Chrysanthemum boreal, C. indicum, and C. indicum var. albescens are well-known wild Chrysanthemum species used for traditional medicine in Korea. In this study, volatile compounds from three wild Chrysanthemums were identified according to four different flowering stages and analyzed using HS-SPME-GC-MS to determine the temporal variation of the volatiles. As a result, 132, 151, and 142 peaks were identified from C. boreale, C. indicum, and C. indicum var. albescens, respectively. Furthermore, 70 out of 132 peaks were identified in C. boreale with a matching ratio of >90% from library search. In addition, 85/151 and 76/142 peaks were identified from C. indicum and C. indicum var. albescens. Forty-nine volatile compounds were found commonly in all three wild Chrysanthemums through all four different flowering stages. However, six, seven, and five unique compounds were detected only in C. boreale, C. indicum, and C. indicum var. albescens, respectively. One hundred volatile compounds were selected for multivariate analysis considering volatile compounds overlapped with each other. The one-way ANOVA (p < 0.05) detected significant differences from 77 out of 100 volatile compounds. In addition, PLS-DA showed the different profiles of volatile compounds according to four different flowering stages in each wild Chrysanthemum. PC1 of each Chrysanthemum accounted for 45.8 56.9, and 11.9% in C. boreale, C. indicum, and C. indicum var. albescens, respectively. PC1 of C. boreale and C. indicum clearly separated the BF stage and the other three stages. Conversely, PC1 of C . indicum var. albescens showed a difference in the composition of volatile compounds between the BF/BO and HO/FO stages. In addition, the different profiles of volatile compounds could be visualized using a heatmap from three wild Chrysanthemums according to four different flowering stages. This study will help improve particular volatile compounds in three wild Chrysanthemums both in quality and quantity.
The change in volatile compound composition of three wild chrysanthemum species (Chrysanthemum boreale, C. indicum, and C. indicum var. albescens) was identified and analyzed according to four flowering stages using HS-SPME-GC-MS (headspace solid-phase microextraction coupled to gas chromatography–mass spectrometry). The top five compounds of each flowering stage were selected because those main compounds accounted for 43.25%, 44.14%, and 54.20% of the total relative content of volatile compounds from C. boreale, C. indicum, and C. indicum var. albescens, respectively. Nine compounds (1S-α-pinene, α-thujone, chrysanthenone, umbellulone, thymol, caryophyllene, germacrene D, α-zingiberene, and α-patchoulene) in C. boreale were ranked in the top five compounds through the whole flowering stages. In C. indicum, camphene, eucalyptol, camphor, umbellulone, bornyl acetate, caryophyllene, β-farnesene, germacrene D, and α-zingiberene were ranked in the top five compounds. However, only five compounds (camphor, bornyl acetate, β-farnesene, germacrene D, and α-zingiberene) were ranked in C. indicum var. albescens showing a more stable composition rather than C. boreale and C. indicum. Flowerheads of three wild Chrysanthemums showed a different profile of volatile compounds according to different flowering stages, varying compositions, and relative content in the top five volatile compounds. This study illustrates how main volatile compounds in wild chrysanthemums change dynamically during the flowering regarding compositions and their relative contents, suggesting that it should provide a useful index for harvesting or blending certain target compounds from wild chrysanthemums.
The present study investigated the floral scent pattern and intensity of the floral organs in various species and cultivars of Maxillaria at different flowering stages using an electronic nose with 6 metal oxide sensors. The scents of species and cultivars showed various patterns overall, especially that of M. tenuifolia. The scent patterns of cultivars derived from M. variabillis formed a clustere that differed greatly from the origin M. variabillis. In M. tenuifolia, the scent pattern differed by stage, and was strongest at the initial flowering stage. Each floral organ showed different scent patterns; the sepal emitted the strong scent of all floral organs. This study establishes baseline data for the analysis scent of Maxillaria scents and for breeding aromatic orchids.
본 연구에서는 전자코를 이용하여 나리 계통간의 꽃 의 향기 조성을 비교하고 향기가 가장 많이 발생하는 개화 단계를 파악하고 부위를 확인함으로써 향기성분 의 이용성을 높이고자 하였다. 아시아틱나리 ‘Enchantment’, 나팔나리 ‘Georgia’, 그리고 오리엔탈나리 ‘Con Amore’의 꽃을 식물재료로 사용하여 개화 단계 및 꽃의 기관별 향기의 특성을 비교하였다. 아시아틱나 리는 3개의 피크, 나팔나리는 4개의 피크, 오리엔탈나 리는 6개의 피크로 계통간에 향기성분의 차이가 컸다. 향기 함량은 오리엔탈나리에서 가장 많았고, 아시아틱 나리에서 가장 적었다. 향기의 최대 발생시기의 경우, 아시아틱나리는 개약 단계인데 비해 나팔나리와 오리 엔탈나리는 위조단계였다. 송이 당 꽃향기의 최대발생 기관의 경우 아시아틱나리는 외화피, 나팔나리는 화병, 오리엔탈나리는 내화피였다.