Effect of Drying the Chemical Composition of the Essential Oil of Ocimum gratissimum L (Lamiaceae) Harvested in the Tonkpi Region (Ivory Coast)-Reference-Cited by-同舟云学术

Effect of Drying the Chemical Composition of the Essential Oil of Ocimum gratissimum L (Lamiaceae) Harvested in the Tonkpi Region (Ivory Coast)

Published:2022-09-13 Issue: Volume: Page:275-289
ISSN:2581-9003
Container-title:Earthline Journal of Chemical Sciences
language:en
Short-container-title:EJCS

Author:

N’dri Séraphin Konan¹,Sounta Oumar Yéo²,Eude Kpannieu Dan²,Kouassi Modeste Prao¹,Bosson Antoine Kouamé³,Békova-Békro Janat Akhanovna Mamyr³,Yves-Alain Békro³

Affiliation:

1. UFR Sciences et Technologies, Université de Man, BP 20 Man, Côte d’Ivoire

2. UFR Ingénierie Agronomie Forestière et Environnementale, Université de Man, BP 20 Man, Côte d’Ivoire

3. Laboratoire de Chimie Bio-Organique et de Substances Naturelles (LCBOSN), UFR SFA, Université Nangui Abrogoua, 02BP801 Abidjan 02, Côte d’Ivoire

Abstract

In this study, we were interested in the valuation of Ocimum gratissimum, an aromatic and medicinal plant of the Ivorian flora. The essential oils of the leafy branches of Ocimum gratissimum were extracted by hydrodistillation with a Clévenger-type device. The yield of the oils obtained increases from (0.05±0.01%) to (0.42±0.08%) depending on the drying time. The density of essential oils is almost constant at 0.80. The chemical composition of essential oils was identified after analysis of chromatograms and mass spectra. The number of phytocompounds also increases with the number of drying days from 32 to 37. These compounds are marked by the presence of hydrocarbon monoterpenes from (29.11% to 49.1%), and oxygenated from (40.33% to 50.02%) and the presence of hydrocarbon sesquiterpenes from (5.52% to 8.55%), and oxygenated from (0.80% to 2.16%). The number of major compounds is 5 on day 0 and decreases to 4 on the other days, and have the following proportions: thymol from (33.60% to 44.73%), β‑caryophyllene from (2.54% to 3.29%), para-cymene (12.32% to 25.60%), γ-terpinene (10.09% to 11.41%), Bis(2-ethylhexyl)phthalate (12.12% to 0.42%). bis (2-ethylhexyl) phthalate which is in the minority during the other drying days.

Publisher

Earthline Publishers

Subject

General Medicine

Reference25 articles.

1. Kouamé, F.B.K. (2012). Valorisation de quatre plantes médicinales ivoiriennes : étude phytochimique. (Thèse unique de doctorat). Université de Nantes et de l’Université de Cocody-abidjan, 200p.

2. Kpodekon, M.T., Boko, K.C., Mainil, J.G., Farougou, S., Sessou, P., Yehouenou, B., Gbenout, J., Duprez, J.-N., & Bardiau, M. (2013). Composition chimique et test d’efficacité in vitro des huiles essentielles extraites de feuilles fraîches du basilic commun (Ocimum basilicum) et du basilic tropical (Ocimum gratissimum) sur Salmonella enteric sérotype Oakland et Salmonella enteric sérotype Legon. Journal Society Ouest-African. Chimistry, 035, 41-48.

3. OMS (2013). Renforcement du rôle de la medicine traditionnelle dans les systèmes de santé : une stratégie pour la région Africaine. Rapport du Secrétariat.

4. Fah, L., Klotoé, J.R., Dougnon, V., Koudokpon, H., Fanou, V.B.A., & Dandjesso, C. (2013). Étude ethnobotanique des plantes utilisées dans le traitement du diabète chez les femmes enceintes à Cotonou et Abomey-Calavi (Bénin). Journal of Animal & Plant Sciences, 18, 2647-2658.

5. Buchbauer, G., Jirovetz, L., Jager, W., Plank, C., & Dietrich, H. (1993). Fragrance Compounds and Essential Oils with Sedative Effects upon Inhalation. Journal of Pharmaceutical Sciences, 82(6), 660-664. https://doi.org/10.1002/jps.2600820623