A Chemical Marker Proposal for the Lantana genus: Composition of the Essential Oils from the Leaves of Lantana radula and L. canescens

Essential oil extracts from the leaves of two Lantana species ( L. radula Sw. and L. canescens Kunth), for which no prior analysis has been reported, were analyzed by GC-MS. This information was utilized to propose chemical markers for Lantana species so that identification between physically similar plant species can be achieved through chemical analysis. Results showed 33 constituents for L. canescens, among which β-caryophyllene (43.9%), β-cubebene (10.1%), elixene (8.6%), β-phellandrene (6.1%), α-caryophyllene (2.6%) and dehydro-aromadendrene (2.6%) were the principle components. L. radula revealed the presence of 21 compounds, the most abundant of which were β-cubebene (31.0%), β-caryophyllene (20.8%), elixene (10.0%), α-salinene (6.4%), β-phellandrene (6.1%), copaene (4.9%) cadinene (1.4%) and psi-limonene (1.4%). The high concentration of β-caryophyllene in the samples tested here and those in the literature make it a good candidate for a chemical marker for Lantana species, with β-cubebene, elixene and β-phellandrene following as minor compounds identified more sporadically in this genus. On the other hand, Lippia species, which are morphologically similar to those from the Lantana genus, would contain limonene, citral, carvacrol, β-myrcene, camphor and thymol as the main chemical markers. These chemical markers would be a powerful tool for maintaining quality control in the extraction of essential oils for use in medicinal applications, as well as in identification of plant specimens to a taxonomist.

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Constituents of Essential Oils from the Leaf and Flower of Plumeria alba Grown in Nigeria

Natural Product Communications ◽

10.1177/1934578x1400901121 ◽

2014 ◽

Vol 9 (11) ◽

pp. 1934578X1400901 ◽

Cited By ~ 1

Author(s):

Oladipupo A. Lawal ◽

Isiaka A. Ogunwande ◽

Andy R. Opoku

Keyword(s):

Mass Spectrometry ◽

Gas Chromatography ◽

Chemical Analysis ◽

Essential Oil ◽

Essential Oils ◽

The Other ◽

Caryophyllene Oxide ◽

First Report ◽

Leaf Oil ◽

Phenyl Acetaldehyde

This paper reports on the compounds identified in the leaf and flower essential oils obtained by hydrodistillation of Plumeria alba L. (Apocynaceae) grown in Nigeria. The chemical analysis of the essential oils was achieved by means of gas chromatography (GC) and gas chromatography coupled with mass spectrometry (GC-MS). Linalool (13.2%), n-nonanal (9.6%), phenyl acetaldehyde (8.5%), neryl acetone (5.3%) and n-decanal (5.1%) were the main constituents of the leaf oil. On the other hand, the flower oil comprised mainly of limonene (9.1%), linalool (7.9%), α-cedrene (8.0%), caryophyllene oxide (7.9%) and ( E, E)-α-farnesene (6.6%). This is the first report on the essential oil constituents of P. alba.

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Evaluation of volatile constituents, exudation of resin and occurrence of galls of Protium aracouchini (Aubl.) Marchand

Acta Brasiliensis ◽

10.22571/2526-4338559 ◽

2021 ◽

Vol 5 (3) ◽

pp. 88

Author(s):

Thiago Augusto Araujo Correia Lima (in memorian) ◽

Leonardo Pinto Cunha ◽

José Eduardo Lahoz da Silva Ribeiro ◽

Marcia Ortiz Mayo Marques ◽

Maria da Paz Lima

Keyword(s):

Essential Oil ◽

Essential Oils ◽

Chemical Constituents ◽

Brazilian Amazon ◽

High Concentration ◽

Forest Reserve ◽

Volatile Constituents ◽

Aerial Parts ◽

First Time ◽

Time Information

Protium aracouchini (Aubl.) Marchand [sin Icica aracouchini Aubl.], which occurs in the Adolpho Ducke Forest Reserve, in the Brazilian Amazon, was evaluated for the presence of galls, for resin exudation and the composition of the essential oils from the aerial parts and the resin. The experiment to stimulate the exudation of resin from the trunk was conducted using a 2-chloroethylphosphonic acid solution. The resin produced after 40 days and the aerial parts had their essential oils extracted in a Clevenger apparatus and the volatile chemical constituents were analyzed using GC/MS. The non-oxygenated sesquiterpenes α-copaene (21.15%) and α-gurjunene (13.69%), in addition to the oxygenated sesquiterpene spathulenol (10.32%), were detected as the majority constituents of the essential oil of the leaves, and a concentration similar to that of α-gurjunene was found in the branches (13.28%). The resin essential oil showed a high concentration of hydrocarbon monoterpenes (76.49%) with a predominance of α-pinene (17.57%) and limonene (46.11%). Four gall morphotypes were found associated with this species. The present study reports for the first time information on the volatile constituents and the resinous potential of P. aracouchini, and registers the morphotypes of the galls that help in the taxonomy of the species.

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Development of bioactive/active additives based on essential oils: A review

Medicinal Plant Communications ◽

10.37360/mpc.20.3.4.12 ◽

2020 ◽

Vol 3 (4) ◽

pp. 60-67

Author(s):

Jessica Alarcón-Moyano ◽

◽

Silvia Matiacevich ◽

Keyword(s):

Medicinal Plants ◽

Essential Oil ◽

Essential Oils ◽

Freeze Drying ◽

The Other ◽

Wall Material ◽

Oil Oxidation ◽

Active Additive ◽

Wall Materials ◽

Selection For

The use of bioactive/active additives has been increasing in recent years, especially those derived from medicinal plants such as essential oils. However, due to essential oil oxidation it is necessary to protect it by encapsulation techniques such as: emulsion, spray- and/or freeze-drying as the most economical techniques. On the other hand, an important factor is to determine the appropriate wall material to obtain a prolonged or controlled release in the food or in the organism. Therefore, several factors affect the release of the compounds such as the type, amount of wall material and/or combination of wall materials. Therefore, the knowledge of all the aforementioned factors is important in order to make an adequate selection for the development of a bioactive/active additive based on essential oils.

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Comparison of chemical compositions of essential oils isolated by hydrodistillation from wild thyme (Thymus serpyllum L.) with use of Deryng and Clevenger apparatus

Herba Polonica ◽

10.2478/hepo-2014-0006 ◽

2014 ◽

Vol 60 (2) ◽

pp. 7-17 ◽

Cited By ~ 4

Author(s):

Aneta Wesołowska ◽

Monika Grzeszczuk ◽

Dorota Jadczak

Keyword(s):

Chemical Composition ◽

Essential Oil ◽

Essential Oils ◽

Methyl Ether ◽

The Other ◽

Chemical Compositions ◽

Distillation Apparatus ◽

Ms Analysis ◽

Wild Thyme ◽

Thymus Serpyllum

Abstract The aim of the studies conducted in 2012-2013 was to compare the chemical composition of essential oils isolated from wild thyme (Thymus serpyllum L.) by hydrodistillation in Deryng and Clevenger apparatus. GC-MS analysis of the isolated oils revealed that carvacrol (42.81-45.24%), γ-terpinene (7.68-9.04%), β-caryophyllene (5.28-9.10%), β-bisabolene (5.76-6.91%) and carvacrol methyl ether (4.92-6.09%) were the major components of all the samples. On the basis of the obtained data it was proved that the type of distillation apparatus had no significant effect on the content of the main essential oil constituents of wild thyme. However, based on the means for both years of the study it was proved that hydrodistillation in Deryng apparatus was more effective for carvacrol concentration, while in Clevenger apparatus - for y-terpinene and carvacrol methyl ether concentration. The type of distillation apparatus had no significant effect on the content of the other essential oil constituents.

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Composition and Efficacy of Essential Oil Nanoemulsions

10.4018/978-1-7998-8378-4.ch004 ◽

2022 ◽

pp. 59-92

Author(s):

Sowbarnika Arul Senthil ◽

Sneha Unnikrishnan ◽

Karthikeyan Ramalingam

Keyword(s):

Antimicrobial Activity ◽

Essential Oil ◽

Essential Oils ◽

Shelf Life ◽

Critical Analysis ◽

Optimal Concentration ◽

The Other ◽

Micron Size ◽

Antimicrobial Mechanism ◽

Antimicrobial Potency

Essential oil, endorsed as a natural cum powerful ingredient, encompasses incredible properties, and various approaches have been proposed and spurred over the last decades. One among them is the nano-emulsification of the essential oils, and the sub-micron size provides prolonged shelf life, ease of formulation and handling, nullification of the stated obstacles, as well as the augmentation of the essential oil antimicrobial activity. This chapter primarily reinforces and is well-articulated on (1) the components and its precise concentration adequate to fabricate nanoemulsion; (2) critical analysis on the experimentally inferred antimicrobial mechanism and the extent of contribution granted by the optimal concentration of the components in the nanoemulsion; (3) scrutinization of the possible impact rendered by the components on the other characteristics of nanoemulsion aside from antimicrobial potency. Altogether, the importance of careful formulation of the essential oil-loaded nanoemulsion is emphasized extensively.

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Comparative Study of the Chemical Profiles of the Essential Oils of Ripe and Rotten Fruits of Citrus Aurantifolia Swingle

Natural Product Communications ◽

10.1177/1934578x0800300718 ◽

2008 ◽

Vol 3 (7) ◽

pp. 1934578X0800300 ◽

Cited By ~ 3

Author(s):

Anthony J. Afolayan ◽

Olayinka T. Asekun

Keyword(s):

Essential Oil ◽

Comparative Study ◽

Essential Oils ◽

Oil Extraction ◽

The Other ◽

Ripe Fruit ◽

Citrus Aurantifolia ◽

Linalool Oxide ◽

Chemical Profiles ◽

Fruit Oil

Most often during the processing of lime fruits for essential oil extraction, rotten fruits are used along with ripe ones. In this study, we examine the volatile constituents of the essential oils from both ripe and rotten lime fruits (Citrus aurantifolia Swingle) from Nigeria. The oils were isolated by hydrodistillation and analyzed using GC-MS. The ripe and rotten lime oils contained 55 and 49 components, respectively. Both oils were rich in limonene (21.0%, ripe lime; 21.3% rotten lime), α-terpineol (11.7%, ripe; 14.1%, rotten), terpinene (8.3%, ripe; 8.9% rotten lime), α–terpinolene (2.5%, ripe; 8.5%, rotten) and ( E)-α-farnesene (6.3% ripe lime; 4.8% rotten lime). The other major components, α-pinene (11.1%), and linalool (5.5%) were identified in ripe lime oil only. Limonene and citral, which are believed to be the two major citrus odour contributors, were present in both ripe and rotten lime oils. Aldehydes like decanal and the farnesenes, which are also important in citrus flavor, were represented in both lime oils. Some notable components of ripe lime fruit oil, like trans-β-ocimene, linalool, myrcenol, dodecanal, trans-β–bergamotene and trans-γ–bisabolene, were absent in the rotten fruit oil. It could be suggested that some compounds like cis-ocimene, trans-linalool oxide, p-mentha-3-en-1-ol, mentha-1,4,8-triene, citronellal, trans- β–bergamotene and α–copaene, which were not identified in the ripe fruit oil, were introduced into the lime oil by the incorporation of rotten fruits in the distilled samples.

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Essential Oils of Morus alba and M. nigra Leaves: Effect of Drying on the Chemical Composition

Natural Product Communications ◽

10.1177/1934578x1701200133 ◽

2017 ◽

Vol 12 (1) ◽

pp. 1934578X1701200

Author(s):

Niko S. Radulović ◽

Vojkan M. Miljković ◽

Marko Z. Mladenović ◽

Goran S. Nikolić

Keyword(s):

Chemical Composition ◽

Essential Oil ◽

Essential Oils ◽

Morus Alba ◽

The Other ◽

Rare Plant ◽

Drying Process ◽

Geranyl Acetone ◽

Peak Areas ◽

Plant Metabolite

Detailed GC and GC/MS analyses of essential-oil samples obtained by hydrodistillation of Morus alba L. and M. nigra L. leaves (four samples) allowed the identification of 131 constituents representing 95.1 – 96.4% of the total GC peak areas. The most abundant compounds classes were alkanes, diterpenoids, carotenoid-derived compounds and fatty acid-related constituents with trans-phytol (7.9 – 71.2%), ( E,E)-geranyl linalool (0.2 – 8.0%), ( Z)-bovolide (8.1%) and n-chain alkanes (in total, 17.5 – 52.4%) as the major constituents of the analyzed samples. In general, there were only quantitative differences noted between M. nigra essential oils from fresh and dry leaves. The most discernable changes included a variation in the content of the major constituents (e.g. the relative amount of trans-phytol and the total amount of alkanes decreased by 5.8% and ≈ 2%, respectively, while that of ( E,E)-geranyl linalool increased by 7.8%). On the other hand, the composition of M. alba essential oil was much more significantly affected by the drying process. The highest quantitative differences were noted for trans-phytol, geranyl acetone, and all isomers of 4,6,8-megastigmatrien-3-one. Also, a rare plant metabolite, ( Z)-bovolide, characteristic of leaf senescence, was only identified (8.1%) in the essential oil of M. alba dried leaves.

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Essential oil composition of two yarrow taxonomic forms

Open Life Sciences ◽

10.2478/s11535-010-0011-7 ◽

2010 ◽

Vol 5 (3) ◽

pp. 346-352 ◽

Cited By ~ 4

Author(s):

Asta Judzentiene ◽

Danute Mockute

Keyword(s):

Chemical Analysis ◽

Essential Oil ◽

Essential Oils ◽

Essential Oil Composition ◽

Achillea Millefolium ◽

Caryophyllene Oxide ◽

Oil Composition ◽

Plant Organs ◽

First Time

AbstractDifferences in essential oil composition of wild Achillea millefolium L., collected at five habitats in Lithuania, where plants with pink (f. rosea) and white (f. millefolium) flowers grow together, were reported. For the first time, oils of different plant organs (inflorescences and leaves) of both forms from every population were analysed in detail. Chemical analysis was performed by GC and GC-MS. The most predominant constituents of the oils were nerolidol (9.4–31.9%, in 11 out of 20 samples), caryophyllene oxide (8.4–23.0%, 4 leaf oils), ß-pinene (8.0–15.2%, 2 samples), eudesmol (11.8–15.8%, 2 leaf oils) and 1,8-cineole (11.9%, one inflorescence oil). Domination of nerolidol was mostly characteristic of A. millefolium f. rosea essential oils (in 8 out of 10 oils). The inflorescences biosynthesised markedly larger amounts of nerolidol and ß-pinene than those of the leaves. An opposite correlation was observed for caryophyllene oxide and eudesmol. Chamazulene (≤2.7%) was determined only in six oils. The 65 identified constituents made up 75.4–96.5% of the oils.

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Chemical Composition And In-Vitro Antimicrobial Activity Of The Essential Oils Of Three Greek Achillea Species

Zeitschrift für Naturforschung C ◽

10.1515/znc-2002-3-415 ◽

2002 ◽

Vol 57 (3-4) ◽

pp. 287-290 ◽

Cited By ~ 72

Author(s):

Prokopios Magiatis ◽

Alexios-Leandros Skaltsounis ◽

Ioanna Chinou ◽

Serkos A. Haroutounian

Keyword(s):

Antimicrobial Activity ◽

Chemical Composition ◽

Essential Oil ◽

Essential Oils ◽

Pathogenic Fungi ◽

The Other ◽

Gram Negative ◽

In Vitro Antimicrobial Activity ◽

Ms Analysis

The chemical composition of the essential oils of Achillea holosericea, Achillea taygetea, Achillea fraasii was determined by GC/MS analysis. Among the ninety-five assayed constituents, camphor, borneol and 1,8-cineol were found to be the major components. The in-vitro antimicrobial activity of these essential oils was evaluated against six bacteria indicating that the first is totally inactive, while the other two possess moderate to strong activities mainly against the Gram negative strains. The essential oil of A. fraasii was also active against the tested pathogenic fungi

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Quality control methods for thermally modified wood

Holzforschung ◽

10.1515/hf-2014-0185 ◽

2015 ◽

Vol 69 (7) ◽

pp. 875-884 ◽

Cited By ~ 27

Author(s):

Wim Willems ◽

Charalampos Lykidis ◽

Michael Altgen ◽

Lothar Clauder

Keyword(s):

Quality Control ◽

Critical Evaluation ◽

Unknown Origin ◽

The Other ◽

Control Methods ◽

Chemical Marker ◽

Commercial Success ◽

Thermally Modified Wood ◽

Reference Samples ◽

Modified Wood

Abstract Thermally modified wood (TMW) is currently produced commercially by a range of processes across many countries. A prerequisite of the commercial success is an efficient quality control (QC), and methods with this regard are discussed in this review. When direct measurement of the key attribute of the material is not feasible, QC is based on a suitably chosen physical or chemical “marker”. A critical evaluation of currently applied markers reveals that most of them only provide data for comparative purposes for a particular species and/or over a narrow process range. Such markers do not allow making an objective judgment of quality, which is independent of process information or reference samples provided by the manufacturer. On the other hand, they can be very useful for monitoring product variability in the TMW factory and wood during the heat treatment. Recommendations for future development are the general validation of (combinations of) known TMW markers for different wood species and processes, resulting in (1) a reliable and fast laboratory QC method for given samples of unknown origin, (2) a simple and fast indicative QC test for end users, and (3) in-line product markers for feedback-controlled production.

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