Phenological match drives pollen‐mediated gene flow in a temporally dimorphic tree |
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| Authors: | G Gleiser I J Chybicki S C González‐Martínez M A Aizen |
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| Affiliation: | 1. Laboratorio Ecotono, INIBIOMA, CONICET‐Universidad Nacional del Comahue, Bariloche, Argentina;2. Department of Genetics, Kazimierz Wielki University, Bydgoszcz, Poland;3. BIOGECO, INRA, University of Bordeaux, Cestas, France |
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| Abstract: | - Variation in flowering phenology is common in natural populations, and is expected to be, together with inter‐mate distance, an important driver of effective pollen dispersal. In populations composed of plants with temporally separated sexual phases (i.e. dichogamous or heterodichogamous populations), pollen‐mediated gene flow is assumed to reflect phenological overlap between complementary sexual phases. In this study, we conducted paternity analyses to test this hypothesis in the temporally dimorphic tree Acer opalus.
- We performed spatially explicit analyses based on categorical and fractional paternity assignment, and included tree size, pair‐wise genetic relatedness and morph type as additional predictors. Because differences between morphs in flowering phenology may also influence pollination distances, we modelled separate pollen dispersal kernels for the two morphs.
- Extended phenological overlap between male and female phases (mainly associated with inter‐morph crosses) resulted in higher siring success after accounting for the effects of genetic relatedness, morph type and tree size, while reduced phenological overlap (mainly associated with intra‐morph crosses) resulted in longer pollination distances achieved. Siring success also increased in larger trees.
- Mating patterns could not be predicted by phenology alone. However, as heterogeneity in flowering phenology was the single morph‐specific predictor of siring success, it is expected to be key in maintaining the temporal dimorphism in A. opalus, by promoting not only a prevalent pattern of inter‐morph mating, but also long‐distance pollination resulting from intra‐morph mating events.
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| Keywords: |
Acer opalus
dichogamy microsatellites neighbourhood model phenology separate pollen dispersal kernels |
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