Abstract
Background/Objectives: Dendrobium officinale (D. officinale), an endangered ornamental and medicinal orchid, displays significant variability in its bioactive compounds depending on geographical and environmental factors. To decipher these influences, we investigated metabolic divergence across three cultivars (GN, LS, DX) cultivated in greenhouse and outdoor conditions using untargeted metabolomics. Methods: Metabolites extracted from stem and leaf tissues were analyzed via UHPLC-Q Exactive Orbitrap MS, and the raw data were processed using XCMS for peak alignment and quantification. Differentially abundant metabolites (DAMs) were identified by multivariate statistical analyses including PCA and OPLS-DA. Metabolic pathways were annotated using KEGG, HMDB, and LIPID Maps databases, with enrichment analysis and visualization performed via TBtools II and Hiplot. Results: Metabolite profiling and multivariate analysis revealed distinct chemotypes. The DX cultivar exhibited anthocyanin enrichment in its stems, correlating with a red pigmentation, while GN accumulated specific amino acid derivatives. Tissue-specific metabolic specialization was evident, with leaves displaying greater flavonoid diversity and stems prioritizing lipid and amino acid metabolism. Outdoor cultivation enhanced flavonoid biosynthesis, whereas greenhouse conditions favored alkaloid accumulation. Functional analysis identified both conserved pathways, like phenylpropanoid biosynthesis, and varietal-specific adaptations in amino acid and secondary metabolism. Notably, alkaloid levels declined sharply during plant defoliation. Conclusions: Our findings demonstrate that environmental factors and geographical origin synergistically shape the metabolic profiles of D. officinale. This provides a scientific basis for optimizing cultivation strategies-through targeted environmental adjustments and varietal selection-to enhance the yield of desired bioactive compounds.