Genetic connectivity and population expansion inferred from multilocus analysis in Lutjanus alexandrei (Lutjanidae–Perciformes), an endemic snapper from Northeastern Brazilian coast [PeerJ]

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Previous studies about the genetic diversity, connectivity and demographic history in Lutjanidae fishes have reported a common pattern of genetic homogeneity and expansion in populations from Western South Atlantic. In the present work, we inferred the population structure, the levels of genetic diversity and the demographic history of the Brazilian snapper Lutjanus alexandrei, a recently described and endemic species from Northeastern coast of Brazil. Five different fragments, including mitochondrial DNA (Control Region, Cyt b and ND4) and nuclear DNA (Myostatin and S7) regions were analyzed in 120 specimens of L. alexandrei from four localities in Northeastern Brazil, representing the first study of population genetics in this species. High levels of genetic diversity were observed following a panmictic pattern, probably related to the larval dispersal by the current tides along the Brazilian coast. In addition, both demographic history and neutrality tests indicated that L. alexandrei has undergone population expansion during Pleistocene. In this sense, the sea level variation from this period could have increased the available resources and suitable habitats for the Brazilian snapper.
Genetic connectivity and population expansion inferred from multilocus  analysis in Lutjanus alexandrei (Lutjanidae–Perciformes), an endemic  snapper from Northeastern Brazilian coast [PeerJ]
PDF) Low population genetic structure is consistent with high habitat connectivity in a commercially important fish species (Lutjanus jocu)
Genetic connectivity and population expansion inferred from multilocus  analysis in Lutjanus alexandrei (Lutjanidae–Perciformes), an endemic  snapper from Northeastern Brazilian coast [PeerJ]
Genetic connectivity and population expansion inferred from multilocus analysis in Lutjanus alexandrei (Lutjanidae–Perciformes), an endemic snapper from Northeastern Brazilian coast [PeerJ]
Genetic connectivity and population expansion inferred from multilocus  analysis in Lutjanus alexandrei (Lutjanidae–Perciformes), an endemic  snapper from Northeastern Brazilian coast [PeerJ]
Frontiers First evidence of population genetic structure of the deep-water blackmouth catshark Galeus melastomus Rafinesque, 1810
Genetic connectivity and population expansion inferred from multilocus  analysis in Lutjanus alexandrei (Lutjanidae–Perciformes), an endemic  snapper from Northeastern Brazilian coast [PeerJ]
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Genetic connectivity and population expansion inferred from multilocus  analysis in Lutjanus alexandrei (Lutjanidae–Perciformes), an endemic  snapper from Northeastern Brazilian coast [PeerJ]
DNA barcoding Australia's fish species Philosophical Transactions of the Royal Society B: Biological Sciences
Genetic connectivity and population expansion inferred from multilocus  analysis in Lutjanus alexandrei (Lutjanidae–Perciformes), an endemic  snapper from Northeastern Brazilian coast [PeerJ]
Raimundo DA SILVA, Federal University of Pará, Belém, UFPA, Campus Bragança- IECOS
Genetic connectivity and population expansion inferred from multilocus  analysis in Lutjanus alexandrei (Lutjanidae–Perciformes), an endemic  snapper from Northeastern Brazilian coast [PeerJ]
Genetic diversity and population structure show different patterns of diffusion for bitter and sweet manioc in Brazil
Genetic connectivity and population expansion inferred from multilocus  analysis in Lutjanus alexandrei (Lutjanidae–Perciformes), an endemic  snapper from Northeastern Brazilian coast [PeerJ]
PDF) Genetic connectivity and population expansion inferred from multilocus analysis in Lutjanus alexandrei (Lutjanidae–Perciformes), an endemic snapper from Northeastern Brazilian coast
Genetic connectivity and population expansion inferred from multilocus  analysis in Lutjanus alexandrei (Lutjanidae–Perciformes), an endemic  snapper from Northeastern Brazilian coast [PeerJ]
PDF) Low population genetic structure is consistent with high habitat connectivity in a commercially important fish species (Lutjanus jocu)
Genetic connectivity and population expansion inferred from multilocus  analysis in Lutjanus alexandrei (Lutjanidae–Perciformes), an endemic  snapper from Northeastern Brazilian coast [PeerJ]
Frontiers First evidence of population genetic structure of the deep-water blackmouth catshark Galeus melastomus Rafinesque, 1810
Genetic connectivity and population expansion inferred from multilocus  analysis in Lutjanus alexandrei (Lutjanidae–Perciformes), an endemic  snapper from Northeastern Brazilian coast [PeerJ]
Disentangling the contemporary and historical effects of landscape on the population genomic variation of two bird species restricted to the highland forest enclaves of northeastern Brazil
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