Is selfing a reproductive assurance promoting polyploid establishment? Reduced fitness, leaky self‐incompatibility and lower inbreeding depression in neotetraploids

Premise Newly formed polyploids face significant obstacles to persistence and population establishment because of fitness costs of intercytotype mating. Selfing provides the opportunity to escape mate limitation, enabling production of new individuals and increasing the likelihood of fixation of new...

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Bibliographic Details
Published in:American journal of botany 2020-03, Vol.107 (3), p.526-538
Main Authors: Siopa, Catarina, Dias, Maria C., Castro, Mariana, Loureiro, João, Castro, Sílvia
Format: Article
Language:English
Subjects:
Animal reproduction
Breeding success
Campanulaceae
Controlled conditions
Diploids
Diploidy
Fitness
Genomes
Germination
Humans
Inbreeding
Inbreeding Depression
Incompatibility
Jasione maritima
neotetraploids
Offspring
Parameters
Performance indices
plant fitness
Ploidy
Pollination
polyploidization
Polyploidy
Population establishment
Reproduction
Reproduction (copying)
Reproductive fitness
Seed germination
selfing
self‐incompatibility
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Summary:Premise Newly formed polyploids face significant obstacles to persistence and population establishment because of fitness costs of intercytotype mating. Selfing provides the opportunity to escape mate limitation, enabling production of new individuals and increasing the likelihood of fixation of new polyploid lineages. Still, association between self‐compatibility and polyploidy is not always clear. We compared self‐incompatibility and inbreeding depression in neotetraploids and their diploid progenitor to explore the direct effects of whole genome duplications on self‐incompatibility and the implications of ploidy‐driven changes for polyploid establishment. Methods Outcross and self‐pollinations were performed in diploids and synthetic neotetraploids of Jasione maritima var. maritima, and reproductive success was measured through fruit and seed production and seed germination. Self‐ and outcross offspring were grown under controlled conditions, and plant performance was measured through several fitness parameters. Results Neotetraploids showed an overall lower performance than diploids. Reproductive success was negatively affected by selfing in both cytotypes. However, greater variation in the expression of self‐incompatibility was observed in neotetraploids; additionally, developmental and physiological parameters were not affected by selfing on neotetraploids, with an overall similar fitness of outcrossed and selfed individuals, resulting in lower inbreeding depression indexes. Conclusions Neotetraploids might have benefited from selfing at initial stages after their formation. Genome duplications resulted in leaky self‐incompatibility, enabling the production of offspring under minority cytotype disadvantage with similar fitness as outcrossed offspring. Our results support theoretical assumptions that selfing might be important for neopolyploid establishment, although changes in self‐incompatibility might not be abrupt.
ISSN:0002-9122
1537-2197
DOI:10.1002/ajb2.1441