Small scale genetic structure in Euterpe edulis Mart. (Arecaceae), a rainforest palm tree

Euterpe edulis is an endangered tropical palm, once abundant throughout the Atlantic Forest from the coastal plain up to 1000 meters above sea level. The main purpose of this study was to evaluate the genetic diversity and structure in natural populations of E. edulis distributed in different altitudes within a continuous forest. The study was conducted in a protected area of Serra do Mar, at the north coast of São Paulo State, where we sampled 300 adults from six locations. Each individual was genotyped with seven microsatellite loci. The total allele number was high (140) and the mean allele number did not vary between samples. The total expected heterozygosity was 0.867, ranging from 0.782 to 0.859 among samples. The inbreeding coefficient was low in all samples, in accordance with the outcrossing breeding system. The spatial genetic structure was absent or weak at populations analyzed individually or grouped. The genetic structure was high (?' = 0.26) considering that the maximum distance of 32 km between samples. Four most likely genetic groups were defined according to the assignment test, and five groups according to AMOVA (Analysis of Molecular Variance). A partial Mantel test correlated the pairwise genetic structure with the geographical distance (r = 0.8; p < 0.05) and also with the pairwise altitudinal differences without the effect of the geographic distances (r = 0.5; p < 0.05). Whether those differences are mainly due to reduced gene flow or to local adaptation remains to be tested in future studies. This pattern of genetic differentiation at short distances is unexpected within a continuous rainforest, highlighting the importance of small scale approaches to understanding the complex dynamics of tropical systems (AU)