Isolation and characterization of microsatellite markers in two species of the neotropical Epicharis (Hymenoptera, Apidae, Centridini) genus and cross-amplification in related species.

Genetics can provide invaluable tools for management and conservation of bee populations, which are declining worldwide. Among these tools, microsatellite are very useful molecular markers for population analyses. The aim of this study was to isolate and characterize microsatellites for Epicharis (Anepicharis) dejeanii and Epicharis (Epicharis) nigrita, two Neotropical species of solitary bees, both exhibiting the habit of nesting in aggregations. Microsatellite loci were identified from two enriched genomic libraries. The characterization and analysis of loci were carried out using 35 females of E. dejeanii and 34 of E. nigrita. In total, we report the development of 12 microsatellite loci for E. dejeanii and 13 for E. nigrita. For E. dejeanii, all loci were polymorphic, the number of alleles per locus ranged from 2 to 12, averaging 8.7 and, observed and expected heterozygosity were 0.485 (range 0.229-0.857) and 0.633 (range 0.288-0.843), respectively. For E. nigrita, only nine out of 13 loci amplified were polymorphic, the number of alleles per locus ranged from 2 to 12, averaging 5.5. For this species, the observed and expected heterozygosity were 0.440 (range 0.118-0.676) and 0.545 (range 0.167-0.814), respectively. Cross-amplification of primers was successful in other Centridini species. The two sets of loci described for E. dejeanii and E. nigrita species are polymorphic and informative and show promising applicability for both population genetic approaches and relatedness on these and other Centridini species.

Genetic Diversity of the Endangered Neotropical Cichlid Fish (Gymnogeophagus setequedas) in Brazil.

Gymnogeophagus setequedas is a rare and rheophilic species of tribe Geophagini, considered endangered in Brazilian red lists. Its previously known geographical distribution range was the Paraná River basin, in Paraguay, and a tributary of the Itaipu Reservoir in Brazil. Since its description no specimens have been collected in the original known distribution area. However, recent records of G. setequedas in the lower Iguaçu River, in a region considered highly endemic for the ichthyofauna, extended the known geographical distribution and may represent one of the last remnants of the species. The aim of this study was to estimate the genetic diversity and population structure of G. setequedas, using microsatellite markers and mitochondrial haplotypes, in order to test the hypothesis of low genetic diversity in this restricted population. Muscular tissue samples of 86 specimens were obtained from nine locations in the Lower Iguaçu River basin, between upstream of the Iguaçu Falls and downstream of the Salto Caxias Reservoir. Seven microsatellites loci were examined and a total of 120 different alleles were obtained. The number of alleles per locus (NA) was 17.429, effective alleles (NE) 6.644, expected heterozygosity (HE) 0.675, observed (HO) heterozygosity 0.592, and inbreeding coefficient (FIS) 0.128. Twelve haplotypes in the D-Loop region were revealed, with values of h (0.7642) and π (0.00729), suggesting a large and stable population with a long evolutionary history. Thus, both molecular markers revealed high levels of genetic diversity and indicated the occurrence of a single G. setequedas population distributed along a stretch of approximately 200 km. The pattern of mismatch distribution was multimodal, which is usually ascribed to populations in demographic equilibrium. Nevertheless, the construction of a new hydroelectric power plant, already underway between the Salto Caxias Reservoir and Iguaçu Falls, could fragment this population, causing loss of genetic diversity and population decline, and for this reason it is necessary to maintain the Iguaçu River tributaries and downstream area from the Lower Iguaçu Reservoir free of additional dams, to guarantee the survival of this species.