Scientia Agricultura Sinica ›› 2025, Vol. 58 ›› Issue (23): 5057-5070.doi: 10.3864/j.issn.0578-1752.2025.23.019

• FOOD SCIENCE AND ENGINEERING • Previous Articles     Next Articles

Comparative Analysis of Volatile Oil Chemical Constituents from Zanthoxylum bungeanum Seeds in Yanyuan and Hanyuan Based on GC-MS Technology

ZHANG ZhiChun1,2(), HE XiaoYi2, HE ChengJun2, GU DongLin2, ZHONG Lian2, GOU Yan2, GAO BiXing2, GENG Zhao2,*(), LI XiaoHong1,*(), CHEN SiKai3   

  1. 1 College of Food and Biological Engineering, Chengdu University, Chengdu 610106
    2 Sichuan Institute for Drug Control (Sichuan Testing Center of Medical Devices, Sichuan Institute of Musk Deer Breeding)/ Key Laboratory for Quality Evaluation of Traditional Chinese Medicine, Traditional Chinese Patent Medicine, The National Medical Products Administration/ Public Service Platforms for Industrial Technological Base, Ministry of Industry and Information Technology, Chengdu 611731
    3 School of Environmental Science and Engineering, Southwest Jiaotong University, Chengdu 611756
  • Received:2025-07-18 Accepted:2025-10-29 Online:2025-12-01 Published:2025-12-09
  • Contact: GENG Zhao, LI XiaoHong

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Abstract:

【Background】 As a by-product of Zanthoxylum bungeanum processing, Zanthoxylum bungeanum seeds are rich in oil and have high development potential. However, most of them are used as fertilizers or discarded in the form of waste, resulting in waste of resources. 【Objective】 In order to improve its utilization value and realize the efficient utilization of resources, this study focused on the key characteristics of volatile oil of Zanthoxylum bungeanum seeds from different producing areas, explored the chemical composition of volatile oil of Zanthoxylum bungeanum seeds from two representative producing areas of Yanyuan and Hanyuan, and analyzed the similarities and differences of chemical components of volatile oil and their changing rules.【Method】Zanthoxylum bungeanum seeds samples were collected from Yanyuan County and Hanyuan County, Sichuan Province. The volatile oil in these seeds was extracted by steam distillation, and the components were identified by gas chromatography-mass spectrometry (GC-MS). The volatile oil components were identified by comparing the reference substance, NIST database and literature data, and the relative content of each component was calculated by peak area normalization method. Orthogonal partial least squares discriminant analysis (OPLS-DA) was used to screen differential markers with origin discrimination ability. 【Result】 A total of 124 volatile components were identified from 13 batches of samples, including 28 alcohols, 23 terpenes, 20 aldehydes, 19 ketones, 13 esters, 5 fatty acids, 3 alkenes, 2 alkanes, 10 other types of compounds (including phenols, cyclic ethers, thiazoles, etc.) and 1 unknown compound. With VIP> 1 and P< 0.05 as the standard, the volatile oil components of Zanthoxylum bungeanum seeds from Yanyuan and Hanyuan were screened, and 22 different volatile components were screened out. The relative content of terpenes (such as D-limonene) and esters (such as linalyl acetate) in the volatile oil of Zanthoxylum bungeanum seeds from Yanyuan were generally higher. The relative content of aldehydes (such as nonanal, decanal) and ketones (such as carvone) in the volatile oil of Zanthoxylum bungeanum seeds from Hanyuan were higher. In addition, 1-heptanol was a unique component of Hanyuan. 【Conclusion】 There were some similarities in the chemical composition of volatile oil between Yanyuan and Hanyuan Zanthoxylum bungeanum seeds, but there were some differences in the specific components and their relative content. This difference might be caused by many factors, such as geographical location, growth environment and cultivation methods, which changed the chemical composition of volatile oil. These characteristic differences could provide the key scientific basis for the origin identification, quality evaluation and geographical indication product development of Zanthoxylum bungeanum seeds.

Key words: Zanthoxylum bungeanum seed volatile oil, GC-MS, multivariate statistical analysis methods, identification of constituents, difference analysis

Table 1

Zanthoxylum bungeanum seeds sample information table"

花椒籽编号
Zanthoxylum bungeanum seeds number		 采集来源
Source of collection
盐源1 Yanyuan 1 盐源县树河镇大水田村 Dashuitian Village, Shuhe Town, Yanyuan County
盐源2 Yanyuan 2 盐源县树河镇石门坎村 Shimenkan Village, Shuhe Town, Yanyuan County
盐源3 Yanyuan 3 盐源县树河镇贡椒经销点 Gongjiao sales outlet, Shuhe Town,Yanyuan County
盐源4
Yanyuan 4		 盐源县平川镇青天铺村花椒专业合作社
Qingtianpu Village, Zanthoxylum bungeanum Maxim. Cooperative Pingchuan Town, Yanyuan County
盐源5 Yanyuan 5 盐源县平川镇青天铺村一组 Group 1, Qingtiangpu Village, Pingchuan Town, Yanyuan County
盐源6 Yanyuan 6 盐源县平川镇兴隆村 Xinglong Village, Pingchuan Town, Yanyuan County
汉源1 Hanyuan 1 汉源县宜东镇关华村八组 Group 8, Guanhua Village, Yidong Town, Hanyuan County
汉源2
Hanyuan 2		 汉源县宜东镇川椒汇种植专业合作社
Chuanjiaohui planting specialised cooperative, Yidong Town, Hanyuan County
汉源3
Hanyuan 3		 汉源县宜东镇大志花椒种植合作社湖南食品商会花椒直供部
Hunan Food Chamber of Commerce Sichuan Zanthoxylum bungeanum Maxim. Direct Supply Department, Dazhi Sichuan Zanthoxylum bungeanum Maxim. Cultivation Cooperative, Yidong Town, Hanyuan County
汉源4
Hanyuan 4		 汉源县宜东镇新市村宜椒种植合作社
Yijiao Zanthoxylum bungeanum Maxim. Cultivation Cooperative, Xinshi Village, Yidong Town, Hanyuan County
汉源5
Hanyuan 5		 汉源县清溪镇贡椒经销点同心村贡椒园
Gongjiao Sales Outlet, Tongxin Village, Gongjiao Orchard, Qingxi Town, Hanyuan County
汉源6 Hanyuan 6 汉源县清溪镇永安村 Yong'an Village, Qingxi Town, Hanyuan County
汉源7 Hanyuan 7 汉源县刚花椒种植合作社 Ganghuajiao Zanthoxylum bungeanum Maxim. Planting Cooperative, Hanyuan County

Fig. 1

Yanyuan (YY), Hanyuan (HY) Zanthoxylum bungeanum seeds oil total ion current diagram"

Fig. 2

The proportion diagram of volatile oil compound types in Yanyuan (YY) and Hanyuan (HY) Zanthoxylum bungeanum seeds (The proportion of component types more than 1% are shown in the diagram)"

Fig. 3

The proportion diagram of total relative content of volatile oil compound types in Yanyuan (YY) and Hanyuan (HY) Zanthoxylum bungeanum seeds (The proportion of component types more than 1% are shown in the diagram)"

Fig. 4

Yanyuan (YY), Hanyuan (HY) Zanthoxylum bungeanum seeds volatile oil high proportion component relative content trend chart"

Fig. 5

PCA cluster diagram of Zanthoxylum bungeanum seeds from Yanyuan (YY) and Hanyuan (HY)"

Fig. 6

OPLS-DA clustering map of Yanyuan (YY) and Hanyuan (HY) Zanthoxylum bungeanum seeds"

Fig. 7

Replacement test results of OPLS-DA model of Yanyuan (YY) and Hanyuan (HY) Zanthoxylum bungeanum seeds"

Fig. 8

VIP value prediction diagram of Yanyuan (YY) and Hanyuan (HY) Zanthoxylum bungeanum seeds"

Fig. 9

Yanyuan (YY), Hanyuan (HY) Zanthoxylum bungeanum seeds S-plot clustering map"

Table 2

The different components and trends of volatile oil from Yanyuan and Hanyuan Zanthoxylum bungeanum seeds"

序号NO. 类别 Classification 化合物 Compound VIP值 VIP value PP-value 趋势 Trend
1 酯类 Esters 乙酸芳樟酯 Linalyl acetate 2.70 3.68×10-2*
2 酯类 Esters 乙酸松油酯 Terpinyl acetate 1.75 2.12×10-5***
3 酯类 Esters 己酸戊酯 Hexanoic acid, pentyl ester 1.46 4.00×10-4***
4 未知 Unknown 未知化合物1 Unknown Compound 1 1.11 5.78×10-8***
5 酮类 Ketones 香芹酮 Carvone 2.19 4.19×10-2*
6 萜烯类 Terpenes D-柠檬烯 D-Limonene 3.20 4.40×10-2*
7 萜烯类 Terpenes 反式-柠檬烯环氧化物 trans-Limonene oxide 1.83 5.00×10-4***
8 醛类 Aldehydes 反式-2-癸烯醛 trans-2-Decenal 2.42 5.05×10-7***
9 醛类 Aldehydes 反式-2-十一烯醛 trans-2-Undecenal 2.32 4.73×10-5***
10 醛类 Aldehydes 反式-2-壬醛 trans-2-Nonenal 2.26 5.47×10-6***
11 醛类 Aldehydes 壬醛 Nonanal 2.13 7.00×10-4***
12 醛类 Aldehydes 正辛醛 Octanal 2.09 1.80×10-3**
13 醛类 Aldehydes 庚醛 Heptanal 2.05 1.16×10-2*
14 醛类 Aldehydes 反式-2-辛烯醛 trans-2-Octenal 1.74 4.02×10-5***
15 醛类 Aldehydes (2E,4Z)-2,4-癸二烯醛 (2E,4Z)-2,4-Decanedienal 1.42 8.74×10-6***
16 醛类 Aldehydes 癸醛 Decanal 1.41 1.25×10-6***
17 醇类 Alcohols 芳樟醇 Linalool 4.49 4.00×10-4***
18 醇类 Alcohols 辛醇 Octanol 1.82 2.00×10-4***
19 醇类 Alcohols 正庚醇 1-Heptanol 1.66 8.02×10-5***
20 醇类 Alcohols 石竹素 Caryophyllene oxide 1.47 1.27×10-2*
21 醇类
Alcohols		 1-异丙烯基-4-甲基-1,2-环己二醇
(1S-(1Alpha,2alpha,4beta)-1-isopropenyl-4-methyl-
1,2-cyclohexanediol		 1.40 1.84×10-2*
22 醇类 Alcohols 正己醇 1-Hexanol 1.06 3.00×10-4***
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