Genetic structure along an altitudinal gradient in L ippia origanoides , a promising aromatic plant species restricted to semiarid areas in northern S outh A merica

Abstract The genetic diversity and population structure of L ippia origanoides , a species of the V erbenaceae family that shows promise as a crop plant, was investigated along an altitudinal gradient in the basin of the C hicamocha River in northeastern C olombia. The economic importance of the species, quality of its essential oils, and the fact that it is restricted to some few semiarid areas in northern S outh A merica may put the species at risk in a scenario of uncontrolled harvest of natural populations. L ippia origanoides was sampled along an altitudinal gradient from 365 to 2595 m.a.s.l. throughout C hicamocha R iver C anyon, a semiarid area in northeastern C olombia. Genetic diversity was assessed by means of AFLP markers. The number of AFLP loci (355) and the number of individuals sampled (173) were sufficient to reliably identify four populations at contrasting altitudes ( F ST  = 0.18, P‐value  < 0.0000), two populations in the lower basin, one population in the medium basin, and one population in the upper basin, with a low level of admixture between them. In average, genetic diversity within populations was relatively high ( Ht  = 0.32; I  = 0.48); nevertheless, diversity was significantly reduced at higher altitude, a pattern that may be consistent with a scenario of range expansion toward higher elevations in an environment with more extreme conditions. The differences in altitude among the basins in the C hicamocha R iver seem to be relevant in determining the genetic structure of this species.