# Effects of flowering period and cultivation practices on volatile organic compounds in Sanqi flowers

**Authors:** Fan Yang, Yue Li, Tongning Yi, Jingying Hei, Biao Wang, Xiahong He, Shu Wang

PMC · DOI: 10.3389/fpls.2026.1761183 · Frontiers in Plant Science · 2026-02-06

## TL;DR

This study examines how different agroforestry systems and environmental factors affect the volatile compounds in Sanqi flowers, which are important for their use in food and medicine.

## Contribution

The study identifies key volatile compounds and their variation in Sanqi flowers under different agroforestry systems and environmental conditions.

## Key findings

- Terpenes were the predominant volatile compounds in Sanqi flowers from both agroforestry systems.
- Cultivation system was the primary factor influencing the volatile organic compounds in Sanqi flowers.
- Humidity and temperature were the main environmental factors affecting VOC composition.

## Abstract

Sanqi flower holds broad application prospects in the food industry due to its rich bioactive components and potential health benefits. However, limited information is available regarding the variation of volatile organic compounds (VOCs) in the Sanqi flowers within Sanqi–Pinus armandii (SPA) and Sanqi–Pinus yunnanensis (SPY) agroforestry systems. Here, the VOCs in Sanqi flowers were compared and analyzed using headspace–solid phase microextraction (HS-SPME) and gas chromatography–mass spectrometry (GC-MS). A total of 60 and 55 VOCs were identified in the Sanqi flowers obtained from the SPY and SPA agroforestry systems, respectively. Terpenes were found to be the predominant components. Moreover, Germacrene D (ranging from 21.35–26.24% to 15.46–24.41%), β-Ocimene (ranging from 21.28–6.60% to 1.21–22.48%) and β-Elemene (ranging from 11.72–13.52% to 9.15–18.77%) were the most abundant in the SPY and SPA systems. Hierarchical clustering analysis (HCA) showed that the VOCs in the Sanqi flowers within the SPY system were clustered into one group. Principal component analysis (PCA) indicated that the VOCs in Sanqi flowers were primarily influenced by the cultivation system. Furthermore, trans-Nerolidol, (E)-4,8-Dimethylnona-1,3,7-triene and γ-Muurolene from the PYS system and Cubenene, Espatulenol, and Bicyclogermacrene from the PAS system can serve as the distinctive VOCs in Sanqi flowers. Redundancy analysis (RDA) revealed that the main factors affecting the VOCs in Sanqi flowers were humidity, followed by temperature. This study provides a theoretical basis for understanding the impact of different agroforestry systems on the VOCs of Sanqi flowers and offers insights into optimizing cultivation practices to enhance the medicinal edible qualities of Sanqi.

## Linked entities

- **Chemicals:** Germacrene D (PubChem CID 5317570), β-Elemene (PubChem CID 6918391), trans-Nerolidol (PubChem CID 8888), (E)-4,8-Dimethylnona-1,3,7-triene (PubChem CID 6427110), γ-Muurolene (PubChem CID 6432308), Cubenene (PubChem CID 50986185), Espatulenol (PubChem CID 92231), Bicyclogermacrene (PubChem CID 5315347)
- **Species:** Pinus armandii (taxon 88733), Pinus yunnanensis (taxon 88732)

## Full-text entities

- **Diseases:** inflammation (MESH:D007249), cancer (MESH:D009369), metabolic diseases (MESH:D008659), VOC (MESH:D005597), cough (MESH:D003371)
- **Chemicals:** PAS (MESH:D011478), Espatulenol (MESH:C013258), polysaccharide (MESH:D011134), aromatic hydrocarbons (MESH:D006841), styrene (MESH:D020058), Terpenes (MESH:D013729), essential oils (MESH:D009822), 3-carene (MESH:C030218), Germacrene D (MESH:C027259), VOC (MESH:D055549), beta-Ocimene (MESH:C443996), helium (MESH:D006371), aluminum (MESH:D000535), (E)-4,8-dimethylnona-1,3,7-triene (-), Isocaryophyllene (MESH:C024714), amino acids (MESH:D000596), monoterpenes (MESH:D039821), sesquiterpene (MESH:D012717), beta-copaene (MESH:C000629769), lipid (MESH:D008055), beta-Elemene (MESH:C445979), heavy metal (MESH:D019216), saponin (MESH:D012503), alkynes (MESH:D000480), flavonoid (MESH:D005419)
- **Species:** Symbiodinium sp. Pa (species) [taxon 230991], Pinus yunnanensis (Yunnan pine, species) [taxon 88732], Pinus armandii var. armandii (varietas) [taxon 261917], Pinus armandii (Armand pine, species) [taxon 88733], Magnolia crassipes (species) [taxon 1172173], Dendrobium chrysotoxum (species) [taxon 161865], Panax notoginseng (notoginseng, species) [taxon 44586]

## Full text

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## Figures

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## References

59 references — full list in the complete paper: https://tomesphere.com/paper/PMC12920576/full.md

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Source: https://tomesphere.com/paper/PMC12920576