Chloroplast phylogenomics and the dynamic evolution of Santalum (Santalaceae)

Abstract Background Santalum (Santalaceae, sandalwood) is a hemiparasitic genus including approximately 15 extant species. It is known for its aromatic heartwood oil, which is used in incense and perfume. Demand for sandalwood-based products has led to drastic over-harvesting, and wild Santalum populations are now threatened. Knowledge of the phylogenetic relationships and genetic diversity will be critical for the conservation and proper management of this genus. Here, we sequenced the chloroplast genome of 11 Santalum species. The data were then used to investigate the chloroplast genome evolutionary dynamics and relationships and divergence time within Santalum and related species. Results The Santalum chloroplast genome contains the typical quadripartite structures, ranging from 143,291 to 144,263 bp. The chloroplast genome contains 124 genes. The whole set of ndh genes and the infA gene were found to lose their function. Between 17 and 31 SSRs were found in the Santalum chloroplast genome, and mononucleotide simple sequence repeats (SSRs) were the major type. The P-distance among the Santalum species was 0.0003 to 0.00828. Three mutation hotspot regions, 14 small inversions, and 460 indels events were discovered in the Santalum chloroplast genome. Our phylogenomic assessment provides improved resolution compared to past analyses. Our divergence time analysis shows that the crown age of Santalum was 8.46 Mya, the first divergence occurred around 6.97 Mya, and diversification was complete within approximately 1 Mya. Conclusions By sequencing the 12 chloroplast genomes of Santalum, we gain insight into the evolution of its chloroplast genomes. The chloroplast genome sequences had sufficient polymorphic information to elucidate the evolutionary history of Santalum.