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Chemometric Analysis Evidencing the Variability in the Composition of Essential Oils in 10 Salvia Species from Different Taxonomic Sections or Phylogenetic Clades.

Ekaterina-Michaela TomouPanagiota FraskouKonstantina DimakopoulouEleftherios DariotisNikos KrigasHelen Skaltsa
Published in: Molecules (Basel, Switzerland) (2024)
Essential oil (EO) of Salvia spp. has been widely used for culinary purposes and in perfumery and cosmetics, as well as having beneficial effects on human health. The present study aimed to investigate the quantitative and qualitative variations in EOs in wild-growing and cultivated pairs of samples from members in four Salvia sections or three clades, namely S. argentea L. (Sect. Aethiopis ; Clade I-C), S. ringens Sm. (Sect. Eusphace ; Clade I-D), S. verticillata L. (Sect. Hemisphace ; Clade I-B), S. amplexicaulis Lam., and S. pratensis L. (Sect. Plethiosphace ; Clade I-C). Furthermore, the natural variability in EO composition due to different genotypes adapted in different geographical and environmental conditions was examined by employing members of three Salvia sections or two phylogenetic clades, namely S. sclarea L. (six samples; Sect. Aethiopis or Clade I-C), S. ringens (three samples; Sect. Eusphace or Clade I-D), and S. amplexicaulis (five samples; Sect. Plethiosphace or Clade I-C). We also investigated the EO composition of four wild-growing species of two Salvia sections, i.e., S. aethiopis L., S. candidissima Vahl, and S. teddii of Sect. Aethiopis , as well as the cultivated material of S. virgata Jacq. (Sect. Plethiosphace ), all belonging to Clade I-C. The EO composition of the Greek endemic S. teddii is presented herein only for the first time. Taken together, the findings of previous studies are summarized and critically discussed with the obtained results. Chemometric analysis (PCA, HCA, and clustered heat map) was used to identify the sample relationships based on their chemical classes, resulting in the classification of two distinct groups. These can be further explored in assistance of classical or modern taxonomic Salvia studies.
Keyphrases
  • human health
  • risk assessment
  • essential oil
  • systematic review
  • climate change
  • high resolution
  • mass spectrometry
  • deep learning
  • genetic diversity
  • high speed
  • atomic force microscopy