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. 2017 Nov 27;12(11):e0187969.
doi: 10.1371/journal.pone.0187969. eCollection 2017.

Phylogeography of the Central American lancehead Bothrops asper (SERPENTES: VIPERIDAE)

Affiliations

Phylogeography of the Central American lancehead Bothrops asper (SERPENTES: VIPERIDAE)

Mónica Saldarriaga-Córdoba et al. PLoS One. .

Abstract

The uplift and final connection of the Central American land bridge is considered the major event that allowed biotic exchange between vertebrate lineages of northern and southern origin in the New World. However, given the complex tectonics that shaped Middle America, there is still substantial controversy over details of this geographical reconnection, and its role in determining biogeographic patterns in the region. Here, we examine the phylogeography of Bothrops asper, a widely distributed pitviper in Middle America and northwestern South America, in an attempt to evaluate how the final Isthmian uplift and other biogeographical boundaries in the region influenced genealogical lineage divergence in this species. We examined sequence data from two mitochondrial genes (MT-CYB and MT-ND4) from 111 specimens of B. asper, representing 70 localities throughout the species' distribution. We reconstructed phylogeographic patterns using maximum likelihood and Bayesian methods and estimated divergence time using the Bayesian relaxed clock method. Within the nominal species, an early split led to two divergent lineages of B. asper: one includes five phylogroups distributed in Caribbean Middle America and southwestern Ecuador, and the other comprises five other groups scattered in the Pacific slope of Isthmian Central America and northwestern South America. Our results provide evidence of a complex transition that involves at least two dispersal events into Middle America during the final closure of the Isthmus.

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Conflict of interest statement

Competing Interests: The authors have declared that no competing interests exist.

Figures

Fig 1
Fig 1. Distribution of Bothrops asper (red contour) in Middle and South America adapted from [33].
Question marks in northwestern Venezuela and Peru indicate that part of the distribution which needs confirmation. Symbols represent localities of specimens included in analyses, showing their phylogeographical affinities: MY (Mexico-Yucatan), NCA (Caribbean Nuclear Central America), CICA (Caribbean Isthmian Central America), PICA (Pacific Isthmian Central America), WE (West Ecuador), TR (Tumbes region), CHOCO 1 (Darien-Colombian Chocó), CHOCO 2 (Ecuadorian Chocó), CCO (Caribbean Colombia), MV (Magdalena Valley). See text for elaboration.
Fig 2
Fig 2. Bayesian phylogeny of relationships among members of B. asper from different physiographic regions (names as in Fig 1).
Two distinct B. asper lineages are depicted in red (clade A) and green (clade B) branches. Red bars indicate phylogroups supported by the bPTP analysis. Support for each node is shown as posterior probability (PP, Bayesian inference) or Bootstrap value (BS, Maximum likelihood).
Fig 3
Fig 3. Maximum clade credibility phylogeny for Bothrops asper, retrieved from mtDNA sequences.
Branches are colored according to the most probable "location state" of their descendant nodes. Values in branches indicate the location set probability of the ancestral state, in this case, the probability that the origin of the branch occurred in the region that is now Colombia. Bayesian support for clades as in Fig 2.
Fig 4
Fig 4. Bayesian estimates of divergence time (Mya) for the lancehead phylogeny.
Left: Overall tree showing the calibration points (black dots) for time divergence estimations. Right: B. asper phylogeny showing the mean and 95% confidence intervals (in parenthesis) for divergence time estimates at each node. Clades A and B are depicted as in Fig 2. Grey bar indicates the extension of the Pliocene. Well supported nodes (PP > 0.95) for divergence estimations are shown in light blue, whereas weakly supported nodes are shown in white. B. asper phylogroup names as in Fig 1.

References

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