Dynamics of apomictic and sexual reproduction during primary succession on a glacier forefield in the Swiss Alps

Author:

Sailer Christian,Stöcklin Jürg,Grossniklaus Ueli

Abstract

AbstractApomixis, the asexual reproduction through seeds, is thought to provide reproductive assurance when ploidy is not even and/or when population density is low. Therefore, apomicts are expected to be more abundant, and the frequency of apomictic offspring higher, at early stages of primary succession when mates are rare. To test this hypothesis, we sampled facultative apomictic Hieracium pilosella L. along the successional gradient on a glacier forefield and determined their ploidy, the level of apomixis in their offspring, and the genetic diversity of the entire meta-population and within subpopulations. We found that apomixis is more common in odd- and aneuploid cytotypes, which are more frequent at early stages of primary succession. However, apomixis was uncommon at all successional stages and sexual hexaploids were dominating throughout. Reproductive assurance was reflected in the higher fertility of all odd-ploid apomictic plants (3×, 5×) by avoiding meiosis, illustrating that apomixis provides an escape from sterility, as proposed by Darlington. Odd-ploid plants are supposedly better colonizers (Baker’s law), which is supported by their higher occurrence close to the glacier snout. Independent of succession, we found gene flow between apomicts and sexuals, which allows for the continuous creation of new apomictic and sexual genotypes. We conclude that apomixis in H. pilosella does indeed provide an escape from sterility, and therefore reproductive assurance, in aneuploid cytotypes. We further propose that apomixis preserves beneficial combinations of unlinked alleles in every generation for as long as apomictic genotypes persist in the population.

Publisher

Springer Science and Business Media LLC

Subject

Multidisciplinary

Reference52 articles.

1. Asker, S. E. & Jerling, L. Apomixis in Plants (CRC Press, 1992).

2. Grossniklaus, U., Moore, J. M. & Gagliano, W. B. Molecular and genetic approaches to understanding and engineering apomixis: Arabidopsis as a powerful tool. In Advances in Hybrid Rice Technology (eds. Siddiq, S. S., Virmani, E. A. & Muralidharan, K.) 187–211 (International Rice Research Institute, 1998).

3. Tucker, M. R. et al. Sexual and apomictic reproduction in Hieracium subgenus Pilosella are closely interrelated developmental pathways. Plant Cell 15, 1524–1537, https://doi.org/10.1105/tpc.011742 (2003).

4. Koltunow, A. M. et al. Sexual reproduction is the default mode in apomictic Hieracium subgenus Pilosella, in which two dominant loci function to enable apomixis. Plant. J 66, 890–902 (2011).

5. Grossniklaus, U., Nogler, G. A. & van Dijk, P. J. How to avoid sex: the genetic control of gametophytic apomixis. Plant Cell 13, 1491–1497, https://doi.org/10.2307/3871381 (2001).

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