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Comparison of morphological traits and essential oils content in Lippia citriodora L. cultivated in greenhouse and outdoor

By: Heidar Meftahizade, Hojat Moradkhani, Seyed Hossein Rajab Nejad, Atefeh Fayazi Barjin

Key Words: Lippia citriodora, Greenhouse, Linalool, Limonene, Yazd, Iran

J. Bio. Env. Sci. 10(3), 235-240, March 2017.

Abstract

Lippia citriodora L., Verbenaceae family, is cultivated due to useful secondary metabolites like essential oil compound, which apply in the food, cosmetics industries. This plant is used as decreasing blood sugar, anti-blood releasing of nose and enteral. There are a lot previous studied which investigated essential oil compound in Lippia citriodora in greenhouse or field alone. Because L. citriodora were cultivated extensively in greenhouse and field in Yazd province. Knowing more about yield (morphological and essential content) in both conditions is very necessary. This study was designed with objective to evaluate the performance of L. citriodora for morphological and essential oil (yield and content) under different conditions of cultivation (greenhouse and field) in Yazd conditions. Our results showed Location exerted a highly significant influence (P<0.01) on all investigated traits. Year showed a highly significant influence (P < 0.01) on all the traits. Fresh leaf yield per plant, dry leaf yield per plant in L. citriodora is considered as economic traits. Location, year and interaction of Location × Year were significantly difference for these both parameters. GC-Mass chromatogram showed that the main compounds were D-limonene (7.85vs 6.68), Alpha-citral (6.57vs 5.52), Beta-Citral (5.68vs 4.65), spathulenol (4.58 vs 3.04), Caryophyllene oxide (6.54vs 4.96), in field and greenhouse respectively. As a results, cultivation of L. citriodora in greenhouse cause to increase plant biomass, while essential oil content were increased in field.

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Comparison of morphological traits and essential oils content in Lippia citriodora L. cultivated in greenhouse and outdoor

Allard RW. 1960. Principles of plant Breeding, John Willy and Sons, inc., New York, 485.

Azarmi F, Tabatabaie H. Nazemieh MR. 2012. Greenhouse Production of Lemon Verbena and Valerian Using Different Soilless and Soil Production Systems, Journal of Basic and Applied Scientific Research 2(8), 8192-8195.

Beemnet MK, Wondu B, Solomon Abate M. 2013. Performance of Lemon Verbena (Aloysia triphylla L.) for Morphological, Economic and Chemical Traits in Ethiopia. American-Eurasian Journal Agricultural and Environmental Science 13 (11), 1576-1581.

Carnat A, Carnat AP, Fraisse D. 1999. J. L. Lamaison, Fitoterapia 70, 44.

Fehr WR. 1991. Principles of Cultivar Development Theory and Technique, Iowa State University, USA, 247-260.

Gudaityte O, Venskutonis PR. 2007. Chemotypes of Achilleamille folium transferred from 14 different locations in Lithuania to the controlled environment. Biochemical Systematic and Ecology 35, 582-592.

Hojat T, Nad Ali B, Babaeian J, Salman SH. 2014. Essential oil composition of lemon verbena (Lippia citriodora) leaves cultivated in Mazandaran, Iran. Journal of Bioscience and environmental science 4, 135-140.

Karik UN. 2011. Azkan, The effect of different planting spacing on drug herb essential oil yield and the quality  of  essential  oil  in  lemon verbena (Lippia citriodora L.), Yalova Ataturk Centeral Horticultural Research Institute 40(1), 23-34.

Linde JH, Combrinck S, Regnier TJC, Virijevic S. 2010. Chemical composition and antifungal activity of the essential oils of Lippia rehmannii from South Africa. South African Journal of Botany 1, 37-42.

Pereira CG, Meireles MAA. 2007. Evaluation of Global Yield, Composition, Antioxidant Activity and Cost of Manufacturing of Extracts from Lemon Verbena (Aloysiatri phylla L (Herit.) Britton) and Mango (Mangifera indica L.) Leaves, Journal of Food Process Engineering 30, 150-173.

Santos-Gomes PC, Fernandes – Ferreira M, Vicente Ana MS. 2005. Composition of the essential oils from flowers and leaves of Vervaintri phyllaaloysia grown in Portugal. Journal of essential oil research 17, 73-78.

Yousefzadeh N, Meshkatalsadat MH. 2013. Quantitative and qualitative study of bioactive compounds of essential oils of plant Lippia citriodora by use of GC-MS technique. Journal of Novel Applied Science 2, 964-968.

Heidar Meftahizade, Hojat Moradkhani, Seyed Hossein Rajab Nejad, Atefeh Fayazi Barjin. 2017. Comparison of morphological traits and essential oils content in Lippia citriodora L. cultivated in greenhouse and outdoor. J. Bio. Env. Sci. 10(3), 235-240
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