Exploring the molecular regulation of vernalization‐induced flowering synchrony in Arabidopsis

Abstract

Summary Many plant populations exhibit synchronous flowering, which can be advantageous in plant reproduction. However, molecular mechanisms underlying flowering synchrony remain poorly understood. We studied the role of known vernalization‐response and flower‐promoting pathways in facilitating synchronized flowering in Arabidopsis thaliana. Using the vernalization‐responsive Col‐FRI genotype, we experimentally varied germination dates and daylength among individuals to test flowering synchrony in field and controlled environments. We assessed the activity of flowering regulation pathways by measuring gene expression across leaves produced at different time points during development and through a mutant analysis. We observed flowering synchrony across germination cohorts in both environments and discovered a previously unknown process where flower‐promoting and repressing signals are differentially regulated between leaves that developed under different environmental conditions. We hypothesized this mechanism may underlie synchronization. However, our experiments demonstrated that signals originating from sources other than leaves must also play a pivotal role in synchronizing flowering time, especially in germination cohorts with prolonged growth before vernalization. Our results suggest flowering synchrony is promoted by a plant‐wide integration of flowering signals across leaves and among organs. To summarize our findings, we propose a new conceptual model of vernalization‐induced flowering synchrony and provide suggestions for future research in this field.