TRANSFORMATION OF THE COMPONENT STRUCTURE OF ESSENTIAL OIL AND VOLATILE ALLOCATION OF PLANTS UNDER THE IMPACT OF ARTIFICIAL LIGHTING-Reference-Cited by-同舟云学术

TRANSFORMATION OF THE COMPONENT STRUCTURE OF ESSENTIAL OIL AND VOLATILE ALLOCATION OF PLANTS UNDER THE IMPACT OF ARTIFICIAL LIGHTING

Published:2019-11-15 Issue:11 Volume:98 Page:1228-1234
ISSN:2412-0650
Container-title:Hygiene and sanitation
language:
Short-container-title:HAS

Author:

Malysheva Alla G.¹,Shelepova O. V.²,Yudin S. M.¹

Affiliation:

1. Center for Strategic Planning, Russian Ministry of Health

2. Center for Strategic Planning, Russian Ministry of Health; The N.V. Tsytsyn Main botanical garden

Abstract

Introduction. Much attention is paid to the production of green products of aromatic plants from local raw materials, as one of the priorities implemented under the program “The Concept of the State Policy in the Field of Healthy Nutrition of the Population of the Russian Federation for the Period until 2020”. For the year-round consumption of green mass of plants, there are used different technologies of cultivation. Specific growing conditions (short light day and low light) in the autumn-winter period of highly productive plants in our country are possible only with the use of additional sources of artificial light. Material and methods. Studies of the effect of different growing technologies on the component composition of essential oil and volatile plant excreta using the example of peppermint carried out by chromatography-mass spectrometry with analytical complex «Clarus 600M» by Perkin Elmer (USA) (flame ionization) and mass spectrometry detectors with gas chromatography-mass spectrometry system Focus GC DSQ II by Thermo Scientific (USA). Results. The use of new technologies for growing ether-bearing plants may cause a change in the qualitative and quantitative composition of the essential oil and volatile plant excretions. Because of re-lighting by narrow cavity light, there have been changes in the qualitative and quantitative composition of the essential oil and volatile mint emissions. The disappearance of sabinene, bourbonene, myrtenol, colamen found in control samples and the formation of cumene, 3-hexyl-2-methylbutyrate, germacrene, carvone, cubenol, a decrease in the content of the main components: menthol, menton, benzyl alcohol, sabinene, bourbonene; an increase in the content of methylacetate, isomentone, isomenthol, neomentilacetate. With combined lighting, a reduction from 43 to 31 compounds was established with a decrease in their total content in the composition of the volatile fraction. Conclusion. Terpene hydrocarbons are the most hygienically significant substances belonging to the group of easily transformed substances, and oxygen-containing compounds (aldehydes, ketones, phenols, furans, pyrans, ethers) identified in the group of toxic and dangerous chemicals

Publisher

Federal Scientific Center for Hygiene F.F.Erisman

Subject

Health, Toxicology and Mutagenesis,Public Health, Environmental and Occupational Health,Pollution,General Medicine

Reference36 articles.

1. Rabinovich A M , Cherkasov A V Complex use of useful properties of plants that improve the habitat and human health Voprosy biologicheskoy, meditsinskoy i farmatsevticheskoy khimii [Questions of Biological, Medical and Pharmaceutical Chemistry] 2008; 6: 12–4 (in Russian)

2. Bykov VA , Rabinovich A M , Cherkasov A V et al Improvement of the environment and human health with the help of useful properties of plants. Proceedings of the scientific-practical conference “Problems of greening large cities” [Materialy nauchno-prakticheskoy konferentsii “Problemy ozeleneniya krupnykh gorodov”]. Moscow; 2008: 51–3 (in Russian)

3. Gourinovich L Essential oils: chemistry, technology, analysis, application [Efirnyye masla: khimiya, tekhnologiya, analiz, primeneniye]. Moscow: School of Cosmetic Chemists; 2005 190 p (in Russian)

4. Marriott P.J., Graham T.E., Dufour J.-P. Emerging Opportunities for Flavor Analysis through Hyphenated Gas Chromatography J Agric Food Chem 2009; 57 (21): 9962–71 DOI: 10.1021/jf.9013845

5. Bokker Yu Chromatography Instrumental analysis: methods of chromatography and capillary electrophoresis [Instrumental’naya analitika: metody khromatografii i kapillyarnogo elektroforeza] Moscow: Technosphere; 2009 472 p (in Russian)