Difference in flowering time as an isolating barrier

Although many theoretical studies have reported strong effects of different flowering times on reproductive isolation, such studies have all focused on the different flowering time within a season, and the subsequently developed models are difficult to apply to the cases of diurnal- and nocturnal-fl...

Full description

Saved in:
Bibliographic Details
Published in:Journal of theoretical biology 2013-01, Vol.317 (21), p.161-167
Main Authors: Matsumoto, Tomotaka, Yasumoto, Akiko A, Nitta, Kozue, Yahara, Tetsukazu, Tachida, Hidenori
Format: Article
Language:English
Subjects:
alleles
Animals
Carry-over of pollen
flowering
flowers
Flowers - genetics
Flowers - physiology
Gene flow
Genotype
germ cells
Germ Cells, Plant - physiology
hybrids
loci
Models, Biological
Movement
Nocturnally flowering species
Phenotype
pollen
Pollination
Pollination - physiology
Reproductive Isolation
Time Factors
viability
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Although many theoretical studies have reported strong effects of different flowering times on reproductive isolation, such studies have all focused on the different flowering time within a season, and the subsequently developed models are difficult to apply to the cases of diurnal- and nocturnal-flowering species pairs. The different flowering times within a day differ from those within a season because of the simultaneous opening and closing of the flowers for each species and the carry-over of the pollen from early to later times. In this study, we consider pollinator-mediated, diurnal- and nocturnal-flowering plants and build a new model to study the effects of the different flowering times within a day on reproductive isolation. We assume two loci, each with two alleles, which determine the opening and closing times of flowers, respectively. We numerically calculate the changes in the frequencies of the gametes in a model incorporating the reductions in hybrid viability, flowering costs, recombination rate and degree of dominance at each locus. We found that the early-opening flowers had a much higher fitness than the late-opening flowers and that the maintenance of the two species was difficult even if their flowering times were not overlapping. Therefore, some other mechanisms, such as pollinator preference, may be required to explain the coexistence of closely related diurnal and nocturnal flowers. ► We modeled the gene flow between daytime and nighttime flowering plants. ► We included pollinator’s carry-over of pollen, which would increase gene flow. ► We examined whether such a different flowering time act as the isolating barrier. ► As the result, daytime flowering plants fixed in large parameter ranges. ► Our results suggested high fitness of early opening under carry-over of pollen.
ISSN:0022-5193
1095-8541
DOI:10.1016/j.jtbi.2012.10.001