Oct, 2025
Secondary growth is a key characteristic evolved from seed plants and generates secondary xylem-the most abundant tissue on Earth. Recent studies have uncovered xylem developmental lineages in eudicots and magnoliids of angiosperms. However, xylem development in gymnosperms, the other representative clade of seed plants, remained elusive. We performed single-cell transcriptomics for xylem cells of conifers (Cunninghamia lanceolata), the major clade in gymnosperms. Using Seurat and scVI-based cross-species integration, we reconstructed the xylem differentiation trajectories and revealed that the radial system is conserved across seed plants, while the axial system in C. lanceolata exhibits a composite lineage architecture resembling both eudicots and magnoliids. To validate these trajectories, we established a multi-modal spatial framework incorporating spatial transcriptomics, spatial proteomics, and spatial metabolomics. These three spatial layers provided orthogonal evidence confirming cell-type identities and trajectory inference. Additionally, we identified a xylem cell population unique to gymnosperms, suggesting a lineage-specific specialization. Together, our findings uncover a more complex ancestral xylem architecture in gymnosperms and propose a progressive simplification of axial developmental programs from gymnosperms to angiosperms, highlighting a trajectory of reductive evolution in seed plant vascular development.