110个种和品种的柑橘属植物叶精油的化学成分

用双柱毛细管气相色谱和色谱－质谱对我国柑橘属植物叶精油化学成分进行了全面系统分析。共分析了１１０个种和品种。其中大翼橙类植物３种，香橙类植物１２个种和品种，酸橙类植物１８个品种，甜橙类植物１５个品种，枸橼、柠檬类植物１６个种和品种，柚类植物１６个种和品种，宽皮柑橘类植物３０个种和品种。共鉴定出精油成分７２个。通过实验找出了像马蜂柑、蟹橙、罗汉橙、蕉柑等一批有工业利用价值的精油植物；同时为柑橘属植物     

柑桔植物的数值分类学研究

本文用系统聚类法和对应分析法对59份柑桔及其近缘植物枳和金柑三个属的分类群进行了数值 分类学研究。 结果表明,在栽培柑桔中,枸橼Citrus medica、柚Citrus grandis、宽皮柑桔Citrusreticulata是三大基本类型。 本文还对些种类的分类地位作了探讨。     

不同柑桔品种上桔全爪螨的生长和种群动态差异

通过田间调查、室内盆栽苗接螨、离体叶片饲养等方法,考察了14个柑桔品种上桔全爪螨种群动态,组建了其实验种群生命表,结果表明：该螨在各柑桔品种上的种群密度有明显差异,平均密度以北碚447、台湾晚白柚和垫江白柚上较高,柑新生系最低。雌成螨寿命在台湾晚白柚上最长,垫江白柚次之,柑新生系最短;产卵量以取食台湾晚白柚时最多,垫江白柚、五步红心柚次之,以柑新生系最少;在垫江白柚上的内禀增长率（r_m）最大,沙田柚、台湾晚白柚次之,金弹最小。根据桔全爪螨实验种群的参数判断,金弹和柑新生系属抗螨品种,台湾晚白柚、垫江白柚和北碚447是感螨品种。从品种归类上来看,柚类品种和甜橙中的北碚447感螨程度较高,金柑属的金弹和宽皮柑桔类的柑新生系感螨程度较低。甜橙类与宽皮柑桔类比较,前者感螨程度较高,后者相对较低,但宽皮柑桔类的早津感螨程度相对较高。     

柚皮挥发油化学成分及对灰葡萄孢菌的抑菌活性

为探讨柚皮挥发油用于果蔬采后抑菌防腐的可能性,本研究以水蒸气蒸馏法提取柚皮挥发油,利用菌丝生长速率法测定了挥发油及其主要化学成分对灰葡萄孢菌的接触和熏蒸抑菌活性。研究结果表明,用水蒸气蒸馏法提取10 h柚皮挥发油的得率为0.32%(w/w),挥发油密度为0.66 g/cm~3。通过气质联用分析发现柚皮挥发油中有8种主要化学成分,其中柠檬烯含量最高,其次是月桂烯和香柏酮。挥发油及柠檬烯和月桂烯的熏蒸抑菌活性显著高于相同剂量的接触抑菌活性,且柠檬烯的活性显著高于相同剂量的挥发油和月桂烯。由于柚皮挥发油对灰葡萄孢菌有显著的抑制作用,有必要进一步研究将其用于防治灰葡萄孢菌所致果蔬采后病害的可行性。     

云南野香橼叶油的化学成分

云南省盈江县产野香橼(Citrus medica L.)叶油,用Finnigan-4510型毛细管气相色谱/质谱/计算机联用方法进行了化学成分分析、共检出了31个成分,鉴定了其中22个成分,占全精油的98.5％,主要成分为柠檬烯(56.63％),橙花醛(8.18％),香叶醛(13.52％),对一聚伞花素(3.92％),乙酸香叶酯(2.34％),甲基庚烯酮和月桂烯(3.26％)等。该油具有特征的柠檬—柑桔香气,适宜于调配果香和化妆香精。     

滇产草果的精油成分

研究了滇产１６个草果（Ａｍｏｍｕｍｔｓａｏ－ｋｏ）样品,测定了干果及茎叶的精油含量。干果的精油含量在１．５６％～１．７４％之间,茎叶的精油含量为０．０８５％～０．１１％。从它们的精油中鉴定了近８０种化学成分,主要是１,８－桉油素、柠檬醛、香叶醇、反－２－十一烯醛、２－癸烯醛、β－蒎烯等     

蒸馏法与溶剂萃取法提取金柚果皮精油成分的比较分析

采用蒸馏法和溶剂萃取法,提取梅州金柚（Citrus grandis Osbeck cv.）果皮精油,利用GC-MS联用技术测定其化学成分和质量分数,并对两种提取方法进行比较分析。蒸馏法和溶剂萃取法提取的柚皮精油经GC-MS分析,分别鉴定出15个和17个成分,分别占峰面积的99.01%和97.55%,两者共有成分有6个,主要成分均为柠檬烯,梅州金柚果皮可作为柠檬烯的重要资源。此外,溶剂萃取法提取的精油中,质量分数相对较高的9,12-四环辛二烯酸（0.62%）、蛇床子素（0.5%）和谷甾醇（0.5%）,在有关金柚精油成分的研究中尚未见报道。其中蛇床子素有抗骨质疏松、抗病毒等药理活性,谷甾醇有降低血清胆固醇的作用。     

应用同工酶进行柑桔分类和进化研究

利用聚丙烯酰胺凝胶电泳法,分析了柑桔属及其5个近缘属108个生物型的过氧化物酶、谷氨酸草酰乙酸转氨酶,四唑氧化酶,6—磷酸葡萄糖异构酶、6一磷酸葡萄糖变位酶。超氧化物歧化酶、苹果酸酶以及酯酶等8种酶系统同工酶。 比较了属间,种间的酶谱差异。 运用数量分类学的原理及方法,对柑桔属、金柑属,枳属的同工酶资料进行了相异性类平均聚类分析。结果表明,6属之间,酶谱差异十分明显,各属都有独特的酶带。根据同工酶及形态分析结果,提出将柑桔属分为大翼橙亚属,宜昌橙亚属和柑桔亚属共包含七大类的观点。 富民枳可作为枳属一新种看待,它是联结枳属与柑桔属的桥梁。小果类桔是宽皮柑桔的原生类型;中国原产宽皮柑桔的代表以马鼻桔或细皮狗屎柑为佳。柑的来缘中有两条途径,即桔与甜橙的杂种以及桔的单元演化。依据同工酶研究结果,认为长寿金柑是金柑属与柑桔属的属间杂种;温州蜜柑来源于黄岩本地广桔的实生变异;香橙系宽皮桔与宜昌橙的杂种;酸橙则可能是柚与宽皮柑桔的杂交后代;枸橼和宽皮柑桔参与了红(木+黎)檬的起源。最后推测了柑桔类植物的系统发育趋势,初步绘出了演化图。     

云南三种特色柑橘属果皮精油成分及活性研究

为探究云南特色柑橘属西双版纳曼赛龙柚、元江绿皮冰糖橙、德宏青柠的果皮精油成分及抗肿瘤活性。该研究采用水蒸气蒸馏法提取西双版纳曼赛龙柚、元江绿皮冰糖橙、德宏青柠果皮的精油,通过GC-MS开展定性定量成分分析,并通过MTT法开展果皮精油抑制肿瘤增殖研究。结果表明:德宏青柠果皮精油提取率最高、元江绿皮冰糖橙果皮精油次之、西双版纳曼赛龙柚果皮精油最低; 从西双版纳曼赛龙柚、元江绿皮冰糖橙、德宏青柠的果皮精油中分别鉴定出24种、11种、13种成分,月桂烯、萜品烯是三种精油的共有成分。西双版纳曼赛龙柚和元江绿皮冰糖橙的果皮精油中都含有β-蒎烯、3,7-二甲基-1,6辛二烯-3-醇、柠檬烯、α-松油醇,以及重要香料成分乙酸二甲基苄基原酯和二氢茉莉酮酸甲酯,其中西双版纳曼赛龙柚精油中柠檬烯含量高达72.097%,德宏青柠精油中含有活性成分柠檬醛。三种精油对胃癌细胞MKN-45、人乳腺癌细胞MCF-7和结直肠癌细胞HCT-116均有一定的抗肿瘤活性,并呈剂量依赖关系。该研究结果可为云南三种特色柑橘属植物的开发和应用提供科学依据。     

姜樟叶油的化学成份研究

姜樟鲜叶经水蒸汽蒸馏得到一种淡黄色的精油,得率为0.5-0.8％。我们应用气相色谱、红外光谱、气相色谱/质谱/计算机联用以及测定衍生物熔点等方法,对该精油进行成份分析、鉴定。共鉴定出α-,β-柠檬醛,香叶醇,柠檬烯,1,8-桉叶油素,芳樟醇,氧化芳樟醇,樟脑,龙脑,石竹烯等47个已知化合物,其中α-,β-柠檬醛含量高达64.11％。它们是香料工业和医药工业上的重要原料。     

A Study on Chemical Components of Essential Oils from Citrus bergamia and Its Close Relatives and Its Taxonomy

Citrus bergamia Risso. is a rare perfumery plant. Taxonomists have different views on the taxonomy of C. bergamia. Chemical components of leaf and peel essential oils from C. bergamia, and its close relatives, C. limon, C. aurantifolia and three varieties of C. aurantium, were analyzed by GC and GC-MS. The analytical result shows that the chemical compositions of the leaf essential oils from C. bergamia are basically the same as those from three varieties of C. aurantium. Their main components are linalool (29.19-39.75% )and linalyl acetate (24.73-30.24% )etc., and contents of other components are also similar. But their peel essential oils are different. The peel essential oils from C. bergamia contain less limonene (29.94%) than those from C. aurantium (92.55-94.31% ) and less beta-pinene (3.00%) and y-terpinene(3.48% )than those from C. limon or C. aurantifolia (respectiyely 9.16% and 10.42% ) . The peel essential oils from C. bergamia contain not only as much linalool (22.20%) and linalyl acetate (32.66%)as those in the leaf essential oils from C. aurantium, but also as much limonene(29.94% )as that in the peel essential oils from C. limon or C. aurantifolia . The contents of limonene are close to those of the essential oils from C. aurantifolia. This result shows that C. bergamia may be a natural hybrid between C.aurantium and C. aurantifolia, as proposed by Sinclair W. B.     

The Chemical Components of Essential Oils from the Leaves of 110 Species and Cultivars of Citrus Plants

Seventy-two chemical components of essential oils from the leaves of 110 species and cultivars of Citrus were analyzed by gas chromatography (GC) and gas chromatography-mass spectrometry (GC-MS). Among the plants analyzed, there are 3 species in papeda, 12 species and cultivars in Osmocitrus, 18 cultivars in C. aurantium L., 15 cultivars in C. sinensis Osbeck, 16 species and cultivars in Citrophorum, 16 species and cuhivars in Cephalocitrus, 30 species and cultivars in Acrumen. As resources of essential oils, some valuable plants were found such as Citrus hystrix D. C., C. junos (Sieb.) Tan. cv. Xiecheng, C. junos (Sieb.) Tan. cv. Luohancheng and C. tankan Hayata. Our study has provided systematic data of the chemical components of the essential oils for the taxonomic work of Citrus plants.     

Studies on Leaf Oils of Citrus Species

Leaf oils from 6 domestic citrus species were analysed by gas chromatography and 32 compounds were identified as constituents of one or more oils. Most components present were common to all 6 citrus leaf oils, but the percent composition of some components, i.e. β-pinene, limonene, β-phellandrene, γ-terpinene, p-cymene, p-α-dimethylstyrene, citronellal, linalool and thymol methyl ether, differed considerably from species to species. For example, γ-terpinene is a main component (36.5%) of Shiikuwasha (Citrus depressa Hayata), but is a trace in leaf oils from Kawabata-mikan (C. aurea Tanaka) and Otaheite-orange (C. limonia Osbeck var. otaitensis Tanaka). Yuzu (C. Junos Sieb. ex Tanaka) is characterized by relatively high contents of β-phellandrene (11.2%) and p-α-dimethylstyrene (6.7%), which are minor constituents in the other 5 citrus leaf oils. Otaheite-orange is characterized by high contents of limonene (39.7%) and citronellal (10.0%).     

Chemical composition and antimicrobial activity of Citrus essences on honeybee bacterial pathogen <Emphasis Type="Italic">Paenibacillus larvae</Emphasis>, the causal agent of American foulbrood

Antimicrobial properties and chemical composition of four citrus fruit essential oils to control Paenibacillus larvae, the causal agent of American foulbrood disease (AFB) were determined. This honeybee larvae disease occurs throughout the world and is found in many beekeeping areas of Argentina. Citrus fruit essential oils tested were those from grapefruit (Citrus paradisi), sweet orange (Citrus sinensis), mandarin (Citrus nobilis) and lemon (Citrus limon). The components of the essential oils were identified by SPME-GC/MS analysis. The antimicrobial activity of the oils against P. larvae were determined by the broth microdilution method. Two way ANOVA tests for minimum inhibitory concentrations (MICs) data and minimal bactericide concentrations (MBCs) data, indicated significant differences between the strains and the oils tested. The antimicrobial assays showed that the oil of C. paradisi inhibited the bacterial strains at the lowest concentrations tested, MICs and MBCs averages of 385.0 mg/l and 770.0 mg/l, respectively. This property could be attributed to the kind and percentage of the volatile components of the oil, like limonene (69.9%) and myrcene (9.6%). The use of essential oils or their specific volatile components individually against pests related to food provision may represent an alternative scope for the control of this serious disease because it does not leave toxic chemical residues in honey nor in its by products.     

Chemical variability of peel and leaf essential oils of 15 species of mandarins

Peel and leaf oils of 58 mandarin cultivars, belonging to 15 different species were obtained from fruits and leaves collected on mandarin-trees submitted to the same pedoclimatic and cultural conditions. Their chemical composition was investigated by capillary GC, GC/MS and 13C NMR and the results were submitted to a cluster analysis and a discriminant analysis. Three major chemotypes, limonene, limonene/gamma-terpinene and linalyl acetate/limonene, were distinguished for peel oils while three other chemotypes, sabinene/linalool, gamma-terpinene/linalool and methyl N-methylanthranilate, were observed for leaf oils.     

Toxicity of citrus essential oils against Ceratitis capitata (Diptera: Tephritidae) larvae

Citrus peel essential oils are considered to constitute the most important resistance factor of citrus fruits against fruit flies. Essential oils were obtained from three sweet orange varieties, one bitter orange and one lemon variety. Yield, chemical composition and toxicity against neonates of the Mediterranean fruit fly were determined. Based on chemical analysis, the toxicity of commercially purchased major and minor components (monoterpenes and sesquiterpenes) of essential oils was determined. In addition, fractions were prepared to evaluate the role of minor components in the toxicity of crude essential oils. Limonene was by far the most abundant ingredient (96.2–97.4%) in all sweet orange varieties and in bitter orange, while the concentration of limonene was much lower in lemon essential oils (74.3%). Orange and bitter orange essential oils were more toxic than lemon essential oils. The toxicity of orange and bitter orange essential oils was similar to that of their major component limonene. In tests of commercially purchased chemicals, the oxygenated components of essential oils were more toxic than hydrocarbons but their low concentration in citrus essential oils could not affect the toxic activity of essential oils. The presence of α-pinene and β-pinene seems to account for the lower toxicity of lemon essential oils in relation to other citrus essential oils. The importance of understanding the toxicity of essential oils in relation to their composition and their role regarding the resistance of citrus fruits to Ceratitis capitata infestation is discussed.     

Chemical Composition and Antimicrobial Activity of the Essential Oils from New Caledonian Citrus macroptera and Citrus hystrix

The essential oils from the leaves of Citrus macroptera and C. hystrix, collected in New Caledonia, have been analyzed by gas chromatography/mass spectrometry (GC/MS) and evaluated for their antimicrobial activity. A total of 35 and 38 constituents were identified, representing 99.1 and 89.0% of the essential oils, respectively. Both essential oils were rich in monoterpenes (96.1 and 87.0%, resp.), with β‐pinene as major component (33.3 and 10.9%, resp.), and poor in limonene (2.4 and 4.7%, resp.). Other main components of C. macroptera oil were α‐pinene (25.3%), p‐cimene (17.6%), (E)‐β‐ocimene (6.7%), and sabinene (4.8%). The essential oil of C. hystrix was characterized by high contents of terpinen‐4‐ol (13.0%), α‐terpineol (7.6%), 1,8‐cineole (6.4%), and citronellol (6.0%). The antimicrobial activity was evaluated against five bacteria and five fungi strains. Both oils were inactive against bacteria. However, the C. macroptera leaf oil exhibited a pronounced activity against Trichophyton mentagrophytes var. interdigitale, with a minimal‐inhibitory concentration (MIC) of 12.5 μg/ml.     

无量山种子植物的区系平衡点

在较为完善的分类学处理后所得的包含207科,1026属,2540种植物的名录基础上,本文初步报道了地处滇中南的无量山的种子植物区系组成的初步结果,并在山体各海拔段进行了属的分布区类型每一类分布的详尽统计,得出了热带和温带两大基本成分在无量山达到平衡（各占50％）海拔点,称之为区系平衡点。该点从历史角度看可以反映无量山种子植物区系成分随自然历史变迁所发生的演变,从现实看表明了该地植物区系的过渡性质,同时,寓意着我国亚热带地区客观存在着一条区系平衡线,并且,该点还是热带成分的一个重要性限制点;另一方面可以作为植物引种和选择引种驯化锻炼基地的一个参考指标。     

Genetic relationships between some Tunisian Citrus species based on their leaf volatile oil constituents

Volatile oil constituents of Tunisian sweet orange (Citrus sinensis Osbeck) cv. Meski (MES), Valencia Late (VAL), Thomson Navel (THN) and Maltaise Blanc (MAB); mandarin (Citrus reticulata Blanco); sour orange (Citrus aurantium L. cv. Amara (AM)) and pummelo (Citrus grandis Osbeck) were obtained by hydrodistillation and analysed by gas chromatography (GC) combined with a flame ionisation detector (FID) and mass spectrometry (MS). A total of 41 components accounting for more than 95% of the total essential oils were identified, and oxygenated monoterpenes (69.5–99.9%) were found as the most prominent fraction in all oil samples. The main constituents were linalool (3.1–73%), isoborneol (0–55.8%) and tepinen-4-ol (1.1–19.2%). A high degree of inter-and intraspecific chemical variability between species and cultivars was found to be genetically determined, and a set of distinctive traits (chemical markers) in the essential oils profile was established. Principal component analysis (PCA) and hierarchical cluster analysis (HCA) of all identified components grouped the oils into two main chemotypes (linalool/isoborneol and isoborneol/linalool).     

Chemical composition and larvicidal activity of edible plant‐derived essential oils against the pyrethroid‐susceptible and ‐resistant strains of Aedes aegypti (Diptera: Culicidae)

The chemical compositions and larvicidal potential against mosquito vectors of selected essential oils obtained from five edible plants were investigated in this study. Using a GC/MS, 24, 17, 20, 21, and 12 compounds were determined from essential oils of Citrus hystrix, Citrus reticulata, Zingiber zerumbet, Kaempferia galanga, and Syzygium aromaticum, respectively. The principal constituents found in peel oil of C. hystrix were β‐pinene (22.54%) and d‐limonene (22.03%), followed by terpinene‐4‐ol (17.37%). Compounds in C. reticulata peel oil consisted mostly of d‐limonene (62.39%) and γ‐terpinene (14.06%). The oils obtained from Z. zerumbet rhizome had α‐humulene (31.93%) and zerumbone (31.67%) as major components. The most abundant compounds in K. galanga rhizome oil were 2‐propeonic acid (35.54%), pentadecane (26.08%), and ethyl‐p‐methoxycinnamate (25.96%). The main component of S. aromaticum bud oil was eugenol (77.37%), with minor amounts of trans‐caryophyllene (13.66%). Assessment of larvicidal efficacy demonstrated that all essential oils were toxic against both pyrethroid‐susceptible and resistant Ae. aegypti laboratory strains at LC₅₀, LC₉₅, and LC₉₉ levels. In conclusion, we have documented the promising larvicidal potential of essential oils from edible herbs, which could be considered as a potentially alternative source for developing novel larvicides to be used in controlling vectors of mosquito‐borne disease.