Background and Aims. Seed longevity, a fundamental plant trait for ex situ conservation and persistence in the soil of
manyspecies, varies across populations and generations that experience different climates. This study investigates the
extent to which differences in seed longevity are due to genetic differences and/or modified by adaptive responses to
environmental changes.
Methods. Seeds of two wild populations of Silene vulgaris from alpine (wA) and lowland (wL) locations and seeds
originating from their cultivation in a lowland common garden for two generations (cA1, cL1, cA2 and cL2) were
exposed to controlled ageing at 45 8C, 60% relative humidity and regularly sampled for germination and relative
mRNA quantification (SvHSP17.4 and SvNRPD12).
KeyResults. The parental plant growth environment affected the longevity of seeds with high plasticity. Seeds ofwL
were significantly longer lived than those of wA. However, when alpine plants were grown in the common garden, longevity doubled for the first generation of seeds produced (cA1). Conversely, longevity was similar in all lowland
seed lots and did not increase in the second generation of seeds produced from alpine plants grown in the common
garden (cA2). Analysis of parental effects onmRNA seed provisioning indicated that the accumulation of gene transcripts
involved in tolerance to heat stress was highest in wL, cL1 and cL2, followed by cA1, cA2 and wA.
Conclusions. Seed longevity has a genetic basis, but may showstrong adaptive responses, which are associated with
differential accumulation of mRNAvia parental effects. Adaptive adjustments of seed longevity due to transgenerational
plasticity may play a fundamental role in the survival and persistence of the species in the face of future environmental challenges. The results suggest that regeneration location may have important implications for the conservation of alpine plants held in seed banks.
