Mating System and Effective Population Size of the Overexploited Neotropical Tree (Myroxylon peruiferum L.f.) and Their Impact on Seedling Production.

The reproductive system of a tree species has substantial impact on genetic diversity and structure within and among natural populations. Such information, should be considered when planning tree planting for forest restoration. Here, we describe the mating system and genetic diversity of an overexploited Neotropical tree, Myroxylon peruiferum L.f. (Fabaceae) sampled from a forest remnant (10 seed trees and 200 seeds) and assess whether the effective population size of nursery-grown seedlings (148 seedlings) is sufficient to prevent inbreeding depression in reintroduced populations. Genetic analyses were performed based on 8 microsatellite loci. M. peruiferum presented a mixed mating system with evidence of biparental inbreeding (t^m-t/ = 0.118). We found low levels of genetic diversity for M. peruiferum species (allelic richness: 1.40 to 4.82; expected heterozygosity: 0.29 to 0.52). Based on Ne(v) within progeny, we suggest a sample size of 47 seed trees to achieve an effective population size of 100. The effective population sizes for the nursery-grown seedlings were much smaller Ne = 27.54-34.86) than that recommended for short term Ne ≥ 100) population conservation. Therefore, to obtain a reasonable genetic representation of native tree species and prevent problems associated with inbreeding depression, seedling production for restoration purposes may require a much larger sampling effort than is currently used, a problem that is further complicated by species with a mixed mating system. This study emphasizes the need to integrate species reproductive biology into seedling production programs and connect conservation genetics with ecological restoration.

DNA barcode regions for differentiating Cattleya walkeriana and C. loddigesii / Regiões de DNA barcode para diferenciar Cattleya walkeriana e C. loddigesii

Growers appreciate Cattleya walkeriana and C. loddigesii due to striking shape and rarity. Thus, this study aimed to evaluate the feasibility of DNA barcode regions, namely ITS1, ITS2 and rpoC1, to discriminate between C. walkeriana and C. loddigesii species. DNA barcode regions were successfully amplified using primers designed to amplify plants. We also included sequences from public databases in order to test if these regions were able to discriminate C. walkeriana and C. loddigesii from other Cattleya species. These regions, and their combinations, demonstrated that the ITS1+ITS2 had the highest average interspecific distance (11.1%), followed by rpoC1 (1.06%). For species discrimination, ITS1+ITS2 provided the best results. The combined data set of ITS1+ITS2+rpoC1 also discriminated both species, but did not result in higher rates of discrimination. These results indicate that ITS region is the best option for molecular identification of these two species and from some other species of this genus.

As espécies Cattleya walkeriana e C. loddigesii são apreciadas pelos colecionadores devido às suas impressionantes forma e raridade. Este estudo teve como objetivo avaliar a viabilidade das regiões DNA barcode, ou seja, ITS1, ITS2 e rpoC1, para discriminar as espécies C. walkeriana e C. loddigesii. Regiões DNA barcode foram amplificadas com êxito utilizando os iniciadores desenhados para plantas. Nós também incluímos sequências de bases públicas de dados, a fim de testar se estas regiões foram capazes de discriminar C. walkeriana e C. loddigesii de outras espécies de Cattleya. Estas regiões e suas combinações demonstraram que o ITS1 + ITS2 teve a maior distância média interespecífica (11,1%), seguido por rpoC1 (1,06%). Para a discriminação das espécies, ITS1 + ITS2 proporcionaram os melhores resultados. Os dados combinados dos ITS1 + ITS2 + rpoC1 também discriminaram ambas as espécies, mas não resultaram em maiores taxas de discriminação. Estes resultados indicam que a região ITS é a melhor opção para a identificação molecular destas duas espécies e a partir de algumas outras espécies deste gênero.

Microsatellite markers for Cariniana legalis (Lecythidaceae) and their transferability to C. estrellensis.

PREMISE OF THE STUDY: Microsatellite primers were developed in the neotropical tree species Cariniana legalis (Lecythidaceae) to investigate its genetic diversity, mating system, and gene flow. • METHODS AND RESULTS: We identified 96 clones containing 82 repeat motifs from a genomic library enriched for (CT)8 and (GT)8 motifs. Primer pairs were developed for 13 microsatellite loci and validated in 51 C. legalis specimens and 26 C. estrellensis specimens. Eleven loci were polymorphic, revealing a maximum of two to 15 alleles per locus in C. legalis and three to 12 in C. estrellensis. For C. legalis, the observed (H o) and expected (H e) heterozygosities ranged from 0 to 0.99 and from 0.07 to 0.90, respectively. For C. estrellensis, H o and H e ranged from 0 to 0.96 and from 0.14 to 0.91, respectively. • CONCLUSIONS: The primers identified polymorphic loci that are suitable to study genetic diversity and structure, mating system, and gene flow in C. legalis and the related species C. estrellensis.