Myology of the masticatory apparatus of herbivorous mammals and a novel classification for a better understanding of herbivore diversity

Marcos D Ercoli; Alicia Álvarez; Natalie M Warburton; Christine M Janis; Elena G Potapova; Susan W Herring; Guillermo H Cassini; Juliana Tarquini; Alexander Kuznetsov

doi:10.1093/zoolinnean/zlac102

Myology of the masticatory apparatus of herbivorous mammals and a novel classification for a better understanding of herbivore diversity

Marcos D Ercoli^*, Alicia Álvarez, Natalie M Warburton, Christine M Janis, Elena G Potapova, Susan W Herring, Guillermo H Cassini, Juliana Tarquini, Alexander Kuznetsov

^*Corresponding author for this work

School of Earth Sciences

Research output: Contribution to journal › Article (Academic Journal) › peer-review

8 Citations (Scopus)

Abstract

Masticatory muscle features allow for an understanding of how dietary habits and masticatory functions have evolved across mammalian lineages. Herbivorous mammals were traditionally classified as pertaining to either ‘ungulate-grinding’ or ‘rodent-gnawing’ morphotypes, but those classes might not adequately encompass the diversity of past and present herbivores. We compiled data for 104 herbivorous (nine orders, including new data for 31 species) and ten non-herbivorous (five orders) extant species and for four extinct taxa, in order to construct a more comprehensive scheme of masticatory morphotypes. A myological phylomorphospace revealed 15 morphotypes, which were tested statistically and interpreted morphofunctionally. Extant herbivorous morphotypes diversified along two main pathways that did not reflect the traditional types. Additionally, some extinct herbivores adapted along alternative pathways to those of extant forms. Early mammaliaforms and mammals possessed muscle proportions almost identical to those of living carnivores. Several more plesiomorphic herbivorous morphotypes were recognized, with some of them retaining generalized myological proportions. The rodent disparity was remarkable and could not be encompassed by a single category or pathway. Features of some derived euungulates and diprotodonts resembled rodents, but only a few extinct euungulates and extant wombats converged closely with them. Criteria for selecting models for palaeobiological reconstructions are discussed.

Original language	English
Article number	zlac102
Pages (from-to)	1106-1155
Number of pages	50
Journal	Zoological Journal of the Linnean Society
Volume	198
Issue number	4
Early online date	23 Mar 2023
DOIs	https://doi.org/10.1093/zoolinnean/zlac102
Publication status	E-pub ahead of print - 23 Mar 2023

Bibliographical note

Funding Information:
Thanks to Szilvia Mezey for her selfless help and the performance of dissections to complement available data on Homo. Thanks to Philip Cox and Pete Watson for exchanging ideas and revising unpublished data during the data compilation. Thanks to Rocío Moyano, Lautaro López-Geronazzo, Agustina Ortiz Tejerina, Myriam Boivin, Malena Maroli and Juan Diederle for help during dissections. Thanks to Diego Brandoni, María Inés Zamar, Pablo Teta and Sergio Lucero for facilitating access of myological specimens and/or equipment. Thanks to Dr M. Clauss and an anonymous reviewer for suggestions that greatly improved the manuscript. Thanks to Velizar Simeonovski, Steven Zhang and Marcus Clauss for help during bibliographic research. Thanks to Julien Clavel for his invaluable help with the analyses based on “mvMORPH” R package. M.D.E. and A.A. are responsible for the decisions made during the design and construction of . This study was financed by the projects PICT 2018-01237, Agencia Nacional de Promoción de la Investigación, el Desarrollo Tecnológico y la Innovación (Agencia I+D+I); and PUE 22920170100027CO, Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET).

Publisher Copyright:
© 2023 The Author(s). Published by Oxford University Press on behalf of The Linnean Society of London. All rights reserved.

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10.1093/zoolinnean/zlac102

https://academic.oup.com/zoolinnean/advance-article/doi/10.1093/zoolinnean/zlac102/7084908

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Ercoli, M. D., Álvarez, A., Warburton, N. M., Janis, C. M., Potapova, E. G., Herring, S. W., Cassini, G. H., Tarquini, J., & Kuznetsov, A. (2023). Myology of the masticatory apparatus of herbivorous mammals and a novel classification for a better understanding of herbivore diversity. Zoological Journal of the Linnean Society, 198(4), 1106-1155. Article zlac102. Advance online publication. https://doi.org/10.1093/zoolinnean/zlac102

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title = "Myology of the masticatory apparatus of herbivorous mammals and a novel classification for a better understanding of herbivore diversity",

abstract = "Masticatory muscle features allow for an understanding of how dietary habits and masticatory functions have evolved across mammalian lineages. Herbivorous mammals were traditionally classified as pertaining to either {\textquoteleft}ungulate-grinding{\textquoteright} or {\textquoteleft}rodent-gnawing{\textquoteright} morphotypes, but those classes might not adequately encompass the diversity of past and present herbivores. We compiled data for 104 herbivorous (nine orders, including new data for 31 species) and ten non-herbivorous (five orders) extant species and for four extinct taxa, in order to construct a more comprehensive scheme of masticatory morphotypes. A myological phylomorphospace revealed 15 morphotypes, which were tested statistically and interpreted morphofunctionally. Extant herbivorous morphotypes diversified along two main pathways that did not reflect the traditional types. Additionally, some extinct herbivores adapted along alternative pathways to those of extant forms. Early mammaliaforms and mammals possessed muscle proportions almost identical to those of living carnivores. Several more plesiomorphic herbivorous morphotypes were recognized, with some of them retaining generalized myological proportions. The rodent disparity was remarkable and could not be encompassed by a single category or pathway. Features of some derived euungulates and diprotodonts resembled rodents, but only a few extinct euungulates and extant wombats converged closely with them. Criteria for selecting models for palaeobiological reconstructions are discussed.",

author = "Ercoli, \{Marcos D\} and Alicia {\'A}lvarez and Warburton, \{Natalie M\} and Janis, \{Christine M\} and Potapova, \{Elena G\} and Herring, \{Susan W\} and Cassini, \{Guillermo H\} and Juliana Tarquini and Alexander Kuznetsov",

note = "Funding Information: Thanks to Szilvia Mezey for her selfless help and the performance of dissections to complement available data on Homo. Thanks to Philip Cox and Pete Watson for exchanging ideas and revising unpublished data during the data compilation. Thanks to Roc{\'i}o Moyano, Lautaro L{\'o}pez-Geronazzo, Agustina Ortiz Tejerina, Myriam Boivin, Malena Maroli and Juan Diederle for help during dissections. Thanks to Diego Brandoni, Mar{\'i}a In{\'e}s Zamar, Pablo Teta and Sergio Lucero for facilitating access of myological specimens and/or equipment. Thanks to Dr M. Clauss and an anonymous reviewer for suggestions that greatly improved the manuscript. Thanks to Velizar Simeonovski, Steven Zhang and Marcus Clauss for help during bibliographic research. Thanks to Julien Clavel for his invaluable help with the analyses based on “mvMORPH” R package. M.D.E. and A.A. are responsible for the decisions made during the design and construction of . This study was financed by the projects PICT 2018-01237, Agencia Nacional de Promoci{\'o}n de la Investigaci{\'o}n, el Desarrollo Tecnol{\'o}gico y la Innovaci{\'o}n (Agencia I+D+I); and PUE 22920170100027CO, Consejo Nacional de Investigaciones Cient{\'i}ficas y T{\'e}cnicas (CONICET). Publisher Copyright: {\textcopyright} 2023 The Author(s). Published by Oxford University Press on behalf of The Linnean Society of London. All rights reserved.",

year = "2023",

month = mar,

day = "23",

doi = "10.1093/zoolinnean/zlac102",

language = "English",

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Ercoli, MD, Álvarez, A, Warburton, NM, Janis, CM, Potapova, EG, Herring, SW, Cassini, GH, Tarquini, J & Kuznetsov, A 2023, 'Myology of the masticatory apparatus of herbivorous mammals and a novel classification for a better understanding of herbivore diversity', Zoological Journal of the Linnean Society, vol. 198, no. 4, zlac102, pp. 1106-1155. https://doi.org/10.1093/zoolinnean/zlac102

Myology of the masticatory apparatus of herbivorous mammals and a novel classification for a better understanding of herbivore diversity. / Ercoli, Marcos D; Álvarez, Alicia; Warburton, Natalie M et al.
In: Zoological Journal of the Linnean Society, Vol. 198, No. 4, zlac102, 23.03.2023, p. 1106-1155.

Research output: Contribution to journal › Article (Academic Journal) › peer-review

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AU - Álvarez, Alicia

AU - Warburton, Natalie M

AU - Janis, Christine M

AU - Potapova, Elena G

AU - Herring, Susan W

AU - Cassini, Guillermo H

AU - Tarquini, Juliana

AU - Kuznetsov, Alexander

N1 - Funding Information: Thanks to Szilvia Mezey for her selfless help and the performance of dissections to complement available data on Homo. Thanks to Philip Cox and Pete Watson for exchanging ideas and revising unpublished data during the data compilation. Thanks to Rocío Moyano, Lautaro López-Geronazzo, Agustina Ortiz Tejerina, Myriam Boivin, Malena Maroli and Juan Diederle for help during dissections. Thanks to Diego Brandoni, María Inés Zamar, Pablo Teta and Sergio Lucero for facilitating access of myological specimens and/or equipment. Thanks to Dr M. Clauss and an anonymous reviewer for suggestions that greatly improved the manuscript. Thanks to Velizar Simeonovski, Steven Zhang and Marcus Clauss for help during bibliographic research. Thanks to Julien Clavel for his invaluable help with the analyses based on “mvMORPH” R package. M.D.E. and A.A. are responsible for the decisions made during the design and construction of . This study was financed by the projects PICT 2018-01237, Agencia Nacional de Promoción de la Investigación, el Desarrollo Tecnológico y la Innovación (Agencia I+D+I); and PUE 22920170100027CO, Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET). Publisher Copyright: © 2023 The Author(s). Published by Oxford University Press on behalf of The Linnean Society of London. All rights reserved.

PY - 2023/3/23

Y1 - 2023/3/23

N2 - Masticatory muscle features allow for an understanding of how dietary habits and masticatory functions have evolved across mammalian lineages. Herbivorous mammals were traditionally classified as pertaining to either ‘ungulate-grinding’ or ‘rodent-gnawing’ morphotypes, but those classes might not adequately encompass the diversity of past and present herbivores. We compiled data for 104 herbivorous (nine orders, including new data for 31 species) and ten non-herbivorous (five orders) extant species and for four extinct taxa, in order to construct a more comprehensive scheme of masticatory morphotypes. A myological phylomorphospace revealed 15 morphotypes, which were tested statistically and interpreted morphofunctionally. Extant herbivorous morphotypes diversified along two main pathways that did not reflect the traditional types. Additionally, some extinct herbivores adapted along alternative pathways to those of extant forms. Early mammaliaforms and mammals possessed muscle proportions almost identical to those of living carnivores. Several more plesiomorphic herbivorous morphotypes were recognized, with some of them retaining generalized myological proportions. The rodent disparity was remarkable and could not be encompassed by a single category or pathway. Features of some derived euungulates and diprotodonts resembled rodents, but only a few extinct euungulates and extant wombats converged closely with them. Criteria for selecting models for palaeobiological reconstructions are discussed.

AB - Masticatory muscle features allow for an understanding of how dietary habits and masticatory functions have evolved across mammalian lineages. Herbivorous mammals were traditionally classified as pertaining to either ‘ungulate-grinding’ or ‘rodent-gnawing’ morphotypes, but those classes might not adequately encompass the diversity of past and present herbivores. We compiled data for 104 herbivorous (nine orders, including new data for 31 species) and ten non-herbivorous (five orders) extant species and for four extinct taxa, in order to construct a more comprehensive scheme of masticatory morphotypes. A myological phylomorphospace revealed 15 morphotypes, which were tested statistically and interpreted morphofunctionally. Extant herbivorous morphotypes diversified along two main pathways that did not reflect the traditional types. Additionally, some extinct herbivores adapted along alternative pathways to those of extant forms. Early mammaliaforms and mammals possessed muscle proportions almost identical to those of living carnivores. Several more plesiomorphic herbivorous morphotypes were recognized, with some of them retaining generalized myological proportions. The rodent disparity was remarkable and could not be encompassed by a single category or pathway. Features of some derived euungulates and diprotodonts resembled rodents, but only a few extinct euungulates and extant wombats converged closely with them. Criteria for selecting models for palaeobiological reconstructions are discussed.

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DO - 10.1093/zoolinnean/zlac102

M3 - Article (Academic Journal)

SN - 0024-4082

VL - 198

SP - 1106

EP - 1155

JO - Zoological Journal of the Linnean Society

JF - Zoological Journal of the Linnean Society

IS - 4

M1 - zlac102

ER -

Myology of the masticatory apparatus of herbivorous mammals and a novel classification for a better understanding of herbivore diversity

Abstract

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