A chromosome‐scale reference genome assembly of yellow mangrove (Bruguiera parviflora) reveals a whole genome duplication event associated with the Rhizophoraceae lineage

Mangrove forest ecosystems support a diverse flora and fauna of marine and terrestrial species and have important direct and indirect economic, ecological and social values to mankind. Yellow mangrove (Bruguiera parviflora) belongs to the Rhizophoraceae family and is widely distributed in the intertidal zones along sheltered coastal areas in tropical latitudes. Here, we present a high-quality, chromosome-level assembly of the B. parviflora genome. We employed the 10x Genomics linked-read technology to obtain a preliminary assembly, which was subsequently scaffolded using the long-range chromatin contact mapping technique (HiC) to obtain a final assembly containing 213,026,782 bases in 10,045 scaffolds with an N50 length of 10,906,948 bases. Our gene prediction recovered 96.5% of the highly conserved orthologues in the Embryophyta lineage based on the Benchmarking Universal Single-Copy Orthologues (BUSCO) analysis. We analysed the transversion rate at fourfold-degenerate sites from orthologous gene pairs and discovered evidence supporting a recent whole-genome duplication event in B. parviflora and other Rhizophoreae members. Comparative studies based on single-copy orthologous genes indicated that B. parviflora and Bruguiera gymnorrhiza diverged approximately 24.1 million years ago. The population structure analysis revealed that 63 B. parviflora accessions from different geographical regions in Thailand were an admixture of two subpopulations. The examination of alternative splicing events in B. parviflora showed that the most prevalent splicing mechanism was intron retention. This high-quality genome assembly together with the genetic diversity information obtained from the germplasm provide useful genomic resources for future studies on comparative phylogenetics and evolution of adaptive traits in mangrove species.