Publication details

A local dormancy cline is related to the seed maturation environment, population genetic composition and climate

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Authors

FERNANDEZ-PASCUAL Eduardo JIMÉNEZ-ALFARO Francisco De Borja CAUJAPE-CASTELLS Juli JAEN-MOLINA Ruth DIAZ GONZÁLEZ Tomás Emilio

Year of publication 2013
Type Article in Periodical
Magazine / Source Annals of Botany
MU Faculty or unit

Faculty of Science

Citation
Web http://aob.oxfordjournals.org/content/112/5/937
Doi http://dx.doi.org/10.1093/aob/mct154
Field Botany
Keywords Centaurium somedanum; clinal variation; common garden; ecophysiology; endemic; Gentianaceae; germination; ISSR; plant-climate interactions; PCoA; seed dormancy; seed ecology
Description Seed dormancy varies within species in response to climate, both in the long term (through ecotypes or clines) and in the short term (through the influence of the seed maturation environment). Disentangling both processes is crucial to understand plant adaptation to environmental changes. In this study, the local patterns of seed dormancy were investigated in a narrow endemic species, Centaurium somedanum, in order to determine the influence of the seed maturation environment, population genetic composition and climate. Laboratory germination experiments were performed to measure dormancy in (1) seeds collected from different wild populations along a local altitudinal gradient and (2) seeds of a subsequent generation produced in a common garden. The genetic composition of the original populations was characterized using intersimple sequence repeat (ISSR) PCR and principal co-ordinate analysis (PCoA), and its correlation with the dormancy patterns of both generations was analysed. The effect of the local climate on dormancy was also modelled. An altitudinal dormancy cline was found in the wild populations, which was maintained by the plants grown in the common garden. However, seeds from the common garden responded better to stratification, and their release from dormancy was more intense. The patterns of dormancy variation were correlated with genetic composition, whereas lower temperature and summer precipitation at the population sites predicted higher dormancy in the seeds of both generations. The dormancy cline in C. somedanum is related to a local climatic gradient and also corresponds to genetic differentiation among populations. This cline is further affected by the weather conditions during seed maturation, which influence the receptiveness to dormancy-breaking factors. These results show that dormancy is influenced by both long-and short-term climatic variation. Such processes at such a reduced spatial scale highlight the potential of plants to adapt to fast environmental changes.
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