Nativa, Sinop, v. 11, n. 2, p. 143-147, 2023.

Pesquisas Agrárias e Ambientais

DOI: https://doi.org/10.31413/nativa.v11i2.15321

ISSN: 2318-7670

Phenolic composition and antimicrobial activity of essential oils

from the fruit pulp of the argan tree

Larbi EL HAMMARI1, Miloudi HILALI 2* , Ahmed LEBKIRI3

1 Laboratory of Applied Chemistry of Materials, Faculty of Science, University Mohammed-V,

Av. Ibn Battouta, BP 1014 Agdal-Rabat, Morocco.

2 Laboratory of Plant Chemistry and Organic and Bioorganic Synthesis, University Mohammed-V, Agdal-Rabat, Morocco.

3 Laboratory of Organic Synthesis and Extraction Processes, Department of Chemistry, Faculty of Sciences,

University Ibn Tofail, PO Box 133 – 14000 - 16 Kenitra, Morocco.

*E-mail: researchint@yahoo.com; hilali400@yahoo.com

Submission: 04/13/2023; Accepted on 05/08/2023; Published on 06/12/2023.

ABSTRACT: The study of the chemical composition of essential oils, the pulp of argan leachate, the phenolic

compounds and the identification of the biological activity of secondary metabolites making it possible to

increase the industrial and commercial value of the argan tree in the field of cosmetics, therapeutics and

nutraceuticals and to allow the protection of the argan tree and the extension of the arganieraie. After the

extraction and purification of the polyphenolic compounds and the essential oils of the argan fruit pulp, we

used high performance liquid chromatography coupled with mass spectrometry and UV spectroscopy

(LC/UV/MS). This technique allowed us to identify 16 phenolic compounds by comparing their LC/MS mass

spectrum and their retention time with literature data. The main phenolic compounds found in the fruit of the

argan tree are phenolic acids, flavonoids-O-rhamnoglucosides, flavonoids-O-glycosides, flavan-3-ols and

flavones. Our results also show that the pulp contains a latex which is a polyisoprene whose structure has been

elucidated. Furthermore, the GC/MS analysis of the chemical composition of the essential oils of the fruit pulp

of the argan tree has identified several terpenes, the majority of which are camphor, 1,8-cineode and borneol.

The presence of camphor in appreciable quantity in the fruit pulp of the argan tree is very interesting because

it has an insecticidal activity, these activities could be valorized on the industrial level. The essential oil of the

fruit pulp of the argan tree contains phenolic compounds with antioxidant effect and terpenes with insecticidal

effect can lead to its use in phytotherapy.

Key words: essential oils; bio-active components; polyphenols; pulp.

Composição fenólica e atividade antimicrobiológica de óleos essenciais

da polpa do fruto da árvore de Argão

RESUMO: O estudo apresenta a composição química dos óleos essenciais, da polpa do lixiviado de argão, dos

compostos fenólicos e a identificação da atividade biológica de metabólitos secundários, possibilitando assim

aumentar o valor industrial e comercial da árvore de argão nas áreas da cosmética, terapêutica e nutracêuticos,

e além disso, permitir a proteção das árvores de argão e a extensão da arganieraie. Após a extração e purificação

dos compostos polifenólicos e dos óleos essenciais da polpa do fruto de argão, utilizou-se a cromatografia

líquida de alta eficiência acoplada à espectrometria de massas e espectroscopia UV (LC/UV/MS). Esta técnica

permitiu identificar 16 compostos fenólicos comparando seu espectro de massa LC/MS e seu tempo de

retenção com dados da literatura. Os principais compostos fenólicos encontrados no fruto da árvore de argão

são ácidos fenólicos, flavonóides-O-ramnoglicosídeos, flavonóides-O-glicosídeos, flavan-3-ols e flavonas.

Nossos resultados também mostram que a polpa contém um látex, que é um poliisopreno, cuja estrutura foi

elucidada. Além disso, a análise GC/MS da composição química dos óleos essenciais da polpa do fruto da

árvore de argão identificou vários terpenos, sendo a maioria cânfora, 1,8-cineode e borneol. A presença de

cânfora em quantidade apreciável na polpa do fruto da árvore de argão é muito interessante porque tem

atividade inseticida, que poderiam ser valorizadas a nível industrial. O óleo essencial da polpa do fruto da árvore

de argão contém compostos fenólicos com efeito antioxidante e terpenos com efeito inseticida podendo levar

ao seu uso na fitoterapia.

Palavras-chave: óleos essenciais; componentes bioativos; polifenóis; polpa.

1. INTRODUCTION

Argan oil is the main product of the argan tree, it is

prepared from amandons of its fruit. The argan tree (Argania

spinosa (L.) Skeels) is a tree that grows naturally in Morocco

and other coubtries of region (CHARROUF, 2002).

One of the criteria for the production of high quality

argan oil is the use of fruits; indeed, traditional pulping by the

goats leads to a poor quality oil (HILALI et al., 2005;

HARHAR et al., 2011). Commonly, all parts of the argan tree

are used by the local people: the wood and the woody hull of

Phenolic composition and anti-microbiological activity of essential oils from the fruit pulp of the Argan tree

Nativa, Sinop, v. 11, n. 2, p. 143-147, 2023.

144

the fruit for heating, the amandon of the fruit for the

production of argan oil, the foliage, the pulp of the fruit and

the oil cake (residue of argan oil production) for livestock

(LYBBERT et al., 2002; HILALI et al., 2020; IBOURKI et

al., 2021).

The fruit pulp of the argan tree is naturally consumed in

the argan plantations by goats (GUILLAUME et al., 2019).

It represents 55 to 75% of the weight of the fruit

(CHAHBOUN, 1993). It is light yellow-brown when it is

fresh and turns dark brown during its desiccation after

harvest or fall of the fruit.

The pulp is essentially characterized by the presence of

numerous laticiferous channels, found both on the periphery

of the fruit and under the thickened epidermis

(CHAHBOUN, 1993). The importance of the argan tree in

the rural economy of this semi-arid region is therefore

considerable.

In novel studied on local products of argan three,

antibacterial effect of Moroccan argan oil has been

documented by NAFIS et al. (2022). Also, similar report has

been published for Algerian argan oil (BENABDESSLEM et

al., 2022). Whereas phytochemical components of different

part of argan tree has been identified (Idrissi et al., 2021), the

antimicrobial effects of argan pulp is almost unknown.

The study of the chemical composition of argan fruit pulp

derivatives has been undertaken with the aim of identifying

new metabolites allowing to increase the industrial value of

the fruit pulp of the argan then commercial of the argan tree.

2. MATERIALS AND METHODS

2.1. Study of the phenolic composition of the fruit pulp

of the argan tree

To make the separation and characterization of the main

phenolic compounds present in the fruit pulp of the argan

tree, we took 20 g of the fruit pulp of the argan tree and then

150 ml of methanol / water mixture (4/1), after stirring for

30 min, we evaporated the liquid phase (hydroacoolic extract)

to dryness under vacuum at 35 ° C, and then 3 times 100 ml

of hexane was added. The insoluble part with hexane is

extracted with 100 ml of ethyl acetate (twice) and then the

liquid phase (ethyl acetate extract) is evaporated to dryness

under vacuum at 35 ° C. and finally 5 ml of methanol are

added.

2.2. Extraction of essential oils from the fruit pulp of the

argan tree

Concerning the extraction of essential oils from the pulp

and the chemical composition of the essential oil extracted

from the pulp of the fruit of the argan tree we used the hydro-

distillation, the training with the steam to extract the essential

oils.

2.3. Chemical compound identification

We used high performance liquid chromatography

coupled with mass spectrometry (LC-ESI-MS / MS) to

separate and identify phenolic compounds and essential oil

compounds from the fruit pulp of the argan tree.

3. RESULTS

3.1. Composition of the pulp of the fruit of the argan tree

The pulp, which accounts for at least 50% of fresh fruit,

consists of almost 5% fat and about 10% protein. The pulp

is also rich in polyphenols and saponosides and contains a

latex. Cellulose and carbohydrates account for 28 to 34% of

the wet matter. The lipid extract of the pulp consists of 33.3%

glycerides, 3.3% unsaponifiable matter and a latex (rubber

and percha) 63.4% (FELLAT-ZARROUK et al., 1987)

Table 1. Composition of the fruit pulp of the argan tree.

Tabela 1. Composição da polpa do fruto da árvore de argão.

Organic

material

Fiber

ADF

Crude

protein

Extract

ethereal

Extractable non

nitrogenous

92.7 %

34.5%

8.7%

6.6%

42.9%

3.2. Study of the phenolic composition of the fruit pulp

of the argan tree

The separation and characterization of the main phenolic

compounds present in the fruit pulp of the argan was

performed using high performance liquid chromatography-

mass spectrometry (LC-ESI-MS / MS) techniques. This

method already applied to other plants (cocoa, lepechinia

graveolens) (TAHROUCH et al., 2000) is important for the

study of polyphenols. It makes it possible to determine the

molecular weight and to give certain structural information

of the molecules (OULAD-ALI et al., 1996).

In our study, we relied on the retention time of the peaks

of the phenolic compounds in our sample and compared to

those of the control peaks of the reference compounds.

We identified 16 phenolic compounds in the fruit pulp of

the argan tree (Table 2) (Charrouf et al., 2007). The results

are grouped in Table 2.

3.3. Study of the composition of the essential oils of the

fruit pulp of the argan tree

Terpenic oxygenated derivatives (OTDs) are the main

constituents of the essential oil of argan fruit pulp. Camphor

is the main compound with (35.5%). 1,8-Cineole is present in

appreciable percentage (16.0%). Endobornol and 2- (4-

methylcyclohex-3-enyl) -propan-2-ol were found in similar

percentages with 11.8 and 11.1%, respectively. The presence

of camphor and 1,8-cineole in appreciable quantities in the

fruit pulp of argan is very interesting (Table 3). Indeed, in

combination these two compounds have an insect repellent

effect or an insecticidal activity (HARHAH et al., 2011).

These activities could be valued on an industrial scale.

3.4. Study of the chemical composition of the fruit pulp

of the argan tree

The fruit pulp of the argan tree is characterized by its low

fat content (2%). However, it is richer in carbohydrates

(20%), cellulose (13%), and protein (6%). It has a guttoide

latex (4%) corresponding to a polyisoprene 86% cis (rubber)

and 14% trans (gutta-percha) (REID et al., 2006).

The fatty acid composition of the fat of the fruit pulp of

the argan tree is close to that of the argan oil. The

predominance of myristic acid (C14: 0 = 4.3%), palmitic acid

(C16: 0 = 18.4%), linolenic acid (C18: 0 = 6.3%) is noted. ,

oleic acid C18: 1 = 42%), linoleic acid (C18: 2 = 18.8%),

arachidic acid (C20: 0 = 1%), gadoleic acid (C20: 1 = 1%) and

a relatively higher level of linolenic acid (C18: 3 = 4.6%;Table

4) (REID et al., 2006).

El Hammari et al.

Nativa, Sinop, v. 11, n. 2, p. 143-147, 2023.

145

Table 2. Phenolic compounds of the fruit pulp of the argan tree.

Tabela 2. Compostos fenólicos da polpa do fruto da árvore de argão.

N°

Component (%) T.R [M-H] Fragments

MS/MS

exper. Neutral

loss scan

MS/MS exper.

Precursor ion

scan

MS/MS exper.

Product ion

Acide galique (5.0)

0.82

169

125

Acide protocatechuique (21.8)

1.44

153

109

Catechine (2.8)

4.06

289

245

Isorhoifoline (7.2)

7.13

577

Epicatechine (14.7)

7.65

289

245

Procyanidine (2.7)

7.67

579

289,245

Rutine (0.1)

10.87

609

308

609

301

Hesperidine (4.5)

11.19ou

11.43

609

463,301

308

609

301

Hyperoside (13.4)

11.46

463

162

463

301

Isoquercitrine (10)

11.70

463

162

463

301

Quercetine

pentose

12.33

433

132

433

301

Naringenine

glucoside

12.69

433

162

433

271

Rhamnetine

rutinoside (0.5)

13.37

623

308

623

315

Quercetine (1.6)

17.83

301

151, 121, 107

Luteoline (0.2)

17.94

285

Naringenine (0.07)

18.51

271

119,109

Table 3. Chemical composition of the essential oil of the fruit pulp of the argan tree.

Tabela 3. Composição química do óleo essencial da polpa do fruto da árvore de argão.

N°

Constituant %

830

furan

carbaldéhyde

2.19

956

Acide

méthylbutanoique

4.95

1033

1,8

cinéole

16.02

1098

Toluène

0.47

1108

Linalool

1.63

1131

phényléthanol

0.79

1143

3,5

Diméthyl

éthylidène

cyclohex

ène

one

1.45

1165

Camphre

35.53

1173

Endo

bornéol

11.81

1177

2,6,6

triméthylbicyclo[3.1.1]heptan

one, (1a,2a,5a)

0.39

1177

Terpinéol

3.81

1185

méthylcyclohex

enyl)propan

11.15

1238

phényléthane

1,2

diol

2.06

1294

2,4 Décadiènal

1.23

1463

hexyl

dihydrofuran

2(3H)

one

2.38

1535

Pentadecyn

0.74

1681

heptyl

tétrahydropyran

one

0.91

Total

97.49

Table 4. Percentage of fatty acid composition of argan fruit pulp.

Tabela 4. Porcentagem da composição de ácidos graxos da polpa da

fruta argão.

Acides gras Pourcentage %

Myristique C14 : 0 14

Pentadécanoïque C15 : 0 -

Palmitique C16 : 0

Heptadécanoique C17 : 0 -

Palmitoléique C16 : 1 1

Stéarique C18 : 0 6

Oléique C18 :

Linoléique C18 : 2 20

Linolénique C18 : 3 4

Nonadécénoique C19 : 1 -

Arachidique C20 : 0

Gadoléique C20 : 1 1

3.5. Study of the unsaponifiable pulp of the fruit of the

argan tree

The study of secondary metabolites of the argan tree was

undertaken with the aim of identifying new compounds

allowing to increase the industrial and commercial value of

the argan tree. If successful, the protection of the argan tree

and an extension of the argan tree would be strongly

stimulated. From the pulp of the argan fruit, (+) - catechin,

(-) - epicatechin, rutin, p-hydroxybenzoic acid,

hydroxycinnamic derivatives and resorcinol have been

isolated. Erythrodiol, lupeol, α- and β-amyrin, other

triterpenes have been found in the unsaponifiable pulp; these

are taraxasterol, Ψ-taraxasterol, betulinaldehyde and betulin.

The sterols identified in the fruit pulp of the argan tree are

schottenol and spinasterol, their content in unsaponifiable

matter is less than 0.4% (HILALI et al., 2007). Volatile

substances in the fruit pulp of the argan tree were analyzed

and resorcinol was identified as the major component

(73.5%; KARLESKIND, 1992).

Phenolic composition and anti-microbiological activity of essential oils from the fruit pulp of the Argan tree

Nativa, Sinop, v. 11, n. 2, p. 143-147, 2023.

146

3.6. Study of the composition of the saponosides of the

pulp of the fruit of the argan tree

The methanolic extract of the pulp has revealed the

presence of three saponosides including a new natural

substance: arganin K (Figure 1), this extract represents

remarkable antioxidant properties and inhibits the

proliferation of human cancer cell lines of thymic origin

(HPB-HALL - CONSEIL OLEICOLE

INTERNATIONAL, 2001).

OOH

HO O

Figure 1. Saponin extracted from the pulp of the argan fruit

(ArganineK).

Figura 1. Saponina extraída da polpa do fruto do argan (ArganineK).

4. DISCUSSION

The separation and identification of the main phenolic

compounds present in the argan fruit pulp were performed

using high performance liquid chromatography coupled with

mass spectrometry (LC-ESI-MS / MS). In present study, the

retention times of the peaks of the phenolic compounds of

sample were used compared to those of the controls

(reference compounds) and completed by an analysis of the

fragmentation of the molecules by mass spectrometry.

The study of the phenolic composition of the fruit pulp

of the argan tree has already been studied by Charrouf;

Guillaume (2007), who was able to identify only four

phenolic compounds (catechin, epicatechin, rutin, and p-

hydroxybenzoic acid). This work completed the separation

and identification of the majority of the phenolic compounds

in the fruit pulp of the argan tree, which allowed us to identify

16 phenolic compounds. This study was approached for the

first time as a biochemical approach to establish a

polyphenolic identity card and allows to highlight a fairly

important structural diversity encompassing four main

groups of phenolic compounds:

- Phenolic acids consisting of gallic acid (5%) and

protocatechuic acid (21.1%). These compounds are more

dominant than flavonoids. In our study we did not find p-

hydroxybenzoic acid among the phenolic acids of the pulp of

the argan tree.

- The flavonoids-O-rhamnoglucosides the most

dominant compounds is isorhoifoline (7.2%) and hesperidin

(4.5%) against rutin (0.1%) and rhamnetin-O-rutinoside

(0.5%) are less dominant.

- Flavonoids-O-glycosides: The major compounds are

hyperoside (13.4%) and isoquercetine (10%). On the other

hand, naringenin-7-O-glucoside was the most minor

component of this type of flavonoid in the fruit pulp of the

argan tree (the percentage of naringenin-7-O-glucoside and

quercetin-3-O-arabinose is 15.3%), (compounds 11 and 12).

- There are other phenolic compounds in the argan pulp

ie catechin (2.8%), epicatechin (14.7%), procyanidin (2.7%),

quercetin (1.6%), luteolin (0.2%) and naringenine (0.07%). It

is noted that epicatechin was the most sensitive compound

in the fruit pulp of the argan tree after protocatechuic acid

(21.1%).

The fruit pulp of the argan tree has been found to be rich

in epicatechin and other catechin derivatives whose natural

antioxidant power is important according to many studies.

However, such combinations of natural phenolic compounds

could be used for better preservation of argan oil. Terpenic

oxygenated derivatives (OTDs) are the main constituents of

the essential oil of the argan fruit pulp.

Camphor is the main compound with (35.5%). 1,8-

Cineole is present as a percentage appreciable (16.0%). Endo-

borneol and 2- (4-methylcyclohex-3-enyl) -propan-2-ol have

been found in similar percentages with 11.8 and 11.1%,

respectively.

The presence of camphor and 1,8-cineole in appreciable

quantity in the fruit pulp of argan is very interesting. Indeed,

in combination these two compounds have an insect

repellent effect or Terpenic oxygenated derivatives (OTDs)

are the main constituents of the essential oil of argan fruit

pulp. Camphor is the main compound with (35.5%). 1,8-

Cineole is present in appreciable percentage (16.0%). Endo-

borneol and 2- (4-methylcyclohex-3-enyl) -propan-2-ol were

found in similar percentages with 11.8 and 11.1%,

respectively. The presence of camphor and 1,8-cineole in

appreciable quantity in the pulp of the argan fruits is very

interesting. Indeed, in combination these two compounds

have an insect repellent effect or an insecticidal activity

(HARHAR et al., 2011; LIU et al., 2021). These activities

could be valued on an industrial scale for antimicrobial uses.

5. CONCLUSIONS

This study was approached for the first time as a

biochemical approach to establish a polyphenolic identity

card, chemical composition of the essential oil of the fruit

pulp of the argan tree and allows to highlight a rather

important structural diversity including four main groups of

phenolic compounds in the pulp of the argan fruit and also

this study shows that camphor is more important in the

essential oil these metabolites make the pulp more important

at the industrial level. These activities could be valued on an

industrial scale for antimicrobial uses.

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Acknowledgments:

I would like to thank my fellow plant chemistry lab colleagues

for their invaluable help. To all the people who contributed directly

or indirectly to the realization of this work, I send them my warmest

thanks

Author Contributions: L.H. - Methodology, Research, and

Administration; M. H. - Conceptualization, Methodology, Research,

Validation, Writing and proof-reading; A.L.: Methodology,

Validation, Writing draft. All authors read and agreed to the

published version of the manuscript.

Funding: Not applicable.

Institutional Review Board Statement: Not applicable.

Informed Consent Statement: Not applicable.

Data Availability Statement: Raw and analysed data can be

obtained by request to the corresponding Author by e-mail.

Conflicts of Interest: The authors declare that there is no conflict

of interests regarding the publication of this paper.