Abstract
n-Octyl esters of higher fatty acids have been reported as markers of urban wastewater in sediments, polychaeta, fish, crabs and oysters (Chaler et al. in J Chromatogr A 1046:203–210, 2004)). However, up to date, there were no subsequent studies to confirm this claim. Likewise, Chaler and co-workers did not consider that the mentioned compounds might occur naturally in the environment. Here we found seven n-octyl straight-chain alkanoates, from C-20 to C-26, in the wild-growing plant Heracleum sphondylium L., Apiaceae, from 14 locations. Those plant metabolites were unambiguously identified by gas chromatographic co-injection of the synthesized esters with the inflorescence washings. All identified octyl esters represent new natural compounds, except for octyl docosanoate. Since we have demonstrated that n-octyl esters occur naturally, and in abundance, they cannot be recognized any longer as wastewater markers. Additionally, here we provide evidences that the compounds identified by Chaler et al. (2004) are in fact 2-ethylhexyl esters, mistakenly identified as n-octyl esters.
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References
Abel G, Erdelmeier C, Meier B, Sticher O (1985) Isopimpinellin, a furocoumarin from Heracleum sphondylium with chromosome damaging activity. Planta Med 3:250–252
Amoros M, Fauconnier B, Girre L (1977) Antiviral effects of some plant extracts. Ann Pharm Fr 35:371–376
Chaler R, Canton L, Vaquero M, Grimalt JO (2004) Identification and quantification of n-octyl esters of alkanoic and hexanedioic acids and phthalates as urban wastewater markers in biota and sediments from estuarine areas. J Chromatogr A 1046:203–210
Dinda B, Saha MK (1986) Aliphatic compounds from Melastoma melabathricum. J Indian Chem Soc 63:764–766
Evans WC (1996) Trease and Evans’ pharmacognosy, 14th ed. University of Nottingham, WB. Sanders Comp, Notthingam, UK
Iscan G, Demirci F, Kurkcuoglu M, Kivanc M, Baser KHC (2003) The bioactive essential oil of Heracleum sphondylium L. subsp. ternatum (Velen.) Brummitt. Z Naturforsch 58c:195–200
Iscan G, Ozek T, Ozek G, Duran A, Baser KHC (2004) Essential oils of three species of Heracleum. Anticandidal activity. Chem Nat Comp 40:544–547
Jain R, Saxena U (2003) Aliphatics and triterpenoids from the heartwood of Dichrostachys cinerea. J Indian Chem Soc 80:656–658
Lawrie W, McLean J, Younes MEG (1968) Constituents of the seeds of Heracleum sphondylium. Phytochemistry 7:2065–2066
Maffei M (1996) Chemotaxonomic significance of Leaf Wax n-Alkanes in the umbelliferae, cruciferae and leguminosae (Subf. Papilionoideae). Biochem Syst Ecol 24:531–545
McLafferty FW, Turecek F (1993) Interpretation of mass spectra, 4th edn. University Science Books, Sausalito, CA
Ozek T, Demirci B, Baser KHC (2002) Comparative study of the essential oils of Heracleum sphondylium ssp. ternatum obtained by micro- and hydro-distillation methods. Chem Nat Comp 38:48–50
Ozek T, Ozek G, Baser KHC, Duran A (2005) Comparison of the essential oils of three endemic Turkish Heracleum species obtained by different isolation techniques. J Essent Oil Res 17:605–610
Radulović NS, Blagojević PD (2012) The most frequently encountered volatile contaminants of essential oils and plant extracts introduced during the isolation procedure: fast and easy profiling. Phytochem Anal 23:131–142
Radulović N, Blagojević P, Palić R (2009) Composition of diethyl ether flower extracts of Lonicera fragrantissima Lindl. & Paxton (caprifoliaceae). Nat Prod Commun 4:1581–1584
Radulović N, Denic M, Stojanovic-Radic Z, Skropeta D (2012) Fatty and volatile oils of the gypsywort Lycopus europaeus L. and the Gaussian-like distribution of its Wax Alkanes. J Am Oil Soc Chem 89:2165–2185
Sharma SK, Kumar N, Singh S, Ali M (2008) New aliphatic alcohol from Ailanthus excelsa Roxb bark. Asian J Chem 20:5455–5460
Ugur MS, Gurkan E, Koksal EP, Tuzlaci E (1998) Cytotoxicity assay and fibrinolytic evaluation of Heracleum sphondylium and Ferulago thirkeana. Fitoterapia 69:378–379
Van den Dool H, Kratz PD (1963) A generalization of the retention index system including linear temperature programmed gas-liquid partition chromatography. J Chromatogr 11:463–471
Van Genderen HH, Jaarsma J, Versluis C (1988) Long chain pentyl- and hexyl-esters and other lipoids in leaf wax of Ilex aquifolium L. (Aquifoliaceae). Plant Sci 55:231–238
Weimark G, Nilsson E (1980) Phototoxicity in Heracleum sphondylium. Planta Med 38:97–98
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Financial support of this work by the Ministry of Education, Science and Technological Development of Serbia is gratefully acknowledged (project no. 172061).
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Radulović, N.S., Zlatković, D.B. n-Octyl esters of long-chain fatty acids are not anthropogenic pollution markers. Environ Chem Lett 12, 303–312 (2014). https://doi.org/10.1007/s10311-013-0443-1
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DOI: https://doi.org/10.1007/s10311-013-0443-1