Marked Directional Skull Asymmetry in the Araucan Horse

Las desviaciones de la simetría perfecta de caracteres simétricos normalmente bilaterales ocurren durante el desarrollo individual debido a la influencia de múltiples factores. La asimetría fluctuante (FA) es la variación de desarrollo aleatorio de un rasgo (o carácter) que es perfectamente simétric...

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Autores:: Parés Casanova, Pere Miquel
Crosby Granados, René Alejandro
Muñoz Rodríguez, Fabián Andrés
Salamanca Carreño, Arcesio

Tipo de recurso:: Article of journal

Fecha de publicación:: 2020

Institución:: Universidad Cooperativa de Colombia

Repositorio:: Repositorio UCC

Idioma:

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repository_id_str
dc.title.spa.fl_str_mv	Marked Directional Skull Asymmetry in the Araucan Horse
title	Marked Directional Skull Asymmetry in the Araucan Horse
spellingShingle	Marked Directional Skull Asymmetry in the Araucan Horse Araucan Asimetría bilateral Asimetría direccional Asimetría fluctuante Araucano bilateral asymmetry directional asymmetry fluctuating asymmetry
title_short	Marked Directional Skull Asymmetry in the Araucan Horse
title_full	Marked Directional Skull Asymmetry in the Araucan Horse
title_fullStr	Marked Directional Skull Asymmetry in the Araucan Horse
title_full_unstemmed	Marked Directional Skull Asymmetry in the Araucan Horse
title_sort	Marked Directional Skull Asymmetry in the Araucan Horse
dc.creator.fl_str_mv	Parés Casanova, Pere Miquel Crosby Granados, René Alejandro Muñoz Rodríguez, Fabián Andrés Salamanca Carreño, Arcesio
dc.contributor.author.none.fl_str_mv	Parés Casanova, Pere Miquel Crosby Granados, René Alejandro Muñoz Rodríguez, Fabián Andrés Salamanca Carreño, Arcesio
dc.subject.spa.fl_str_mv	Araucan Asimetría bilateral Asimetría direccional Asimetría fluctuante
topic	Araucan Asimetría bilateral Asimetría direccional Asimetría fluctuante Araucano bilateral asymmetry directional asymmetry fluctuating asymmetry
dc.subject.other.spa.fl_str_mv	Araucano bilateral asymmetry directional asymmetry fluctuating asymmetry
description	Las desviaciones de la simetría perfecta de caracteres simétricos normalmente bilaterales ocurren durante el desarrollo individual debido a la influencia de múltiples factores. La asimetría fluctuante (FA) es la variación de desarrollo aleatorio de un rasgo (o carácter) que es perfectamente simétrico, en promedio, en una población. La asimetría direccional (DA) ocurre cuando un lado del par de lados del cuerpo está fuertemente más marcado. Investigamos la presencia y el nivel del cráneo FA y DA en el caballo araucano, una raza del este de Colombia. Se estudió una muestra de 21 cráneos pertenecientes a animales adultos. de métodos estándar geométrico-morfométricos que utilizan 16 puntos de referencia en el aspecto dorsal de los cráneos. Las mediciones mostraron una DA significativa con un desplazamiento constante hacia la derecha de la splanchnocracia. Los resultados de este estudio plantean preguntas sobre la influencia de la biomecánica masticatoria en el desarrollo asimétrico del cráneo, y también sobre cómo el manejo y las propiedades específicas de la ingesta (como la abrasividad) puede influir en esto asimetría.
publishDate	2020
dc.date.accessioned.none.fl_str_mv	2020-03-18T19:40:40Z
dc.date.available.none.fl_str_mv	2020-03-18T19:40:40Z
dc.date.issued.none.fl_str_mv	2020-03-16
dc.type.none.fl_str_mv	Artículo
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dc.identifier.issn.spa.fl_str_mv	2625-2325.
dc.identifier.uri.spa.fl_str_mv	https://doi.org/10.1055/s-0040-1702986
dc.identifier.uri.none.fl_str_mv	https://hdl.handle.net/20.500.12494/17185
dc.identifier.bibliographicCitation.spa.fl_str_mv	Arés-Casanova et al. 2020. Marked Directional Skull Asymmetry in the Araucan Horse. VCOT Open; 03(01): e11-e18
identifier_str_mv	2625-2325. Arés-Casanova et al. 2020. Marked Directional Skull Asymmetry in the Araucan Horse. VCOT Open; 03(01): e11-e18
url	https://doi.org/10.1055/s-0040-1702986 https://hdl.handle.net/20.500.12494/17185
dc.relation.ispartofjournal.spa.fl_str_mv	VCOT Open Veterinary and Comparative Orthopaedics and Traumatology
dc.relation.references.spa.fl_str_mv	Amik T. Of mice, mothers and mirror-images: testing relationships between asymmetry and fecundity. Thesis. University of Guelph; 2001:53 Rasskin-Gutman D. Organized mayhem in Bilateria Baupläne: symmetry and animal complexity. Coloquios Paleontol 2003;1 (01):559–567 Cocilovo JA, Varela HH, Quevedo S. La asimetría bilateral y la inestabilidad del desarrollo. Rev Argent Antropol Biol 2006;8(01): 121–144 Auffray JC, Debat V, Alibert P. Shape asymmetry and developmental stability. In: Mark A.J. Chaplain, G.D. Singh JCM, eds. On Growth and Form: Spatio-Temporal Pattern Formation in Biology. New York: John Wiley and Sons Ltd; 1999:309–324 Angelopoulou MV, Vlachou V, Halazonetis DJ. Fluctuating molar asymmetry in relation to environmental radioactivity. Arch Oral Biol 2009;54(07):666–670 Parés-Casanova PM, Kucherova I. Horn antisymmetry in a local goat population. Int J Res Agric Food Sci 2013;1(02):12–17 López-Romero F, Zúñiga G, Martínez-Jerónimo F. Asymmetric patterns in the cranial skeleton of zebrafish (Danio rerio) exposed to sodium pentachlorophenate at different embryonic developmental stages. Ecotoxicol Environ Saf 2012;84:25–31 Leśniak K. Directional asymmetry of facial and limb traits in horses and ponies. Vet J 2013;198(01, Suppl 1):e46–e51 Kharlamova AV, Trut LN, Chase K, Kukekova AV, Lark KG. Directional asymmetry in the limbs, skull and pelvis of the silver fox (V. vulpes). J Morphol 2010;271(12):1501–1508 Parés-Casanova PM, Esteve-Puig C. Directional and fluctuating asymmetries in domestic pig skulls. Research 2014;1(828):1–5 Parés-Casanova PM. Age-dependent mandibular asymmetries in domestic pigs. Research 2014;1(797):4–7 Wilson GH, McDonald K, O’Connell MJ. Skeletal forelimb measurements and hoof spread in relation to asymmetry in the bilateral forelimb of horses. Equine Vet J 2009;41(03):238–241 Parés-Casanova PM. Harmonic analysis of equine hoof form and its matched symmetry. Research 2014;1(889):1–4 Parés-Casanova PM, Bravi R. Directional and fluctuating asymmetries in domestic sheep skulls. J Zool Biosci Res 2014;2(03):11–17 Carter AJR, Osborne E, Houle D. Heritability of directional asymmetry in Drosophila melanogaster. Int J Evol Biol 2009; 2010:759159. Doi: 10.4061/2009/759159 Bookstein FL. Morphometric Tools for Landmark Data: Geometry and Biology. Cambridge University Press, ed.). Cambridge; 1991. Doi: 10.1002/sim.4780120711 Mardia KV, Bookstein FL, Moreton IJ. Statistical assessment of bilateral symmetry of shapes. Biometrika Trust 2000;87(02): 285–300 Salamanca-Carreño A, Monroy N, Parés-Casanova PM, Crosby RA. Aporte a la evaluación para la preservación del caballo Criollo Araucano en Colombia. Zootec Trop 2015;33(04):317–325 Salamanca-Carreño A, Parés-Casanova PM, Crosby RA, Monroy N. Análisis biométrico del caballo Criollo Araucano. Arch Zootec 2017;66(253):267–278 Klingenberg CP. Developmental Constraints, Modules, and Evolvability. In: Variation. Elsevier; 2005:219–247 Hallgrímsson B, Brown JJ, Ford-Hutchinson AF, Sheets HD, Zelditch ML, Jirik FR. The brachymorph mouse and the developmental-genetic basis for canalization and morphological integration. Evol Dev 2006;8(01):61–73 Vallejo RM, Guerrero JA, González-Cózatl FX. Patterns of differentiation and disparity in cranial morphology in rodent species of the genus Megadontomys (Rodentia: Cricetidae). Zool Stud 2017; 56:14. Doi: 10.6620/ZS.2017.56-14 Von den Driesch A. A Guide to the Measurement of Animal Bones from Archaeological Sites. Massachusetts: Peabody Museum of Archaeology and Ethnology Harvard University; 1976 Rohlf FJ. The tps series of software. Hystrix 2015;26(01):9–12 Klingenberg CP, McIntyre GS, Zaklan SD. Left-right asymmetry of fly wings and the evolution of body axes. Proc Biol Sci 1998;265 (1402):1255–1259 Webster M, Sheets HD. A practical introduction to landmark-based geometric morphometrics. In: Alroy J, Hunt G, eds. Quantitative Methods in Paleobiology. The Paleontological Society; 2010: 163–188 Klingenberg CP. Morphometric integration and modularity in configurations of landmarks: tools for evaluating a priori hypotheses. Evol Dev 2009;11(04):405–421 Klingenberg CP. MorphoJ: an integrated software package for geometric morphometrics. Mol Ecol Resour 2011;11(02):353–357 owe L, Repasky RR, Palmer AR. Size-dependent asymmetry: fluctuating asymmetry versus antisymmetry and its relevance to condition-dependent signaling. Evolution 1997;51(05):1401–1408 Klingenberg CP, McIntyre GS. Geometric morphometrics of developmental instability: analyzing patterns of fluctuating asymmetry with Procrustes methods. Evolution 1998;52(05):1363–1375 Bartosiewicz L, Van Neer W, Lentacker A. Metapodial asymmetry in draft cattle. Int J Osteoarchaeol 1993;3(02):69–75 Ocal MK, Sevil F, Parin U. A quantitative study on the digital bones of cattle. Ann Anat 2004;186(02):165–168 Morgante M, Gianesella M, Versace E, et al. Preliminary study on metabolic profile of pregnant and non-pregnant ewes with high or low degree of behavioral lateralization. Anim Sci J 2010;81(06): 722–730 Austin NP, Rogers LJ. Limb preferences and lateralization of aggression, reactivity and vigilance in feral horses, Equus caballus. Anim Behav 2012;83(01):239–247 Gourso C, Düpjan S, Tuchscherer B, Lisette MCL. Behavioural lateralization in domestic pigs (Sus scrofa)—variations between motor functions and individuals. Laterality, Asymmetries Brain. Behav Cogn 2018;23(05):576–598 Auerbach BM, Ruff CB. Limb bone bilateral asymmetry: variability and commonality among modern humans. J Hum Evol 2006;50 (02):203–218 Blackburn A. Bilateral asymmetry of the humerus during growth and development. Am J Phys Anthropol 2011;145(04):639–646 Dias GJ, Cook RB, Mirhosseini M. Influence of food consistency on growth and morphology of the mandibular condyle. Clin Anat 2011;24(05):590–598 Hems T, Tillmann B. Tendon entheses of the human masticatory muscles. Anat Embryol (Berl) 2000;202(03):201–208 Parés-Casanova PM. Conservative neural symmetry of the caprine mandible. Korean J Vet Res 2013;53(04):1–4 metry in the European wild boar (Sus scrofa Linnaeus, 1758). J Morphol Sci 2014;31(04):1–5 Marado LM, Silva AM. Dental and oral nonmetric traits in a Coimbra reference sample: testing intrasample chronological and spatial variation. Archaeol Anthropol Sci 2018;10(05): 1165–1177 Reeves NM, Auerbach BM, Sylvester AD. Fluctuating and directional asymmetry in the long bones of captive cotton-top tamarins (Saguinus oedipus). Am J Phys Anthropol 2016;160 (01):41–51 Brown C, Magat M. Cerebral lateralization determines hand preferences in Australian parrots. Biol Lett 2011;7(04):496– 498 Hackert R, Maes LD, Herbin M, Libourel PA, Abourachid A. Limb preference in the gallop of dogs and the half-bound of pikas on flat ground. Laterality 2008;13(04):310–319 Leśniak K, Whittington L, Mapletoft S, et al. The influence of body mass and height on equine hoof conformation and symmetry. J Equine Vet Sci 2019;77:43–49
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spelling	Parés Casanova, Pere MiquelCrosby Granados, René AlejandroMuñoz Rodríguez, Fabián AndrésSalamanca Carreño, Arcesio3(1)2020-03-18T19:40:40Z2020-03-18T19:40:40Z2020-03-162625-2325.https://doi.org/10.1055/s-0040-1702986https://hdl.handle.net/20.500.12494/17185Arés-Casanova et al. 2020. Marked Directional Skull Asymmetry in the Araucan Horse. VCOT Open; 03(01): e11-e18Las desviaciones de la simetría perfecta de caracteres simétricos normalmente bilaterales ocurren durante el desarrollo individual debido a la influencia de múltiples factores. La asimetría fluctuante (FA) es la variación de desarrollo aleatorio de un rasgo (o carácter) que es perfectamente simétrico, en promedio, en una población. La asimetría direccional (DA) ocurre cuando un lado del par de lados del cuerpo está fuertemente más marcado. Investigamos la presencia y el nivel del cráneo FA y DA en el caballo araucano, una raza del este de Colombia. Se estudió una muestra de 21 cráneos pertenecientes a animales adultos. de métodos estándar geométrico-morfométricos que utilizan 16 puntos de referencia en el aspecto dorsal de los cráneos. Las mediciones mostraron una DA significativa con un desplazamiento constante hacia la derecha de la splanchnocracia. Los resultados de este estudio plantean preguntas sobre la influencia de la biomecánica masticatoria en el desarrollo asimétrico del cráneo, y también sobre cómo el manejo y las propiedades específicas de la ingesta (como la abrasividad) puede influir en esto asimetría.Deviations from the perfect symmetry of normally bilateral symmetrical characters occur during individual development due to the influence of multiple factors. Fluctuating asymmetry (FA) is the random developmental variation of a trait (or character) that is perfectly symmetrical, on average, across a population. Directional asymmetry (DA) occurs when one side of the pair of body sides is strongly more marked. We investigated the presence and level of skull FA and DA in the Araucan horse, a breed from East Colombia. A sample of 21 skulls belonging to adult animals was studied by means of standard geometric–morphometric methods using 16 landmarks on the dorsal aspect of the crania. Measurements showed a significant DA with a consistent rightward shift of the splanchnocrania.The results of this study raise questions about the influence of masticatory biomechanics on the asymmetric development of the skull, and also about how management and ingesta-specific properties (such as abrasiveness) may influence this asymmetry.https://scienti.minciencias.gov.co/cvlac/visualizador/generarCurriculoCv.do?cod_rh=0001022903https://orcid.org/0000-0002-5416-5906https://scienti.minciencias.gov.co/gruplac/jsp/visualiza/visualizagr.jsp?nro=00000000009387peremiquelp@ca.udl.catasaca_65@yahoo.es11-18Universidad Cooperativa de Colombia, Facultad de Ciencias de la Salud, Medicina Veterinaría y Zootecnia, AraucaAraucaMedicina veterinaria y zootecniaAraucanAsimetría bilateralAsimetría direccionalAsimetría fluctuanteAraucanobilateral asymmetrydirectional asymmetryfluctuating asymmetryMarked Directional Skull Asymmetry in the Araucan HorseArtículohttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1http://purl.org/coar/version/c_970fb48d4fbd8a85info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionAtribución – No comercial – Sin Derivarinfo:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2VCOT Open Veterinary and Comparative Orthopaedics and TraumatologyAmik T. Of mice, mothers and mirror-images: testing relationships between asymmetry and fecundity. Thesis. University of Guelph; 2001:53Rasskin-Gutman D. Organized mayhem in Bilateria Baupläne: symmetry and animal complexity. Coloquios Paleontol 2003;1 (01):559–567Cocilovo JA, Varela HH, Quevedo S. La asimetría bilateral y la inestabilidad del desarrollo. Rev Argent Antropol Biol 2006;8(01): 121–144Auffray JC, Debat V, Alibert P. Shape asymmetry and developmental stability. In: Mark A.J. Chaplain, G.D. Singh JCM, eds. On Growth and Form: Spatio-Temporal Pattern Formation in Biology. New York: John Wiley and Sons Ltd; 1999:309–324Angelopoulou MV, Vlachou V, Halazonetis DJ. Fluctuating molar asymmetry in relation to environmental radioactivity. Arch Oral Biol 2009;54(07):666–670Parés-Casanova PM, Kucherova I. Horn antisymmetry in a local goat population. Int J Res Agric Food Sci 2013;1(02):12–17López-Romero F, Zúñiga G, Martínez-Jerónimo F. Asymmetric patterns in the cranial skeleton of zebrafish (Danio rerio) exposed to sodium pentachlorophenate at different embryonic developmental stages. Ecotoxicol Environ Saf 2012;84:25–31Leśniak K. Directional asymmetry of facial and limb traits in horses and ponies. Vet J 2013;198(01, Suppl 1):e46–e51Kharlamova AV, Trut LN, Chase K, Kukekova AV, Lark KG. Directional asymmetry in the limbs, skull and pelvis of the silver fox (V. vulpes). J Morphol 2010;271(12):1501–1508Parés-Casanova PM, Esteve-Puig C. Directional and fluctuating asymmetries in domestic pig skulls. Research 2014;1(828):1–5Parés-Casanova PM. Age-dependent mandibular asymmetries in domestic pigs. Research 2014;1(797):4–7Wilson GH, McDonald K, O’Connell MJ. Skeletal forelimb measurements and hoof spread in relation to asymmetry in the bilateral forelimb of horses. Equine Vet J 2009;41(03):238–241Parés-Casanova PM. Harmonic analysis of equine hoof form and its matched symmetry. Research 2014;1(889):1–4Parés-Casanova PM, Bravi R. Directional and fluctuating asymmetries in domestic sheep skulls. J Zool Biosci Res 2014;2(03):11–17Carter AJR, Osborne E, Houle D. Heritability of directional asymmetry in Drosophila melanogaster. Int J Evol Biol 2009; 2010:759159. Doi: 10.4061/2009/759159Bookstein FL. Morphometric Tools for Landmark Data: Geometry and Biology. Cambridge University Press, ed.). Cambridge; 1991. Doi: 10.1002/sim.4780120711Mardia KV, Bookstein FL, Moreton IJ. Statistical assessment of bilateral symmetry of shapes. Biometrika Trust 2000;87(02): 285–300Salamanca-Carreño A, Monroy N, Parés-Casanova PM, Crosby RA. Aporte a la evaluación para la preservación del caballo Criollo Araucano en Colombia. Zootec Trop 2015;33(04):317–325Salamanca-Carreño A, Parés-Casanova PM, Crosby RA, Monroy N. Análisis biométrico del caballo Criollo Araucano. Arch Zootec 2017;66(253):267–278Klingenberg CP. Developmental Constraints, Modules, and Evolvability. In: Variation. Elsevier; 2005:219–247Hallgrímsson B, Brown JJ, Ford-Hutchinson AF, Sheets HD, Zelditch ML, Jirik FR. The brachymorph mouse and the developmental-genetic basis for canalization and morphological integration. Evol Dev 2006;8(01):61–73Vallejo RM, Guerrero JA, González-Cózatl FX. Patterns of differentiation and disparity in cranial morphology in rodent species of the genus Megadontomys (Rodentia: Cricetidae). Zool Stud 2017; 56:14. Doi: 10.6620/ZS.2017.56-14Von den Driesch A. A Guide to the Measurement of Animal Bones from Archaeological Sites. Massachusetts: Peabody Museum of Archaeology and Ethnology Harvard University; 1976Rohlf FJ. The tps series of software. Hystrix 2015;26(01):9–12Klingenberg CP, McIntyre GS, Zaklan SD. Left-right asymmetry of fly wings and the evolution of body axes. Proc Biol Sci 1998;265 (1402):1255–1259Webster M, Sheets HD. A practical introduction to landmark-based geometric morphometrics. In: Alroy J, Hunt G, eds. Quantitative Methods in Paleobiology. The Paleontological Society; 2010: 163–188Klingenberg CP. Morphometric integration and modularity in configurations of landmarks: tools for evaluating a priori hypotheses. Evol Dev 2009;11(04):405–421Klingenberg CP. MorphoJ: an integrated software package for geometric morphometrics. Mol Ecol Resour 2011;11(02):353–357owe L, Repasky RR, Palmer AR. Size-dependent asymmetry: fluctuating asymmetry versus antisymmetry and its relevance to condition-dependent signaling. Evolution 1997;51(05):1401–1408Klingenberg CP, McIntyre GS. Geometric morphometrics of developmental instability: analyzing patterns of fluctuating asymmetry with Procrustes methods. Evolution 1998;52(05):1363–1375Bartosiewicz L, Van Neer W, Lentacker A. Metapodial asymmetry in draft cattle. Int J Osteoarchaeol 1993;3(02):69–75Ocal MK, Sevil F, Parin U. A quantitative study on the digital bones of cattle. Ann Anat 2004;186(02):165–168Morgante M, Gianesella M, Versace E, et al. Preliminary study on metabolic profile of pregnant and non-pregnant ewes with high or low degree of behavioral lateralization. Anim Sci J 2010;81(06): 722–730Austin NP, Rogers LJ. Limb preferences and lateralization of aggression, reactivity and vigilance in feral horses, Equus caballus. Anim Behav 2012;83(01):239–247Gourso C, Düpjan S, Tuchscherer B, Lisette MCL. Behavioural lateralization in domestic pigs (Sus scrofa)—variations between motor functions and individuals. Laterality, Asymmetries Brain. Behav Cogn 2018;23(05):576–598Auerbach BM, Ruff CB. Limb bone bilateral asymmetry: variability and commonality among modern humans. J Hum Evol 2006;50 (02):203–218Blackburn A. Bilateral asymmetry of the humerus during growth and development. Am J Phys Anthropol 2011;145(04):639–646Dias GJ, Cook RB, Mirhosseini M. Influence of food consistency on growth and morphology of the mandibular condyle. Clin Anat 2011;24(05):590–598Hems T, Tillmann B. Tendon entheses of the human masticatory muscles. Anat Embryol (Berl) 2000;202(03):201–208Parés-Casanova PM. Conservative neural symmetry of the caprine mandible. Korean J Vet Res 2013;53(04):1–4metry in the European wild boar (Sus scrofa Linnaeus, 1758). J Morphol Sci 2014;31(04):1–5Marado LM, Silva AM. Dental and oral nonmetric traits in a Coimbra reference sample: testing intrasample chronological and spatial variation. Archaeol Anthropol Sci 2018;10(05): 1165–1177Reeves NM, Auerbach BM, Sylvester AD. Fluctuating and directional asymmetry in the long bones of captive cotton-top tamarins (Saguinus oedipus). Am J Phys Anthropol 2016;160 (01):41–51Brown C, Magat M. Cerebral lateralization determines hand preferences in Australian parrots. Biol Lett 2011;7(04):496– 498Hackert R, Maes LD, Herbin M, Libourel PA, Abourachid A. Limb preference in the gallop of dogs and the half-bound of pikas on flat ground. Laterality 2008;13(04):310–319Leśniak K, Whittington L, Mapletoft S, et al. The influence of body mass and height on equine hoof conformation and symmetry. 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Marked Directional Skull Asymmetry in the Araucan Horse

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