Development of microsatellite markers for Manilkara maxima T.D. Penn. (Sapotaceae) and their use in conservation genetics.

Manilkara maxima is an endemic tree species of the Atlantic Forest in southern Bahia, Brazil. It is considered important for forest conservation due to its mutualistic interactions with endemic and endangered animals. Our aim was to develop microsatellite markers to estimate genetic diversity in order to provide information for effectiveness of future conservation programs. We used next generation sequencing technology to develop the first specific microsatellite markers for M. maxima. Seventeen new microsatellite loci were applied in 72 individuals sampled in three natural populations. On average, the number of alleles per loci was 8.8. The expected heterozygosity varied between 0.72 and 0.77, indicating that the developed set of molecular markers is useful for genetic diversity studies. Additionally, the estimated value for the combined probability of exclusion (Q) was greater than 0.999, which indicates the powerful of these molecular tools for paternity and kinship analysis. Our results demonstrate that the set of microsatellites developed in this work is a powerful tool for population genetics, molecular ecology and conservation biology purposes.

DNA barcoding in Atlantic Forest plants: What is the best marker for Sapotaceae species identification?

The Atlantic Forest is a phytogeographic domain with a high rate of endemism and large species diversity. The Sapotaceae is a botanical family for which species identification in the Atlantic Forest is difficult. An approach that facilitates species identification in the Sapotaceae is urgently needed because this family includes threatened species and valuable timber species. In this context, DNA barcoding could provide an important tool for identifying species in the Atlantic Forest. In this work, we evaluated four plant barcode markers (matK, rbcL, trnH-psbA and the nuclear ribosomal internal transcribed spacer region - ITS) in 80 samples from 26 species of Sapotaceae that occur in the Atlantic Forest. ITS yielded the highest average interspecific distance (0.122), followed by trnH-psbA (0.019), matK (0.008) and rbcL (0.002). For species discrimination, ITS provided the best results, followed by matK, trnH-psbA and rbcL. Furthermore, the combined analysis of two, three or four markers did not result in higher rates of discrimination than obtained with ITS alone. These results indicate that the ITS region is the best option for molecular identification of Sapotaceae species from the Atlantic Forest.

Gene Flow and Genetic Structure Reveal Reduced Diversity between Generations of a Tropical Tree, Manilkara multifida Penn., in Atlantic Forest Fragments.

The Atlantic Forest remnants in southern Bahia, Brazil, contain large tree species that have suffered disturbances in recent decades. Anthropogenic activities have led to a decrease in the population of many tree species and a loss of alleles that can maintain the evolutionary fitness of their populations. This study assessed patterns of genetic diversity, spatial genetic structure, and genetic structure among Manilkara multifida Penn. populations, comparing the genetic parameters of adult and juvenile trees. In particular, we collected leaves from adults and juveniles of M. multifida in two protected areas, the Veracel Station (EVC) and the Una Biological Reserve (UBR), located in threatened Atlantic Forest fragments. We observed a substantial decay in genetic variability between generations in both areas i.e., adults' HO values were higher (EVC = 0.720, UBR = 0.736) than juveniles' (EVC = 0.463 and UBR = 0.560). Both juveniles and adults showed genetic structure between the two areas (θ = 0.017 for adults and θ = 0.109 for juveniles). Additionally, forest fragments indicated an unexpectedly short gene flow. Our results, therefore, highlight the pervasive effects of historical deforestation and other human disturbances on the genetic diversity of M. multifida populations within a key conservation region of the Atlantic Forest biodiversity hotspot.