Gap-free X and Y chromosomes of Salix arbutifolia reveal an evolutionary change from male to female heterogamety in willows, without a change in the sex-determining region

In the Vetrix clade of Salix , a genus of woody flowering plants, sex determination involves chromosome 15, but an XY system has changed to a ZW system. We used genome sequencing (with chromosome conformation capture (Hi-C) and PacBio HiFi high-fidelity reads) to study the evolutionary history of the sex-linked regions before and after the transition. We assembled chromosome level gap-free X and Y chromosomes of Salix arbutifolia , and distinguished the haplotypes in the 15X- and 15Y-linked regions. This revealed “micro-heteromorphism” differentiating the haplotypes of the Y- and X-linked regions, including insertions, deletions and duplications. Unusually, the X-linked region is considerably larger than the corresponding Y region, and we show that this primarily reflects extensive accumulation of repetitive sequences and gene duplications. The phylogenies of single-copy orthogroups within the sex-linked regions of S. arbutifolia (X and Y) and S. purpurea (Z and W) indicate that they possess a common ancestral sex-linked region that is physically small and located in a repeat-rich region near the chromosome 15 centromere. During the change in heterogamety, the W-linked region was derived from the X-linked one and the Z from the Y. The W may subsequently have evolved a region in which recombination became suppressed. We also detected accumulation of genes with opposite sex-biases in the sex-linked regions. ### Competing Interest Statement The authors have declared no competing interest.