Chemical characterizations of the aromatic compositions of two citrus species: Citrus Aurantium and Citrus Reticulata

doi:10.15406/mojt.2018.04.00099

MOJ

eISSN: 2379-6294

Toxicology

Research Article Volume 4 Issue 3

Chemical characterizations of the aromatic compositions of two citrus species: Citrus Aurantium and Citrus Reticulata

Ayoub Ainane ,¹ Fatima Khammour ,¹ Mohamed Reda Bricha ,² El Hassan Abba ,³ Mohammed Talbi ,¹ Mhamed El Kouali ,¹ Tarik Ainane³

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¹Laboratory of Analytical Chemistry and Physical Chemistry of Materials, University of Hassan II, Morocco
²Department of Radiopharmaceuticals Production, Sciences and Technologies (CNESTEN) Rabat, Morocco
³Superior School of Technology-Khenifra (EST-Khenifra), University of Moulay Ismail, Morocco

Correspondence: Tarik Ainane, Superior School of Technology - Khenifra (EST-Khenifra), University of Moulay Ismail, PB 170, Khenifra 54000, Morocco

Received: February 02, 2018 | Published: May 21, 2018

Citation: Ainane A, Khammour F, Bricha MR et al. Chemical characterizations of the aromatic compositions of two citrus species: Citrus Aurantium and Citrus Reticulata. MOJ Toxicol. 2018;4(3):201–203. DOI: 10.15406/mojt.2018.04.00099

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Abstract

Extracts of essential oils have various properties in different applications. This work focuses on the chemical characterization of the aromatic compositions of two citrus species: Citrus Aurantium(CA) and Citrus Reticulata (CR) which belongs to the Rutaceae family. The essential oils were extracted by hydrodistillation of the aerial parts (stems, leaves and flowers) of citrus and analyzed by gas chromatography-mass spectrometry (GC-MS). Linalool (27.68%), α-terpineol (14.05%), γ-Terpinene (7.33%), cis-Linalool oxide (6.02%), Nerol (5.97%), Caryophyllene oxide (4.68%), Carvacrol (3.81%), β-Citronellol (3.50%), Spathulenol (3.20%), β-pinene (3.12%) and β-Oplopenone (2.71%) were obtained as majority compounds, with a percentage of 82.07%. In essential oil of Citrus Aurantium(CA) Limonene (69.15%), γ-Terpinene (12.66%), Nerol (5.65%) and α-pinene (2.84%) were obtained as major compounds, with a percentage of 90.30%. The highest yields were recorded with Citrus Aurantium(CA) (1.44%) and Citrus Reticulata (CR) (1.06%).

Keywords:essential oil, citrus aurantium, citrus reticulata, aromatic compositions

Introduction

Aromatic plants produce essential oils as secondary metabolites, but their exact role in the processes of plant life remains unknown.¹ Some authors believe that the plant uses oil to repel or attract insects, in the latter case, to promote pollination. Others consider the oil as an energetic source, facilitating certain chemical reactions, conserve the humidity of plants in desert climates.² Some essential oils are used for the defense of plants against herbivores, insects and microorganisms.³

Materials and methods

Collection of samples

Samples of the aerial part (stems, leaves and flowers) of Citrus Aurantium (CA) and Citrus Reticulata (CR) were harvested from cooperatives in February (2017) respectively in the Beni Mellal regions (Morocco). Species have been verified by a botanist at Forest Research Center, khénifra, Morocco.

Extraction of essential oils from citrus

The essential oils were obtained by hydrodistillation of the aerial parts (stems, leaves and flowers) in fractions of 250 g for a period of 3 h, using a Clevenger type extractor. Water vapor loaded with essential oils condenses in a coolant and is collected in a separatory funnel and dried with anhydrous sodium sulphate (Na₂SO₄) before analysis. The HEs were stored at 4°C for later use in the various analyzes.

Gas Chromatography (GC) coupled Mass Spectrometry (MS)

The analysis of the essential oils was carried out by gas chromatography coupled with mass spectrometry (GC-MS). Coupling was performed on a Hewlett-Packard model 5970 (quadrupole detection system), equipped with a fused silica capillary column of 2mm×0.23mm DB1 type; temperature programming from 50°C to 200°C, with a gradient of 5°C min-1. The retention indices were determined by gas chromatography on two fused silica capillary columns (25m×0.25mm) of the type OV-101 and Cabowax 20M, with temperature programming identical to that used for the coupling. (Shimatzu GC-14A equipped with a flame ionization detector and a C-R4A model integrator).

Results and discussion

Chemical compositions

The gas chromatographic analysis results coupled with the mass spectrometry of the essential oils of the plants studied are shown in Tables 1. Chromatographic analyzes of essential oils made it possible to identify 52 compounds which represent approximately (99.96%) for Citrus Aurantium (CA), and for Citrus Reticulata (CR) 39 compounds which represent approximately (99.98%) (Table 1). The analysis of the results given in Table 1 showed that the essential oil of Citrus Aurantium (CA) has the following major components: Linalool (27.68%), α-terpineol (14.05%), γ-Terpinene (7.33%) ), cis-Linalool oxide (6.02%), Nerol (5.97%), Caryophyllene oxide (4.68%), Carvacrol (3.81%), β-Citronellol (3.50%), Spathulenol (3.20%), β-pinene (3.12%) ) and β-Oplopenone (2.71%) were obtained as majority compounds, with a percentage of 82.07%, for the essential oil of Citrus Reticulata (CR) it has the following major majority compounds: Limonene (69.15%), γ-Terpinene (12.66%), Nerol (5.65%) and α-Pinene (2.84%) were obtained as majority compounds, with a percentage of 90.30%. The results of Abderrezak MK et al.⁴ indicate that the essential oils of Citrus aurantium of Constantine (Algeria) present the main major constituents: linalool (18.6%), γ-terpinene (6,9%) and α -terpineol (15.1%). For Periyanayagam K et al.⁵ the essential oil characterizations of Citrus aurantium allows to identify a total of 35 volatile components. In which the sesquiterpene hydrocarbon was the main group of compounds. the following major compounds: eucalyptol (1,8 cineole-43.05%), sabinene (16.65%), β-linalool (15.25%), α-terpineol (8.025), α-pinene (1.34%), β-myrcene (1.20%), 4-Terpineol (1.11%), β-Pinene (1.01%), D-Limonene (0.97%), O-Cymene (0.88%) and other minor compounds.

Identification	Citrus Aurantium (CA)	Citrus Reticulata (CR)
α -pinene	1.06	2.84
Nonan	0.40	-
Camphene	2.01	0.05
γ-Terpinene	7.33	12.66
Sabinene	0.22	-
β-pinene	3.12	1.78
Myrcene	0.60	1.5
Limonène	0.40	69.15
cis-limonene oxide	1.51	1.15
cis-Linalool oxide	6.02	-
cis-Herboxide	0.20	-
E-β-Ocymène	0.35	0.33
Linalol	27.68	0.73
α -terpineol	14.05	-
Isopulegol	-	0.01
Terpinen 4-ol	0.79	0.25
1,8-Cineole	3.09	-
Citronellyl acetate	2.52	0.74
Verbenone	0.03	-
Carveol	0.02	0.02
Nerol	5.97	5.65
Benzen acetaldehyde	0.11	-
Thymol	-	0.02
Carvacrol	3.81	-
Pinocarvone	0.17	-
Borneol	0.06	0.01
Ciytonellyle acetate	-	0.10
β-Citronellol	3.50	-
copaene	0.01	-
elemene	0.01	-
Z- β-farnesene	-	0.02
Bisabolene	0.01	-
Globulol	-	0.07
Octanal	0.01	0.01
α‐Bisabolol	0.21	-
Caryopyllene	0.06	0.01
α-Sinensal	0.01	-
Neryl acetate	0.37	0.71
α-Farnesene	-	0.03
β-Santalol	-	0.01
β-Maaliene	-	0.05
α‐Farnese	0.06	-
α‐Bisabolol	0.01	0.05
Borneol	0.04	0.09
Myrtenol	0.05	-
Globulol	0.01	0.19
(Z)-γ-bisabolene	0.21	0.16
cis-Nerodiol	0.49	0.53
Z-Ocimene	0.01	0.03
β-Ocimene	0.05	-
Citropten	1.01	-
trans-Ocimenol	-	0.06
trans-Isopulegone	-	0.05
Spathulenol	3.20	-
Caryophyllene oxide	4.68	-
β-Oplopenone	2.71	-
Nerolidyl acetate	0.05	0.05
Geraniol	1.16	0.09
Fluoranthene	-	-
Thunbergol	-	0.73
Geranylgeraniol	0.40	-
Myrttnol	0.09	0.01
a-Curcumtne	-	0.01
Eremophilene	0.01	-
Acetate de linalyle	0.01	0.03
Total	99.96	99.98

Table 1 Chemical compositions of the essential oil of Citrus Aurantium and Citrus Reticulata.

For Citrus Reticulata the chromatographic analyzes resulted⁶ in the identification of 24 compounds, representing (95.41%) of the essential oil, Limonene (67.04%), γ-Terpinene (15.50%) and α-Pinene (2.75%) were the major components. these results did not agree with previous research on the same plant. The chemical constituents of the essential oils of peels and leaves of 15 mandarin species among 41 varieties of Citrus reticulata have been studied.^7,8 Tangerine skin essential oil has been reported to have two main chemotypes, limonene and limonene/γ-terpinene. Leaf oil showed variations in the components and was distinguished for peel oils with three main chemotypes: sabinene/linalool, linalool/γ-terpinene and methyl N-methylanthranilate.⁸

Conclusion

In the present work, we have characterized the chemical composition of essential oil of two citrus species: Citrus Aurantium and Citrus Reticulata collected at "Beni Mellal" (Morocco). Identification of the chemical constituents was performed based on GC-MS analysis. It can therefore be concluded that the chemical composition or the percentage of the constituents of the essential oils differs according to the part of the plant subjected to the extraction, according to the geographical zones, the period of harvest and the age of the plant.