Exploring the possible role of hybridization in the evolution of photosynthetic pathways in Flaveria (Asteraceae), the prime model of C₄ photosynthesis evolution

Abstract

Flaveria (Asteraceae) is the prime model for the study of C₄ photosynthesis evolution and seems to support a stepwise acquisition of the pathway through C₃-C₄ intermediate phenotypes, still existing in Flaveria today. Molecular phylogenies of Flaveria based on concatenated data matrices are currently used to reconstruct the complex sequence of trait shifts during C₄ evolution. To assess the possible role of hybridization in C₄ evolution in Flaveria, we re-analyzed transcriptome data of 17 Flaveria species to infer the extent of gene tree discordance and possible reticulation events. We found massive gene tree discordance as well as reticulation along the backbone and within clades containing C₃-C₄ intermediate and C₄-like species. An early hybridization event between two C₃ species might have triggered C₄ evolution in the genus. The clade containing all C₄ species plus the C₄-like species F. vaginata and F. palmeri is robust but of hybrid origin involving F. angustifolia and F. sonorensis (both C₃-C₄ intermediate) as parental lineages. Hybridization seems to be a driver of C₄ evolution in Flaveria and likely promoted the fast acquisition of C₄ traits. This new insight can be used in further exploring C₄ evolution and can inform C₄ bioengineering efforts.