are more likely to be related to the ingestion and initial preparation of large, mechanically protected food objects like large nuts and seeds. These foods may have broadened the diet of these hominins, possibly by being critical resources that australopiths relied on during periods when their preferred dietary items were in short supply. Our analysis reconciles apparent discrepancies between dietary reconstructions based on biomechanics, tooth morphology, and dental microwear.

KW - Diet

KW - Evolution

KW - Face

KW - Finite element analysis

KW - Hominin

UR - https://www.scopus.com/pages/publications/60549109629

U2 - 10.1073/pnas.0808730106

DO - 10.1073/pnas.0808730106

M3 - Article

C2 - 19188607

AN - SCOPUS:60549109629

SN - 0027-8424

VL - 106

SP - 2124

EP - 2129

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 7

ER -

The feeding biomechanics and dietary ecology of Australopithecus africanus

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this