Chemotaxonomy of four varieties of Mentha longifolia L. using essential oil composition markers

Paper Details

Research Paper 01/10/2014
Views (382) Download (10)
current_issue_feature_image
publication_file

Chemotaxonomy of four varieties of Mentha longifolia L. using essential oil composition markers

Giti Barzin, Ali Mazooji, Fahimeh Salimpour
J. Bio. Env. Sci.5( 4), 172-176, October 2014.
Certificate: JBES 2014 [Generate Certificate]

Abstract

Mentha longifolia L. is one of the most important medicinal plant of Mentha genus. Studies were carried out to evaluate the chemotaxonomic relationships of four varieties of this specious. The evaluate oils were isolated and analytical gas chromatography was done. After determining 51 components, cluster analysis were used to determine the chemotaxonomy relationships between varieties. Based on 14 major essential oil components two main clades were shown. M. longifolia var. chlorodyctia had the highest distance from other varieties. It seems that environmental factors such as soil, nutrition and weather have the most effective influence on chemical composition and M. longifolia var. chlorodyctia introduced the best chemotype for this species.

VIEWS 14

Abbaszadeh B, Teymoori M, Pouyanfar M, Rezaei MB, Mafakheri S. 2013. Growth and essential oil of Mentha longifolia L. var. amphilema from different ecological conditions. Annlas of Biological research 4(7), 85-90.

Anwar F, Hussain AL, Sheazi STH, Bhanger MI. 2009. Changes in composition and antioxidant and antimicrobial activities of essential oil of fennel (Foeniculumvulgare Mill.) fruit at different stages of maturity. Journal of Herbs, Spices and Medicinals Plants 15, 1-16.

Gulluce M, Shain F, Sorkmen M, Ozer H, Daferera D, Somen A, Polissiou M, Adiguzel A, Ozcan H. 2007. Antifungal and antioxidant activity of Mentha Longifolia (L.) Hudson (Lamiaceae) essential oil. Botanicaserbica 34(1), 57-61.

Hajlaoue H, Ben AF, Mejdi M, Noumi E, Bakhrouf A. 2010. Effect of Mentha longifolia L. ssp. longifolia essential oil on the morphology of four pathogenic bacteria visualized by atomic force microscopy. African Journal of Microbiology Research 4, 1122-1127.

Handa KL, Smith DM, Nigam IC, Levi L. 2006, Essential oils and their constituents XXIII. Chemotaxonomy of the genusMentha. Journal of Pharmaceutical Sciences 53(11),14071409. DOI: 10.1002/jps. 2600531129.

Hussain AL, Anwar F, Shahid M, Ashraf M, Przybylski R. 2010. Chemical composition, anticoidant and antimicrobial activities of essential oil of spearmint. Pakistan Journal of Esential Oil Research 22, 78-84.

Kokkini S, Vokou D,1989, Mentha spicata ( Lamiaceae) chemotypes growing willd in Greece. Economic Botany Volume 43, Issue 2, 192-202

Lange BM, Croteau R. 1999. Genetic engineering of essential oil production in mint. Plant Biotechnol 2, 139-144

Mozaffarian V. 1999. Aictionary of Iranian Plant Names.  Tehran,  Iran:  Farhang  Mosavar  Press  (in Persia).

Neugebaverova J, Kaffkova K . 2012. Variability of essential oil content of Mentha L. taxa.Acta Universities Agriculture ET Silviculturae Mendelianae Brunensis 22(8), 187-190

Rösch P, Kiefer W, Popp J. 2002. Chemotaxonomy of mints of genus Mentha by applying Raman spectroscopy.Biopolymers 67(4-5), 358-61.

Saeidi Z, Babaahmadi H, Allah Saeidi K, Salehi A, SalehJouneghani R, Amirshekari H, Taghipour A. 2012. Essential oil content and composition of Mentha longifolia (L.) Huds. Growth wild in Iran. Journal of Medicinal Plants Research 6(29), 4522-4525

Sharpov S, Sulaimanova VA, Setzer WN. 2011. Essential oil composition of Mentha longifolia from wild population growing in Tajikestan. Journal of Medicinally Active Plants 1(2), 76-84.

Zargari A. 1990. Medicinal Plants. Tehran University Press 4, 28-34.