Competitive ability depends on mating system and ploidy level across Capsella species.

Ann Bot

Department of Ecology and Genetics, Evolutionary Biology Centre and Science for Life Laboratory, Uppsala University, 75236 Uppsala, Sweden.

Published: May 2022

AI Article Synopsis

  • The study investigates how self-fertilization and genetic traits (like polyploidy) affect the competitive ability and fitness of different Capsella species, with a focus on the differences between selfers and outcrossers.
  • In outdoor experiments, outcrossing species showed better performance and fitness compared to self-fertilizing species, though polyploid selfers did not significantly outperform diploid selfers in terms of survival and reproduction.
  • Controlled experiments reinforced these findings, demonstrating that outcrossers had a competitive edge and were less impacted by competition, while polyploid selfers showed more resilience in competition than diploid selfers.

Article Abstract

Background And Aims: Self-fertilization is often associated with ecological traits corresponding to the ruderal strategy, and selfers are expected to be less competitive than outcrossers, either because of a colonization/competition trade-off or because of the deleterious genetic effects of selfing. Range expansion could reduce further competitive ability while polyploidy could mitigate the effects of selfing. If pollinators are not limited, individual fitness is thus expected to be higher in outcrossers than in selfers and, within selfers, in polyploids than in diploids. Although often proposed in the botanical literature and also suggested by meta-analyses, these predictions have not been directly tested yet.

Methods: In order to compare fitness and the competitive ability of four Capsella species with a different mating system and ploidy level, we combined two complementary experiments. First, we carried out an experiment outdoors in north-west Greece, i.e. within the range of the obligate outcrossing species, C. grandiflora, where several life history traits were measured under two different disturbance treatments, weeded plots vs. unweeded plots. To better control competition and to remove potential effects of local adaptation of the outcrosser, we also performed a similar competition experiment but under growth chamber conditions.

Key Results: In the outdoor experiment, disturbance of the environment did not affect the phenotype in any of the four species. For most traits, the obligate outcrossing species performed better than all selfing species. In contrast, polyploids did not survive or reproduce better than diploids. Under controlled conditions, as in the field experiment, the outcrosser had a higher fitness than selfing species and was less affected by competition. Finally, contrary to the outdoor experiment where the two behaved identically, polyploid selfers were less affected by competition than diploid selfes.

Conclusions: In the Capsella genus, selfing induces lower fitness than outcrossing and can also reduce competitive ability. The effect of polyploidy is, however, unclear. These results highlight the possible roles of ecological context in the evolution of selfing species.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9113120PMC
http://dx.doi.org/10.1093/aob/mcac044DOI Listing

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