Convergence and molecular evolution of floral fragrance after independent transitions to self-fertilization.

Studying the independent evolution of similar traits provides valuable insights into the ecological and genetic factors driving phenotypic evolution. The transition from outcrossing to self-fertilization is common in plant evolution and is often associated with a reduction in floral attractive features such as display size, chemical signals, and pollinator rewards. These changes are believed to result from the reallocation of the resources used for building attractive flowers, as the need to attract pollinators decreases.

A Similar Genetic Architecture Underlies the Convergent Evolution of the Selfing Syndrome in .

Whether, and to what extent, phenotypic evolution follows predictable genetic paths remains an important question in evolutionary biology. Convergent evolution of similar characters provides a unique opportunity to address this question. The transition to selfing and the associated changes in flower morphology are among the most prominent examples of repeated evolution in plants.

Evolvability of flower geometry: Convergence in pollinator-driven morphological evolution of flowers.

Flowers represent a key innovation during plant evolution. Driven by reproductive optimization, evolution of flower morphology has been central in boosting species diversification. In most cases, this has happened through specialized interactions with animal pollinators and subsequent reduction of gene flow between specialized morphs.

Standing genetic variation in a tissue-specific enhancer underlies selfing-syndrome evolution in Capsella.

Mating system shifts recurrently drive specific changes in organ dimensions. The shift in mating system from out-breeding to selfing is one of the most frequent evolutionary transitions in flowering plants and is often associated with an organ-specific reduction in flower size. However, the evolutionary paths along which polygenic traits, such as size, evolve are poorly understood.