Larissa Souza Arantes scite author profile

Larissa Souza Arantes

4Publications

73Citation Statements Received

615Citation Statements Given

How they've been cited

How they cite others

406

553

Affiliations

Leibniz Institute for Zoo and Wildlife Research, Universidade Federal de Minas Gerais, Berlin Center for Genomics in Biodiversity Research

Publications

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New Genetic Insights About Hybridization and Population Structure of Hawksbill and Loggerhead Turtles From Brazil

Arantes

Vilaça

Mazzoni

et al. 2020

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An extremely high incidence of hybridization among sea turtles is found along the Brazilian coast. To understand this atypical phenomenon and its impact on sea turtle conservation, research focused in the evolutionary history of sea turtles is fundamental. We assessed high quality multilocus haplotypes of 143 samples of the five species of sea turtles that occur along the Brazilian coast to investigate the hybridization process and the population structure of hawksbill (Eretmochelys imbricata) and loggerhead turtles (Caretta caretta). The multilocus data were initially used to characterize interspecific hybrids. Introgression (F2 hybrids) was only confirmed in hatchlings of F1 hybrid females (hawksbill x loggerhead), indicating that introgression was either previously overestimated and F2 hybrids may not survive to adulthood, or the first-generation hybrid females nesting in Brazil were born as recent as few decades ago. Phylogenetic analyses using nuclear markers recovered the mtDNA-based Indo-Pacific and Atlantic lineages for hawksbill turtles, demonstrating a deep genetic divergence dating from the early Pliocene. In addition, loggerhead turtles that share a common feeding area and belong to distinct Indo-Pacific and Atlantic mtDNA clades present no clear genetic differentiation at the nuclear level. Finally, our results indicate that hawksbill and loggerhead rookeries along the Brazilian coast are likely connected by male-mediated gene flow.

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New genetic insights about hybridization and population structure of hawksbill and loggerhead turtles from Brazil

Arantes

Vilaça

Mazzoni

et al. 2020

Preprint

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19An extremely high incidence of hybridization among sea turtles is found along the 20 Brazilian coast. To understand this atypical phenomenon and its impact on sea turtle 21 conservation, research focused in the evolutionary history of sea turtles is fundamental. We 22 assessed high quality multilocus haplotypes of 143 samples of the five species of sea turtles 23 that occur along the Brazilian coast to investigate the hybridization process and the population 24 structure of hawksbill (Eretmochelys imbricata) and loggerhead turtles (Caretta caretta). The 25 multilocus data were initially used to characterize interspecific hybrids. Introgression (F2 26 hybrids) was only confirmed in hatchlings of F1 hybrid females (hawksbill x loggerhead), 27 indicating that introgression was either previously overestimated and F2 hybrids may not 28 survive to adulthood, or the first-generation hybrid females nesting in Brazil were born as recent 29 as few decades ago. Phylogenetic analyses using nuclear markers recovered the mtDNA-based 30 Indo-Pacific and Atlantic lineages for hawksbill turtles, demonstrating a deep genetic 31 divergence dating from the early Pliocene. In addition, loggerhead turtles that share a common 32 2 feeding area and belong to distinct Indo-Pacific and Atlantic mtDNA clades present no clear 33 genetic differentiation at the nuclear level. Finally, our results indicate that hawksbill and 34 loggerhead rookeries along the Brazilian coast are likely connected by male-mediated gene 35 flow. 36 37

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Divergent sensory and immune gene evolution in sea turtles with contrasting demographic and life histories

Bentley

Carrasco-Valenzuela

Ramos

et al. 2022

Preprint

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Marine turtles represent an ancient lineage of marine vertebrates that evolved from terrestrial ancestors over 100 MYA, yet the genomic basis of the unique physiological and ecological traits enabling these species to thrive in diverse marine habitats remain largely unknown. Additionally, many populations have declined drastically due to anthropogenic activities over the past two centuries, and their recovery is a high global conservation priority. We generated and analyzed high-quality reference genomes for green (Chelonia mydas) and leatherback (Dermochelys coriacea) turtles, representing the two extant marine turtle families (MRCA ~60 MYA). Generally, these genomes are highly syntenic and homologous. Non-collinearity was associated with higher copy numbers of immune, zinc-finger, or olfactory receptor (OR) genes in green turtles. Gene family analyses suggested that ORs related to waterborne odorants have expanded in green turtles and contracted in leatherbacks, which may underlie immunological and sensory adaptations assisting navigation and occupancy of neritic versus pelagic environments, and diet specialization. Microchromosomes showed reduced collinearity, and greater gene content, heterozygosity, and genetic distances between species, supporting their critical role in vertebrate evolutionary adaptation. Finally, demographic history and diversity analyses showed stark contrasts between species, indicating that leatherback turtles have had a low yet stable effective population size, extremely low diversity when compared to other reptiles, and a higher proportion of deleterious variants, reinforcing concern over the persistence of this species under future climate scenarios. These highly contiguous genomes provide invaluable resources for advancing our understanding of evolution and conservation best practices in an imperiled vertebrate lineage.

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Global phylogeography of the critically endangered hawksbill turtle (Eretmochelys imbricata)

2020

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The hawksbill turtle is a broadly distributed, highly migratory and critically endangered sea turtle species. The paucity of studies restricts the comprehension of its behavior and life history. In this work, we performed a global phylogeographic analysis using a compilation of previously published mitochondrial haplotype data to understand the dynamics and diversity of hawksbill populations worldwide. Our results revealed a complex demographic pattern associated to hawksbill phylogeography since the Pliocene. Isolation by distance is not enough to explain distinct demographic units of hawksbill turtles, which are also influenced by other factors as oceanic currents, coral reef distribution and nesting timing. The foraging aggregations are typically mixed stocks of individuals originating from multiple nesting areas, but there is also a trend of foragers coming from nearby natal beaches. Phylogenetic analysis indicates two highly divergent major lineages split between Atlantic and Indo-Pacific rookeries, but there is also a more recent Atlantic Ocean colonization from the Indo-Pacific Ocean. Long-distance dispersal events are likely responsible for homogenization between distant populations within oceans. Our findings provided new insights about population connectivity, identified gaps that should be prioritized in future research and highlighted the need for international efforts aiming at hawksbill's conservation.

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