Characterization of the genetic diversity, population genetic structure and relatedness of hyacinth macaw (Anodorhynchus hyacinthinus) based on microsatellite and mitochondrial DNA

Brazil has the highest number of parrot species in the world (about 74), 17 of them endangered. Among them is the hyacinth macaw (Anodorhynchus hyacinthinus), which is considered vulnerable and could become endangered in the near future, due to the intense illegal traffic and loss of habitat. In this study we estimated levels of variability and characterized the genetic structure of natural populations of hyacinth macaws. We analyzed 10 microsatellite loci from 98 individuals and concatenated sequences of mitochondrial genes (ND5, cytochrome b and ND2, 2,123 bp total) from 80 individuals. The genetic diversity index was low compared to those from other species of parrots. In addition, RST indeces and Bayesian analysis of microsatellite data showed moderate genetic structure among individuals of four regions in Brazil (north Pantanal, south Pantanal, north and northeast), but FST indeces indicate differentiation only between three regions (north and northeast without differentiation). This is in accordance with the strong genetic structure indicated by FST indeces and haplotype network based on mitochondrial sequences. Based on the mitochondrial data, the time of divergence of the genetic groups of hyacinth macaws was estimated to have occurred 16 to 42 thousand years ago, which corresponds to the late Pleistocene. Still, the results suggest that the population has been demographically stable over time, which may indicate that the low variability levels may be a characteristic of the species. However, the haplotype network presents a star shape, which indicate recent expansion, specially in the northeast. Additionally, given the population genetic structure data, it was possible to identify the most probable region of origin of apprehended individuals, this information is important to plan preventive and repressive control. Additionally, we analyzed seven microsatellite loci of chicks sampled in the same nest (same breeding season, alternate breeding seasons and consecutive seasons) in two regions of the Pantanal. The results suggest that the species is predominantly monogamous, but there is at least 12.5% of extra-pair paternity and 6.5% of brood parasitism. Furthermore, the genetic data is congruent with field observations that suggest that many couples return to the same nest in consecutive and alternative breeding seasons. Finally, we standardized for a molecular sexing protocol for molten feathers. In conclusion, the genetic results obtained in this study provide information about the processes involved in the evolutionary history and the reproductive behavior of hyacinth macaws that may help plan conservation actions. (AU)