Data from: Range-wide population genetics and variation in morph ratio in style-dimorphic Narcissus papyraceus (Amaryllidaceae)
Premise of the study: Theoretical models state that natural selection and mating patterns account for floral morph ratio in style- polymorphic plants. However, the demographic history of populations can also influence variation in morph ratios. If so, we hypothesize an association between the morph...
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Zusammenfassung: | Premise of the study: Theoretical models state that natural selection and
mating patterns account for floral morph ratio in style- polymorphic
plants. However, the demographic history of populations can also influence
variation in morph ratios. If so, we hypothesize an association between
the morph ratios and the genetic structure across populations. Methods: We
used nuclear microsatellites to assess genetic variation and structure in
populations of Narcissus papyraceus, a style-dimorphic plant whose floral
morph ratios (L-morph to S-morph) gradually vary throughout its
distribution range in the southwestern SW Mediterranean Basin. We
implemented analyses to relate the genetic features of populations with
their morph ratios. Key results: We found greater frequencies of the
S-morph in central populations and declining frequencies toward the
periphery. This geographic pattern was not associated with the genetic
structure of populations. Instead, we found two distinct genetic groups,
mainly separated by the Strait of Gibraltar, with a mixture of morph
ratios within each one. Overall, there was a weak genetic structure.
Genetic diversity was greater in central and southern dimorphic
populations than in northern L-monomorphic populations. Conclusions:
Altogether, our results do not support the hypothesis that the demographic
history of populations can account for the observed geographical pattern
of morph ratios in N. papyraceus. We suggest that adaptive processes shown
in previous studies in the species are the main determinant of the
existing variation in the morph composition of populations. |
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DOI: | 10.5061/dryad.jh21r |