Abstract
AbstractEpigenetic information can be heritable, but also respond to key environmental variables in situ, endowing individuals with an additional capacity to adapt to environmental changes. Thus, it is likely that in sesile organisms such as plants, part of the spatial epigenetic variation found across individuals will reflect the environmental heterogeneity of populations. Analysing the departure of the spatial epigenetic structure from the baseline genetic variation can help in understanding the value of epigenetic regulation in species with different breath of optimal environmental conditions. We performed a multispecies study that considered seven pairs of congeneric plant species, each encompassing a narrow endemic with habitat specialization and a widespread species. In three populations per species we used AFLP and methylation-sensitive AFLP markers to characterise the spatial genetic and epigenetic structures. In contrast to widespread species, narrow endemics showed a significant and generalised lower epigenetic than genetic differentiation across species. Within most populations of narrow species, epigenetic variation was less spatially structured than the genetic variation. This pattern resulted from a lack of correlation between epigenetic and genetic information in populations of narrow endemics. We argue that the differences found between narrow endemics and widespread congeners reflect contrasting breaths of environmental requirements. We pose the hypothesis that in species with a narrow niche breath, epigenetic variation may be more similar across populations and among individuals within a population given the expected higher similarity in environmental requirements.
Publisher
Cold Spring Harbor Laboratory