Carla Gutiérrez‐Rodríguez scite author profile

Comparative phylogeography can elucidate the influence of historical events on current patterns of biodiversity and can identify patterns of co-vicariance among unrelated taxa that span the same geographic areas. Here we analyze temporal and spatial divergence patterns of cloud forest plant and animal species and relate them to the evolutionary history of naturally fragmented cloud forests–among the most threatened vegetation types in northern Mesoamerica. We used comparative phylogeographic analyses to identify patterns of co-vicariance in taxa that share geographic ranges across cloud forest habitats and to elucidate the influence of historical events on current patterns of biodiversity. We document temporal and spatial genetic divergence of 15 species (including seed plants, birds and rodents), and relate them to the evolutionary history of the naturally fragmented cloud forests. We used fossil-calibrated genealogies, coalescent-based divergence time inference, and estimates of gene flow to assess the permeability of putative barriers to gene flow. We also used the hierarchical Approximate Bayesian Computation (HABC) method implemented in the program msBayes to test simultaneous versus non-simultaneous divergence of the cloud forest lineages. Our results show shared phylogeographic breaks that correspond to the Isthmus of Tehuantepec, Los Tuxtlas, and the Chiapas Central Depression, with the Isthmus representing the most frequently shared break among taxa. However, dating analyses suggest that the phylogeographic breaks corresponding to the Isthmus occurred at different times in different taxa. Current divergence patterns are therefore consistent with the hypothesis of broad vicariance across the Isthmus of Tehuantepec derived from different mechanisms operating at different times. This study, coupled with existing data on divergence cloud forest species, indicates that the evolutionary history of contemporary cloud forest lineages is complex and often lineage-specific, and thus difficult to capture in a simple conservation strategy.

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Symbiodinium sp. associations in the gorgonian Pseudopterogorgia elisabethae in the Bahamas: high levels of genetic variability and population structure in symbiotic dinoflagellates

Santos

et al. 2003

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Phylogenetic Identification of Symbiotic Dinoflagellates via Length Heteroplasmy in Domain V of Chloroplast Large Subunit (cp23S)?Ribosomal DNA Sequences

Santos

Gutiérrez‐Rodríguez

Coffroth

2003

Marine Biotechnology

100

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A protocol that takes advantage of length heteroplasmy in domain V of chloroplast large subunit (cp23S)-ribosomal DNA to identify members of the symbiotic dinoflagellate genus Symbiodinium is presented. This protocol is highly specific for Symbiodinium, can provide intercladal and intracladal identification of a particular Symbiodinium isolate, and can detect multiple Symbiodinium chloroplast genotypes simultaneously in the same isolate, making his technique attractive for a variety of research questions. We used this technique to characterize variation among Symbiodinium populations associated with a range of phylogenetically diverse and geographically discrete hosts. We also examined symbiont variation within a single host, the Caribbean gorgonian Pseudopterogorgia elisabethae, from 9 sites in the Bahamas, and we report a previously undocumented level of symbiont specificity for particular members of Symbiodinium clade B in this gorgonian.

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Genetic, phenotypic and ecological divergence with gene flow at the Isthmus of Tehuantepec: the case of the azure‐crowned hummingbird (Amazilia cyanocephala)

Rodríguez‐Gómez

Gutiérrez‐Rodríguez

Ornelas

2013

Journal of Biogeography

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Aim We test whether populations of the Mesoamerican azure‐crowned hummingbird, Amazilia cyanocephala (Trochilidae), located east and west of the Isthmus of Tehuantepec are genetically, morphologically and environmentally differentiated and examine the relative role of drift and selection in driving diversification. Location Mexico. Methods We sequenced the mitochondrial ATPase‐6 and ATPase‐8 genes and the control region of 130 individuals collected throughout the range of the species in Mexico. Population genetic methods and coalescent tests were used to reconstruct the phylogeography of the species. Morphological and niche variation between genetic groups of A. cyanocephala were assessed. Results The data revealed two genetic groups separated by the Isthmus of Tehuantepec in the late Pleistocene (49,300–75,800 years ago), with the split occurring in the presence of gene flow. Deviations from demographic equilibrium were detected for the two genetic groups, indicating more recent population expansions. Amazilia cyanocephala individuals from populations on either side of the Isthmus of Tehuantepec differed in morphology and were distributed in unique environmental space. A coalescent‐based test indicated that selection is driving the observed morphological differentiation. Main conclusions Our findings implicate the Isthmus of Tehuantepec as a permeable barrier driving recent diversification of A. cyanocephala in the presence of gene flow. The two A. cyanocephala mitochondrial DNA (mtDNA) groups corresponding with morphological and environmental niche differences, in concert with the results of a coalescent‐based test, suggest that selection has been strong enough to counteract the effects of gene flow.

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