Dissetangling the Vine: Phylogenomics and Historical Biogeography of Vanilla (Orchidaceae)

Renowned for its aromatic fruits and economic importance, the genus Vanilla poses longstanding taxonomic and phylogenetic challenges. Despite recent molecular studies, a comprehensive species tree is lacking, and the evolutionary processes and historical patterns shaping the genus remain poorly understood. We present a new, comprehensive phylogenomic framework for Vanilla, based on 349 low-copy nuclear genes and 76 plastid loci from the Angiosperms353 probe set, which we used to infer evolutionary relationships, assess cyto-nuclear and gene-species tree discordance, and thoroughly investigate its historical distribution and diversification. Sampling 43% of the genus, our framework resolves phylogenetic uncertainties, clarifies major clades, confirms prior hypotheses, and reveals novel placements, including V. planifolia and Vanilla subg. Gondwana. Discordances are primarily driven by incomplete lineage sorting, particularly in the vanillin-producing clade, with evidence of both ancient and recent hybridization, including a natural hybrid from the Yucatan Peninsula. Biogeographic analyses indicate a Guiana Shield origin ([~]30 Mya), Amazonia as a major diversification source, the Andes as a permeable barrier, and Central America as the main diversification sink. This study provides a robust evolutionary framework for Vanilla, supporting taxonomic revisions, comparative trait analyses, and a deeper understanding of the processes shaping this economically and biologically important orchid genus.