Genetic structure and internal gene flow in populations of Schinus molle (Anacardiaceae) in the Brazilian Pampa

Abstract

One of the most important aspects for population ecology and evolution is to understand the connectivity between individuals and their groups. In this study, amplified fragment length polymorphism (AFLP) markers were employed aiming to examine genetic diversity, spatial genetic structure, and internal gene flow of nine populations of Schinus molle across the Brazilian Pampa. The dispersal capacity of S. molle in the Brazilian Pampa, the implications of the forest fragmentation to species genetic structure, and the impact of the actual genetic structure of the species to its conservation and management were investigated. AFLP markers revealed low genetic diversity and clear genetic structure among populations. Significant fine-scale spatial genetic structure at short distances was observed in all populations. Estimates of gene dispersal distance suggest that the dispersion capacity of this species is larger than the area covered by the studied populations. However, fragmentation hampers the gene flow among populations. The management of S. molle natural occurrence in this biome seems to be simple considering the species plasticity. The conservation of the species genetic resource depends on maintaining the extant forest patches and promoting their connectivity.