Evolutionary drivers of morphological differentiation among three bottlenose dolphin lineages, Tursiops spp. (Delphinidae), in the northwest Indian Ocean utilizing linear and geometric morphometric techniques

Abstract Local adaptation and adaptive radiations are typically associated with phenotypic variation suited to alternative environments. In the marine environment, the nature of relevant ecological or environmental transitions is poorly understood, especially for highly mobile species. Here we compa...

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Bibliographic Details
Published inBiological journal of the Linnean Society Vol. 135; no. 3; pp. 610 - 629
Main Authors Gray, Howard, van Waerebeek, Koen, Owen, Joseph, Collins, Tim, Minton, Gianna, Ponnampalam, Louisa, Willson, Andrew, Baldwin, Robert, Hoelzel, A Rus
Format Journal Article
LanguageEnglish
Published UK Oxford University Press 01.03.2022
Subjects
Aquatic mammals
Conservation
Dolphins
Genetic diversity
Marine environment
Morphology
Phenotypic variations
Phylogeny
Trechus aduncus
Tursiops
Indian Ocean
divergence
adaptation
Indian Ocean
morphology
speciation
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Summary:Abstract Local adaptation and adaptive radiations are typically associated with phenotypic variation suited to alternative environments. In the marine environment, the nature of relevant ecological or environmental transitions is poorly understood, especially for highly mobile species. Here we compare three genetic lineages in the genus Tursiops (bottlenose dolphins), using linear measurements and geometric morphometric techniques, in the context of environmental variation in the northwest Indian Ocean. Cranial morphology was clearly differentiated comparing Tursiops truncatus and Tursiops aduncus, while a recently discovered genetic lineage, found in the Arabian Sea, was morphologically most similar to T. aduncus from the same region, but distinct for various measures, particularly metrics associated with the lateral dimension of the skull. The extent of divergence between T. truncatus and T. aduncus compared to differences between the T. aduncus lineages is consistent with the recent phylogeny for these species. Therefore, with the corroboration of genetic and morphological inference, we propose two conservation units of T. aduncus be recognized in the region at a sub-specific level so that their conservation can be managed effectively. We consider possible evolutionary mechanisms associated with regional habitat characteristics and the exploitation of distinct prey resources.
ISSN:0024-4066
1095-8312
DOI:10.1093/biolinnean/blab133