Abstract

We studied genetic variation and structure in 24 populations of Primula veris , a distylous self-incompatible perennial herb that in Flanders (northern Belgium) occurs in fragmented habitats of the intensively used agricultural landscape. Distyly, which favours cross-fertilization, is characterized in this species by two genetically determined floral morph types (‘pin’ or ‘thrum’). Using 30 allozyme loci, we investigated within-population and within-morph genetic variation and structure in relation to distyly (stochastic morph bias and pin frequency), demography (population size, plant density), and evidence of recent bottlenecks. No significant relationship was found between genetic patterns and stochastic morph bias. However, F IS values were lower when pin frequency increases in the population. This may be explained by the partial self-compatibility of the pin morph, which, in conditions of pollination disruption, as observed for P. veris in fragmented habitats, may favour intra-pin outcrosses and increase mating opportunities in the population. A lower within-population structure can be expected because of a higher density of compatible mates and more random matings. Pin and thrum individuals showed similar levels of genetic variation. Three populations revealed a significant genetic differentiation between pin and thrum morphs ( F ST ⩾ 0.0 4 9 ), as a result of recent bottlenecks, spatial segregation of the morphs and/or disturbance of demographic processes. From our findings, we may hypothesize future changes in population mating processes in fragmented habitats, which might lead to pin excesses. However, due to slowing down life-history traits (long-lived perenniality and clonality), and demographic stochasticity randomly changing morph frequency, this may take time before being expressed. Evaluating the impact of morph frequencies on population dynamics is therefore essential for implementing conservation strategies of heterostylous plant species.

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