![Sample our Environment & Agriculture journals, sign in here to start your access, latest two full volumes FREE to you for 14 days]({"type":"image" , "src" : "/sda/5934/TOC-Subject-Sample-2021-Environment-Agriculture.jpg"})
Abstract
Apomixis, the asexual reproduction via seed, has long been regarded a blind alley of evolution. This hypothesis was based on the assumption that apomixis is an irreversible, phylogenetically derived trait that would rapidly lead to extinction of the respective lineages. However, recent updates of the taxonomic distribution of apomixis in angiosperms suggest an alternative evolutionary scenario. Apomixis is taxonomically scattered and occurs in both early and late branching lineages, with several reversals from apomixis to obligate sex along phylogeny. Genetic control of apomixis is based on altered expression patterns of the same genes that control sexual development; epigenetic changes following polyploidization and/or hybridization may trigger shifts from sexuality to apomixis. Mendelian inheritance confirms the facultative nature and possible reversibility of apomixis to sexual reproduction. Apomixis, therefore, could represent a transition period in the evolution of polyploid complexes, with polyspory in paleopolyploids being a remnant of lost apomixis. In neopolyploids, apomixis helps to overcome sterility and allows for geographical range expansions of agamic polyploid complexes. The facultative nature of apomixis allows for reversal to sexuality and further speciation of paleopolyploid lineages. Thus, apomixis may facilitate diversification of polyploid complexes and evolution in angiosperms.
Acknowledgments
We thank Lorenzo Peruzzi for inviting us to write a review for the symposium dedicated to the memory of Prof. Battaglia. We would also like to thank John Carman (Logan, UT, USA) and Timothy Sharbel (Gatersleben, Germany) for valuable discussions and Mark Chase (Kew, UK) for the electronic version of the APG III tree topology. We are grateful to three anonymous referees for providing insightful comments on this work. The Austrian Austrian Science Fund, project I310-B16, granted to EH, provided financial support for our work.