Abstract
Epigenetic variation may play an important role in how plants cope with novel environments. While significant epigenetic differences among plants from contrasting habitats have often been observed in the field, the stability of these differences remains little understood. Here, we combined field monitoring with a multi-generation common garden approach to study the dynamics of DNA methylation variation in invasive Chinese populations of the clonal alligator weed (Alternanthera philoxeroides). Using AFLP and MSAP markers, we found little variation in DNA sequence but substantial epigenetic population differentiation. In the field, these differences remained stable across multiple years, whereas in a common environment they were maintained at first but then progressively eroded. However, some epigenetic differentiation remained even after 10 asexual generations. Our data indicate that epigenetic variation in alligator weed most likely results from a combination of environmental induction and spontaneous epimutation, and that much of it is neither rapidly reversible (phenotypic plasticity) nor long-term stable, but instead displays an intermediate level of stability. Such transient epigenetic stability could be a beneficial mechanism in novel and heterogeneous environments, particularly in a genetically impoverished invader.
Highlights
Epigenetic modifications can modulate gene expression without altering the underlying DNA sequence (Jones, 2012)
We show that invasive alligator weed populations harbor substantial epigenetic but very little genetic variation, so most epigenetic variation is independent
We show that much of the epigenetic variation is maintained in a common environment and only gradually decreases over multiple generations
Summary
Epigenetic modifications can modulate gene expression without altering the underlying DNA sequence (Jones, 2012). We know that epigenetic modifications can occur spontaneously or plastically in response to environment stimuli (Richards et al, 2017), that many epigenetic modifications are reset during mitosis or meiosis, but that others are stably maintained throughout the life time of organism, or even transmitted across generations (Richards, 2008; Richards et al, 2010) Such stable epigenetic modifications may provide additional raw material for natural selection to act upon (Bossdorf et al, 2008). For understanding the ecological significance of epigenetics, it is important to test whether findings in Arabidopsis hold for wild species, and to what extent natural epigenetic variation is stable enough to play a role in the evolution of plant populations under field conditions (Kalisz and Purugganan, 2004; Richards, 2008; Richards et al, 2017)
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