Bones geometric morphometrics illustrate 10th millennium cal. BP domestication of autochthonous Cypriot wild boar (Sus scrofa circeus nov. ssp)

Cucchi, Thomas; Domont, Auriale; Harbers, H.; Evin, Allowen; Fors, Roger Alcàntara; Saña, Maria; Leduc, Charlotte; Guidez, Aurélie; Bridault, Anne; Hongo, Hitomi; Price, Max; Peters, Joris; Briois, François; Guilaine, Jean; Vigne, Jean‐Denis

doi:10.1038/s41598-021-90933-w

Cited by 10 publications

(8 citation statements)

References 44 publications

(28 reference statements)

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“…The phenotype of the Corsican mouflon, intermediate between the domestic and SWA mouflon, supports recent GMM cranial studies on Australian feral boars descended from 19th century introduced pigs, showing that the feralization of a domestic population does not lead to the return of a wild phenotype (Neaux et al, 2020). However, the phenotype of the Corsican mouflon could also be related to an insular rather than a domestication syndrome, as shown for the now extinct endemic wild boar of Cyprus introduced by Epipalaeolithic hunter-gatherers (Cucchi et al, 2021;Vigne et al, 2009).…”

Section: Interspecific Taxonomic Signalsupporting

confidence: 79%

Are petrous bones just a repository of ancient biomolecules? Investigating biosystematic signals in sheep petrous bones using 3D geometric morphometrics

Bader

Mallet

Chahoud

et al. 2022

Journal of Archaeological Science: Reports

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Section: Interspecific Taxonomic Signalsupporting

confidence: 79%

Are petrous bones just a repository of ancient biomolecules? Investigating biosystematic signals in sheep petrous bones using 3D geometric morphometrics

Bader

Mallet

Chahoud

et al. 2022

Journal of Archaeological Science: Reports

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“…Our results provide evidence that captivity influences the morphology of craniomandibular and postcranial structures of wild boar, as wild specimens are significantly smaller than captive The more physically constrained nature of the calcaneus and the direct influence of mobility reduction on this bone may explain these specificities. These results provide new methodological perspectives for bioarchaeological approaches as they imply that the plastic mark of captivity can be observed in juvenile specimens as well as in adults (Cucchi et al, 2021;Harbers, Neaux, et al, 2020;Neaux, Blanc, Ortiz, Locatelli, Laurens, et al, 2021;.…”

Section: Discussionmentioning

confidence: 75%

“…The more physically constrained nature of the calcaneus and the direct influence of mobility reduction on this bone may explain these specificities. These results provide new methodological perspectives for bioarchaeological approaches as they imply that the plastic mark of captivity can be observed in juvenile specimens as well as in adults (Cucchi et al, 2021; Harbers, Neaux, et al, 2020; Neaux, Blanc, Ortiz, Locatelli, Laurens, et al, 2021; Neaux, Blanc, Ortiz, Locatelli, Schafberg, et al, 2021). Further studies need to explore the morphological integration during growth in captive conditions for both craniomandibular and postcranial structures to decipher the role of developmental and functional correlates between structures in generating the differences observed in our study.…”

Section: Discussionmentioning

confidence: 88%

The effect of captivity on craniomandibular and calcaneal ontogenetic trajectories in wild boar

Neaux

Harbers

Blanc³

et al. 2022

J Exp Zool Pt B

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Deciphering the plastic (i.e., nonheritable) changes induced by human control over wild animals in the archeological record is challenging. Previous studies detected morphological markers associated with captivity in the cranium, mandible, and calcaneus of adult wild boar (Sus scrofa) but the developmental trajectories leading up to these changes during ontogeny remain unknown. To assess the impact of growth in a captive environment on morphological structures during postnatal ontogeny, we used an experimental approach focusing on the same three structures and taxon. We investigated the form and size differences of captive‐reared and wild‐caught wild boar during growth using three‐dimensional landmark‐based geometric morphometrics. Our results provide evidence of an influence of captivity on the morphology of craniomandibular structures, as wild specimens are smaller than captive individuals at similar ages. The food resources inherent to anthropogenic environments may explain some of the observed differences between captive‐reared and wild specimens. The calcaneus presents a different contrasted pattern of plasticity as captive and wild individuals differ in terms of form but not in terms of size. The physically more constrained nature of the calcaneus and the direct influence of mobility reduction on this bone may explain these discrepancies. These results provide new methodological perspectives for bioarchaeological approaches as they imply that the plastic mark of captivity can be observed in juvenile specimens in the same way it has been previously described in adults.

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“…Taxa References Mammals Pig (Cucchi et al, 2008(Cucchi et al, , 2011(Cucchi et al, , 2016(Cucchi et al, , 2021Dobney et al, 2008;Bartosiewicz et al, 2013;Krause-Kyora et al, 2013;Ottoni et al, 2013;Duval et al, 2015Duval et al, , 2018Evin, Flink, et al, 2015;Balasse et al, 2016;Frémondeau et al, 2017;Price & Evin, 2017;Bopp-Ito et al, 2018;Marom et al, 2019) Dog (Drake & Klingenberg, 2008;Drake et al, 2015Drake et al, , 2017Daza Perea, 2017;Geiger et al, 2017;Fisher, 2019;Ameen et al, 2019;Manin & Evin, 2020;Schoenebeck et al, 2021) Caprines (sheep and goat) (Haruda, 2017;Pöllath et al, 2018Pöllath et al, , 2019Haruda et al, 2019;Colominas et al, 2019) Equids (horse and donkey) (Seetah et al, 2016;Cucchi et al, 2017; Grapevine (Bacilieri et al, 2017;Bonhomme et al, 2020;Bouby et al, 2018Bouby et al, , 2021Figueiral et al, 2015;Mariotti Lippi et al, 2020;Margaritis et al, 2021;Moricca et al, 2021;Orrù, Grillo, Lovicu...…”

Section: Groupmentioning

confidence: 99%

Archaeophenomics of ancient domestic plants and animals using geometric morphometrics : a review

Evin¹,

Bouby²,

Bonhomme³

et al. 2022

Peer Community Journal

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Geometric morphometrics revolutionized domestication studies through the precise quantification of the phenotype of ancient plant and animal remains. Geometric morphometrics allow for an increasingly detailed understanding of the past agrobiodiversity and our ability to characterize large scale ancient phenotypes has led to what can be named archaeophenomics : the large scale phenotyping of ancient remains. This review describes advances in the bioarchaeological study of domesticated species and their wild relatives where their phenomes are quantified through geometric morphometrics. The two main questions addressed by archaeophenomics are i) taxonomic identification, including domestication signature, and ii) the inference of the spatio-temporal agrobiodiversity dynamics. Archaeophenomics is a growing field in bioarchaeology of domestic species that will benefit in the near future from advances in artificial intelligence and from an increasing interest in multiproxy approaches combining morphometric data with e.g. isotopes or archaeogenomics.

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Bones geometric morphometrics illustrate 10th millennium cal. BP domestication of autochthonous Cypriot wild boar (Sus scrofa circeus nov. ssp)

Cited by 10 publications

References 44 publications

Are petrous bones just a repository of ancient biomolecules? Investigating biosystematic signals in sheep petrous bones using 3D geometric morphometrics

Are petrous bones just a repository of ancient biomolecules? Investigating biosystematic signals in sheep petrous bones using 3D geometric morphometrics

The effect of captivity on craniomandibular and calcaneal ontogenetic trajectories in wild boar

Archaeophenomics of ancient domestic plants and animals using geometric morphometrics : a review

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