ABSTRACT: Background and Aims: Ferns are providing insight into fundamental biological processes, and spatial transcriptomics is a potent tool in unraveling complexes of plant development. This research is targeted at leaf development in the water fern Ceratopteris richardii with the use of spatial transcriptomics. Methods: A shoot tip of sporophytes under vegetative growth was investigated using spatial transcriptomics, which conducted spot clustering, marker gene identification, and functional enrichment. Ribosomal protein genes were queried using BLAST program and categorized based on multi-alignment produced by Clustalw2 program. RNA in situ tissue hybridization was performed on three ribosomal protein genes. Key Results: Leaves were mutually different at the level of transcriptome under various developmental stages. There were unexpected complexes in tissue structure for stems. A few transcription factors were identified characteristic of leaf development. Activities associated with translation were very different between tissues, and ribosomal protein genes were heterogeneous at the level of transcription. Ribosomal protein genes were specifically expressed in the shoot apical meristem, leaf primordia, and vasculature of various organs. Conclusions: Leaves are mutually different under various developmental stages in C. richardii, with contribution of transcription factors. Stems are unexpectedly complex in tissue structure. Organs/tissues are very different in translation activity from each other, partly due to transcription heterogeneity of ribosomal protein genes. Ribosomal protein genes are specifically expressed in the shoot apical meristem, leaf primordia, and vasculature.