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Identifying genetic lineages through shape: An example in a cosmopolitan marine turtle species using geometric morphometrics

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dc.contributor.author Álvarez-Varas, Rocío
dc.contributor.author Véliz, David
dc.contributor.author Vélez-Rubio, Gabriela M.
dc.contributor.author Fallabrino, Alejandro
dc.contributor.author Zárate, Patricia
dc.contributor.author Heidemeyer, Maike
dc.contributor.author Godoy, Daniel A.
dc.contributor.author Benítez, Hugo A.
dc.date.accessioned 2022-08-30T18:36:24Z
dc.date.available 2022-08-30T18:36:24Z
dc.date.issued 2019-10-07
dc.identifier.citation Álvarez-Varas R, Véliz D, Vélez-Rubio GM, Fallabrino A, Zárate P, et al. (2019) Identifying genetic lineages through shape: An example in a cosmopolitan marine turtle species using geometric morphometrics. PLOS ONE 14(10): e0223587. https://doi.org/10.1371/journal.pone.0223587 es_CR
dc.identifier.uri https://doi.org/10.1371/journal.pone.0223587
dc.identifier.uri http://hdl.handle.net/11606/1465
dc.description.abstract The green turtle (Chelonia mydas) is a globally distributed marine species whose evolutionary history has been molded by geological events and oceanographic and climate changes. Divergence between Atlantic and Pacific clades has been associated with the uplift of the Panama Isthmus, and inside the Pacific region, a biogeographic barrier located west of Hawaii has restricted the gene flow between Central/Eastern and Western Pacific populations. We investigated the carapace shape of C. mydas from individuals of Atlantic, Eastern Pacific, and Western Pacific genetic lineages using geometric morphometrics to evaluate congruence between external morphology and species’ phylogeography. Furthermore, we assessed the variation of carapace shape according to foraging grounds. Three morphologically distinctive groups were observed which aligned with predictions based on the species’ lineages, suggesting a substantial genetic influence on carapace shape. Based on the relationship between this trait and genetic lineages, we propose the existence of at least three distinct morphotypes of C. mydas. Well-defined groups in some foraging grounds (Galapagos, Costa Rica and New Zealand) may suggest that ecological or environmental conditions in these sites could also be influencing carapace shape in C. mydas. Geometric morphometrics is a suitable tool to differentiate genetic lineages in this cosmopolitan marine species. Consequently, this study opens new possibilities to explore and test ecological and evolutionary hypotheses in species with wide morphological variation and broad geographic distribution range. es_CR
dc.language.iso en es_CR
dc.publisher PLOS ONE es_CR
dc.subject genetic lineages es_CR
dc.subject marine turtle es_CR
dc.subject geometric morphometrics es_CR
dc.subject Chelonia mydas es_CR
dc.title Identifying genetic lineages through shape: An example in a cosmopolitan marine turtle species using geometric morphometrics es_CR
dc.type Article es_CR


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    Artículos de Acceso Abierto y Manuscritos de Investigadores entregados a ACG

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