Permeability of postzygotic barriers: embryology of a partially fertile Epidendrum (Orchidaceae) hybrid

Hybrid zones offer unique insight into reproductive barriers and plant speciation mechanisms. This study investigated postzygotic reproductive isolation in the natural hybrid Epidendrum × purpureum, which occurs in sympatry with its parent species, Epidendrum denticulatum and E. orchidiflorum. We ex...

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Bibliographic Details
Published in:Plant biology (Stuttgart, Germany) Germany), 2025-01, Vol.27 (1), p.40-51
Main Authors: Alves, M. F., Pinheiro, F., Silva Graciano, D., De Toni, K. L. G., Baumgratz, J. F. A.
Format: Article
Language:English
Subjects:
Abnormalities
Confocal microscopy
Degeneration
Developmental stages
Embryology
Embryos
Epidendrum
Females
Flowers - genetics
Flowers - physiology
Gametophytes
Gene flow
Hybrid zones
Hybridization
Hybridization, Genetic
Hybrids
Males
megagametogenesis
megasporogenesis
microgametogenesis
microsporogenesis
Orchidaceae - genetics
Orchidaceae - physiology
Ovule - physiology
Plant reproduction
Pollen - genetics
Pollen - physiology
Pollination
Reproductive Isolation
Seeds - genetics
Seeds - physiology
Speciation
Species
Sympatry
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Summary:Hybrid zones offer unique insight into reproductive barriers and plant speciation mechanisms. This study investigated postzygotic reproductive isolation in the natural hybrid Epidendrum × purpureum, which occurs in sympatry with its parent species, Epidendrum denticulatum and E. orchidiflorum. We examined the development of male and female gametophytes and the events leading to seed formation in this hybrid zone. Floral buds and flowers from E. × purpureum individuals were collected at various stages of development. Both self‐pollination and backcrosses between hybrids and parental species were performed to follow ovule and seed development up to 60 days after pollination. The material was analysed using optical and confocal microscopy. In most hybrids, microsporogenesis and microgametogenesis occur regularly, forming viable male gametophytes. Non‐viable male gametophytes were also observed and are the result of symmetrical mitotic division. The development of the female gametophyte occurs after self‐pollination, and proceeds regularly, resulting in a reduced female gametophyte. Embryo development in the parental species occurs without abnormalities, while in backcrosses between hybrids and parental species, most embryos degenerate. Embryo degeneration in the crosses between hybrids can be explained by genetic incompatibilities. The co‐occurrence of viable embryos and degenerating embryos in backcrosses between hybrids and parental species point to incomplete postzygotic reproductive barriers between the hybrid and the progenitors. Our findings suggest that E. × purpureum could facilitate gene flow between parental species, as much of its embryological development occurs without abnormalities. Viable seeds are formed in backcrosses between parental orhid species and hybrids, which may act as bridges to interspecific gene exchanges.
ISSN:1435-8603
1438-8677
1438-8677
DOI:10.1111/plb.13748