Paulo Henrique Pereira Gonçalves scite author profile

BackgroundTowards lower latitudes the number of recognized species is not only higher, but also phylogeographic subdivision within species is more pronounced. Moreover, new genetically isolated populations are often described in recent phylogenies of Neotropical birds suggesting that the number of species in the region is underestimated. Previous COI barcoding of Argentinean bird species showed more complex patterns of regional divergence in the Neotropical than in the North American avifauna.Methods and FindingsHere we analyzed 1,431 samples from 561 different species to extend the Neotropical bird barcode survey to lower latitudes, and detected even higher geographic structure within species than reported previously. About 93% (520) of the species were identified correctly from their DNA barcodes. The remaining 41 species were not monophyletic in their COI sequences because they shared barcode sequences with closely related species (N = 21) or contained very divergent clusters suggestive of putative new species embedded within the gene tree (N = 20). Deep intraspecific divergences overlapping with among-species differences were detected in 48 species, often with samples from large geographic areas and several including multiple subspecies. This strong population genetic structure often coincided with breaks between different ecoregions or areas of endemism.ConclusionsThe taxonomic uncertainty associated with the high incidence of non-monophyletic species and discovery of putative species obscures studies of historical patterns of species diversification in the Neotropical region. We showed that COI barcodes are a valuable tool to indicate which taxa would benefit from more extensive taxonomic revisions with multilocus approaches. Moreover, our results support hypotheses that the megadiversity of birds in the region is associated with multiple geographic processes starting well before the Quaternary and extending to more recent geological periods.

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Characterization of microsatellite loci of Tetragonisca angustula (Hymenoptera, Apidae, Meliponini)

Brito

Francisco

Domingues-Yamada

et al. 2009

Conservation Genet Resour

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An enriched genomic library was constructed from Tetragonisca angustula, a stingless bee species widely distributed in Brazil. The library was screened using two simple-repeat oligonucleotide probes and 21 microsatellite primer pairs were designed flanking a selection of repeat sequences within positive clones. The polymorphism of the microsatellite loci was analyzed by screening a sample of 19 unrelated T. angustula workers. Fifteen out of 21 loci were shown to be polymorphic, with observed heterozygosity estimates ranging from 0.00 to 0.89. The primers were also successfully used to amplify microsatellite loci from other stingless bee species, Tetragonisca fiebrigi, Tetragonisca weyrauchi, Lestrimelitta maracaia and Schwarziana quadripunctata. The results from variability analyses suggest that the microsatellite loci isolated from T. angustula will be useful in further population studies for the species and also for other Meliponini.

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Isolation and characterization of 15 microsatellite loci in the stingless bee Plebeia remota (Apidae: Meliponini)

Francisco

Brito

Santiago

et al. 2010

Conservation Genet Resour

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The destruction of Brazilian natural habitats has reduced bee populations and negative impacts of native flora pollination have been noticed. This work describes the isolation and characterization of microsatellite loci and evaluates them as molecular markers to study genetic variability of the stingless bee Plebeia remota. A microsatellite enriched genomic library was constructed and 15 primer pairs were designed for this species. The survey was conducted by analyzing 21 unrelated individuals. Genetic diversity indexes were calculated. The mean allelic richness was 6.3, the observed heterozygosity was 0.568, and the percentage of polymorphic loci was 93.33%. Also the primers were tested in cross-species amplification and showed promising results for P. droryana, P. emerina, P. lucii, P. meridionalis, P. pugnax, and P. saiqui. The microsatellite loci described here will be useful to evaluate genetic variability of stingless bees, and certainly will improve our knowledge about population dynamics especially in threatened environments.

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Permanent Genetic Resources added to Molecular Ecology Resources Database 1 February 2013–31 March 2013

Arias

Attéké

Augusto

et al. 2013

Molecular Ecology Resources

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Análise da variabilidade genética de uma pequena população de Frieseomelitta varia (Hymenoptera, Apidae, Meliponini) por meio de análise do DNA mitocondrial, microssatélites e morfometria geométrica das asas

Gonçalves¹

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A scientific note on the isolation and characterization of microsatellite loci of Frieseomelitta varia (Hymenoptera, Apidae, Meliponini)

Gonçalves¹,

Francisco²,

Brito³

et al. 2011

Apidologie

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Microsatellite loci for the carpenter bee Xylocopa frontalis (Apidae, Xylocopini)

Augusto

Gonçalves

Francisco

et al. 2011

Conservation Genet Resour

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Isolation and characterization of ten microsatellite loci in stingless bee Trigona spinipes (Apidae: Meliponini)

Santiago

Pioker-Hara

Francisco

et al. 2014

Entomological Science

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Stingless bees are the most abundant pollinators of Brazilian tropical flora. Trigona spinipes has some of the largest colonies of any stingless bee species found in several types of environment. This work describes the isolation and characterization of microsatellite loci for this species. A microsatellite‐enriched genomic library was constructed and ten primer pairs were designed for T. spinipes. The primers were tested in 20 unrelated individuals. The mean number of alleles was 8.10 and mean observed and expected heterozygosity were 0.655 and 0.680, respectively. Primers were also tested in cross‐species amplification and five loci were successfully amplified in Trigona chanchamayoensis, Trigona hyalinata, Tetragonisca angustula, Partamona mulata and Frieseomelitta varia. The microsatellite primers described herein will be useful for evaluating genetic variability and gaining a better understanding of the population structure of T. spinipes as well as other species of stingless bees.

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