PLoS ONE (Jan 2022)

Mitochondrial diversity and inter-specific phylogeny among dolphins of the genus Stenella in the Southwest Atlantic Ocean.

  • Drienne Messa Faria,
  • Debbie Steel,
  • C Scott Baker,
  • José Martins da Silva,
  • Ana Carolina Oliveira de Meirelles,
  • Luciano Raimundo Alardo Souto,
  • Salvatore Siciliano,
  • Lupércio Araujo Barbosa,
  • Eduardo Secchi,
  • Juliana Couto Di Tullio,
  • Larissa Rosa de Oliveira,
  • Paulo Henrique Ott,
  • Ana Paula Cazerta Farro

DOI
https://doi.org/10.1371/journal.pone.0270690
Journal volume & issue
Vol. 17, no. 7
p. e0270690

Abstract

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The genus Stenella is comprised of five species occurring in all oceans. Despite its wide distribution, genetic diversity information on these species is still scarce especially in the Southwest Atlantic Ocean. Some features of this genus can enhance opportunities for potential introgressive hybridization, e.g. sympatric distibution along the Brazilian coast, mixed known associations among species, karyotype uniformity and genome permeability. In this study we analyzed three genes of the mitochondrial genome to investigate the genetic diversity and occurrence of genetic mixture among eighty specimens of Stenella. All species exhibited moderate to high levels of genetic diversity (h = 0.833 to h = 1.000 and π = 0.006 to π = 0.015). Specimens of S. longirostris, S. attenuata and S. frontalis were clustered into differentiated haplogroups, in contrast, haplotypes of S. coeruleoalba and S. clymene were clustered together. We detected phylogenetic structure of mixed clades for S. clymene and S. coeruleoalba specimens, in the Southwest Atlantic Ocean, and also between S. frontalis and S. attenuata in the Northeast Atlantic Ocean, and between S. frontalis and S. longirostris in the Northwest Atlantic Ocean. These specimes were morphologically identified as one species but exhibited the maternal lineage of another species, by mitochondrial DNA. Our results demonstrate that ongoing gene flow is occurring among species of the genus Stenella reinforcing that this process could be one of the reasons for the confusing taxonomy and difficulties in elucidating phylogenetic relationships within this group.