The essential oil isolated from Seseli montanum L. subsp. tommasinii Reich. f. was analyzed by GC/MS and the most abundant components were β-pinene (30.2%), germacrene D (10.1%), sabinene (8.0%), α-pinene (7.2%) and limonene (6.6%). The antimicrobial effect of the essential oil was evaluated against four bacterial and four fungal species among which were food contaminants, spoilage fungi, and plant, fungal and animal pathogens. The oil possessed moderate to strong antimicrobial activity.
PulevićV. (2005) Material for vascular flora of Montenegro (a supplement to ‘Conspectus Florae Montenegrinae’. RohlenaJ. (Ed.). Special edition 2, The Republic Institute for the Protection of Nature-Podgorica, 92.
4.
Dioscorides. (2002) in ‘De Materia Medica’, Codex Neapolitanus Graecus 1 of the National Library of Naples, Militos Press, Athens, 215-216.
5.
TosunA, ÖzkalN. (2003) Occurrence of coumarins in Seseli hartvigii growing in Turkey. Journal of Faculty of Pharmacy, Ankara, 32, 269-284.
6.
TosunA, ÖzkalN, YildizS. (2004) Antimicrobial activity screening of some Seseli L. species growing in Turkey. Journal of Faculty of Pharmacy, Ankara, 33, 151-155.
7.
KupeliE, TosunA, YesiladaE. (2006) Anti-inflammatory and antinociceptive activities of Seseli L. species (Apiaceae) growing in Turkey. Journal of Ethnopharmacology, 104, 310-314.
8.
StojkovićS, PetrovićS, KukićJ, DžamićA, RistićM, MilenkovićM, GlamočlijaJ, SokovićM, StojkovićD. (2009) Chemical composition, antimicrobial and antioxidative activity of Seseli rigidum flower essential oil. Chemistry of Natural Compounds, 45, 253-256.
9.
BulatovićVM, Šavikin-FodulovićKP, ZdunićGM, PopovićMP. (2006) Essential oil of Seseli peucedanoides (MB) Kos.-Pol. Journal of Essential Oil Research, 18, 286-287.
10.
TkachevAV, KorolyukA, KönigW, KuleshovaYV, LetchamoW. (2006) Chemical screening of volatile oil-bearing flora of Siberia VIII: Variations in chemical composition of the essential oil of wild growing Seseli buchtormense (Fisch. ex Sprengel) W. Koch from different altitudes of Altai region, Journal of Essential Oil Research, 18, 100-103.
11.
BaserKhc, ÖzekT, NuriddinovKhR, NigmatullaevAM, KhadzimatovKKh, AripovKhN. (1997) Essential oils of Mediasia macrophylla (Regel et Schmahl.) Pimen. and Foeniculum vulgare Mill. from Uzbekistan, Journal of Essential Oil Research, 9, 249-250.
MilosavljevićS, TeševićV, VučkovićI, JadraninM, VajsV, SokovićM, JanćkovićP, JovanovićA. (2007) Composition and antifungal activity of the essential oil of Seseli anuum wild-growing in Serbia, Fitoterapia, 78, 319-322.
14.
StojkovićD, GlamočlijaJ, SokovićM, GrubišićD, PetrovićS.KukićJ, RistićM. (2008) Chemical composition, antimicrobial and antiradical properties of the essential oils of Seseli globiferum fruits. Natural Product Communications, 3, 1935-1938.
15.
OzturkS, ErcisliS. (2006) Chemical composition and in vitro antibacterial activity of Seseli libanotis. World Journal of Microbiology & Biotechnology, 22, 261-265.
16.
WozniakKS, LosR, GlowniakK, MalmA. (2010) Comparison of hydrodistillation and headspace solid-phase microextraction techniques for antibacterial volatile compounds from the fruits of Seseli libanotis, Natural Product Communications, 5, 1427-1430.
17.
AdamsPR. (2007) Identification of Essential Oil Components by Gas Chromatography/Mass Spectroscopy. Allured Publishing Corporation, Carol Stream, Illinois, USA, 50-490.
18.
BoothC. (1971) Fungal culture media. In Methods in Microbiology. NorrisJR, RibbonsDW. (Eds). London & New York, Academic Press, 49-94.
19.
HanelH, RaetherW. (1988) A more sophisticated method for determining the fungicidal effect of water-insoluble preparations with a cell harvester, using miconazole as an example. Mycoses, 31, 148-154.
20.
DaoukKD, DagherMS, SattoutJE. (1995) Antifungal activity of the essential oil of Oryganum syriacum L. Journal of Food Protection, 58, 1147-1149.
