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Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology
Official Journal of the Societa Botanica Italiana
Volume 156, 2022 - Issue 2
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Articles

Diversity of nonacosan-10-ol and n-alkanes among 12 Pinus taxa

Biljana M. Nikolica Institute of Forestry, Belgrade, SerbiaCorrespondence[email protected]
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Iris Đorđevićb Faculty of Veterinary Medicine, University of Belgrade, Belgrade, SerbiaView further author information
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Marina Todosijevicc Faculty of Chemistry, University of Belgrade, Belgrade, SerbiaView further author information
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Zorica Miticd Faculty of Sciences and Mathematics, Department of Biology and Ecology, University of Niš, Niš, SerbiaView further author information
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Milena A. Stefanoviće Department of Ecology, Institute for Biological Research ‘Siniša Stankovi’, University of Belgrade, Belgrade, SerbiaView further author information
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Jovana M. Stankovicf Laboratory of Chemistry, Institute for Chemistry, Technology and Metallurgy, University of Belgrade, Belgrade, SerbiaView further author information
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Srdjan Bojovićg Institute for Biological Research, Belgrade, SerbiaView further author information
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Vele Teševićc Faculty of Chemistry, University of Belgrade, Belgrade, SerbiaView further author information
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Petar D. Marinh Faculty of Biology, Institute of Botany and Botanical Garden ‘Jevremovac’, University of Belgrade, Belgrade, SerbiaORCID Iconhttps://orcid.org/0000-0002-9460-1012View further author information
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Pages 330-337 | Received 15 Jun 2020, Accepted 17 Nov 2020, Published online: 24 Dec 2020

References

  • Bargel H, Koch K, Cerman Z, Neinhuis C. 2006. Evans review no. 3: structure–function relationships of the plant cuticle and cuticular waxes – a smart material. Funct Plant Biol. 33(10):893–910.
  • Bojović S, Šarac Z, Nikolić B, Tešević V, Todosijević M, Veljić M, Marin PD. 2012. Composition of n-alkanes in natural populations of Pinus nigra from Serbia – chemotaxonomic implications. Chem Biodiv. 9(12):2761–2774.
  • Bowman RN. 1980. Phylogenetic implications from cuticular wax analyses in Epilobium sect. Zauschneria (Onagraceae). Am J Bot. 67(5):671–685.
  • Bray EE, Evans ED. 1961. Distribution of n-paraffins as a clue to recognition of source beds. Geochim Cosmochim Acta. 22(1):2–15.
  • Cameron KD, Teece MA, Bevilacqua E, Lawrence B. 2002. Diversity of cuticular wax among Salix species and Populus species hybrids. Phytochemistry. 60(7):715–725.
  • Corrigan D, Timoney RF, Donnelly DMX. 1978. n-Alkanes and ω– hydroxyalkanoic acids from the needles of twenty-eight Picea species. Phytochemistry. 17(5):907–910.
  • Dodd RS, Poveda MM. 2003. Environmental gradients and population divergence contribute to variation in cuticular wax composition in Juniperus communis. Biochem Syst Ecol. 31(11):1257–1270.
  • Erosa FE, Gamboa-León MR, Lecher JG, Arroyo-Serralta GA, Zizumbo-Villareal D, Oropeza-Salín C, Peña-Rodríguez L. 2002. Major components from the epicuticular wax of Cocos nucifera. Revista de la Sociedad Química de México. 46:247–250.
  • Farjon A. 2001. World checklist and bibliography of conifers. 2nd ed. Richmond: Royal Botanic Gardens, Kew.
  • Franich RA, Wells LG. 1980. Inhibition of Pinus radiata primary needle epicuticular wax biosynthesis by trichloracetate. J Exp Bot. 31(3):829–838.
  • Gellini R, Pantani F, Grossoni P, Bussotti F, Barbolani E, Rinallo C. 1985. Further investigation on the causes of disorder of the coastal vegetation in the park of San Rossore (central Italy). Forest Pathol. 15(3):145–157.
  • Gernandt DS, Geada López G, Ortiz García S, Liston A. 2005. Phylogeny and classification of Pinus. Taxon. 54(1):29–42.
  • Gordon DC, Percy KE. 1999. Effect of UV – B dose on biosynthesis of epicuticular waxes in blue spruce (Picea pungens Engelmann.) primary needles: preliminary investigation. WASP. 116:429–436.
  • Günthardt-Goerg MS. 1986. Epicuticular wax of needles of Pinus cembra, Pinus sylvestris and Picea abies. Eur J Forest Pathol. 16:400–408.
  • Herbin GA, Robins PA. 1968. Studies on plant cuticular waxes – III. The leaf wax alkanes and ω–hydroxy acids of some members of the Cupressaceae and Pinaceae. Phytochemistry. 7(8):1325–1337.
  • Holmes MG, Keiller DR. 2002. Effects of pubescence and waxes on the reflectance of leaves in the ultraviolet and photosynthetic wavebands: a comparison of a range of species. Pl Cell Environ. 25(1):85–93.
  • Kerfourn C, Garrec JP. 1992. Modifications in the alkane composition of cuticular waxes from spruce needles (Picea abies) and ivy leaves (Hedera helix) exposed to ozone fumigation and acid fog: comparison with needles from declining spruce trees. Can J Bot. 70(4):861–869.
  • Knight TG, Wallwork MAB, Sedgley M. 2004. Leaf epicuticular wax and cuticle ultrastructure of four Eucalyptus species and their hybrids. Int J Plant Sci. 165(1):27–36.
  • Kuhn TK, Krull A, Bowater A, Grice K, Gleixner G. 2010. The occurrence of short chain n-alkanes with an even over odd predominance in higher plants and soils. Org Geochem. 41(2):88–95.
  • Kundu S, Sinhababu A. 2013. Analysis of n-alkanes in the cuticular wax of leaves of Ficus glomerata. JANS. 5(1):226–229.
  • Kunst L, Samuels AL. 2003. Biosynthesis and secretion of plant cuticular wax. Prog Lipid Res. 42(1):51–80.
  • Le Maitre DC. 1998. Pines in cultivation: a global view. In: Richardson DM, editor. Ecology and biogeography of Pinus. Cambridge: Cambridge University Press; p. 407–431.
  • Lockheart MJ, Poole I, Van Bergen PF, Evershed RP. 1998. Leaf carbon isotope compositions and stomatal characters: important considerations for palaeoclimate reconstructions. Org Geochem. 29(4):1003–1008.
  • Lütz C, Heinzmann U, Gulz PG. 1990. Surface and epicuticular wax composition of spruce needles after long-term treatment with ozone and acid mist. Environ Pollut. 64(3–4):313–326.
  • Maffei M. 1994. Discriminant analysis of leaf wax alkanes in the Lamiaceae and four other plant families. Biochem Syst Ecol. 22(7):711–728.
  • Maffei M. 1996a. Chemotaxonomic significance of leaf wax alkanes in the compositae. In: Hind DJN, Beentje HJ, editors. Compositae: systematics. Proceedings of the International Compositae Conference. Kew: Royal Botanic Gardens. Vol. 1, p. 141–158.
  • Maffei M. 1996b. Chemotaxonomic significance of leaf wax n-alkanes in the Umbelliferae, Cruciferae and Leguminosae (Subf. Papilionoideae). Biochem Syst Ecol. 24(6):531–545.
  • Maffei M, Badino S, Rossi S. 2004. Chemotaxonomic significance of leaf wax n-alkanes in the Pinales (Coniferales). J Biol Res. 1:3–19.
  • Matas AJ, Sanz MJ, Heredia A. 2003. Studies on the structure of the plant wax nonacosan-10-ol, the main component of epicuticular wax conifers. Int J Biol Macromol. 33(1–3):31–35.
  • Mazurek MA, Simoneit BRT. 1997. Higher molecular weight terpenoids as indicators of organic emissions from terrestrial vegetation. In: Eganhouse RP, editor. Molecular markers in environmental geochemistry. ACS Symposium Series 671. Washington (DC): American Chemical Society. Chapter 7; p. 92–108.
  • Medina E, Aguiar G, Gomez M, Aranda J, Medina JD, Winter K. 2006. Taxonomic significance of the epicuticular wax composition in species of the genus Clusia from Panama. Biochem Syst Ecol. 34(4):319–326.
  • Mimura MRM, Salatino MLF, Salatino A, Baumgratz JFA. 1998. Alkanes from epicuticular waxes of Huberia species: taxonomic implications. Biochem Syst Ecol. 26(5):581–588.
  • Mitić ZS, Nikolić JS, Zlatković BK, Milanovici SJ, Jovanović SČ, Nikolić BM, Stojanović GS, Marin PD. 2018a. Epicuticular waxes provide insights into phytochemical differentiation of natural populations of Pinus mugo Turra sensu stricto. C&B. 15(12):e1800378.
  • Mitić ZS, Zlatković BK, Jovanović SČ, Nikolić JS, Nikolić BM, Stojanović GS, Marin PD. 2018b. Diversity of needle n-alkanes, primary alcohols and diterpenes in Balkan and Charpatian native populations of Pinus nigra J.F. Arnold. Biochem Syst Ecol. 80:46–54.
  • Nikolić B, Kovačević D, Mladenović Drinić S, Nikolić A, Mitić Z, Bojović S, Marin PD. 2018a. Relationships among some pines from subgenera Pinus and Strobus revealed by nuclear EST-microsatellites. Genetika Belgrade 50(1):69–84.
  • Nikolić B, Tešević V, Bojović S, Marin PD. 2013a. Chemotaxonomic implications of n-alkanes composition and nonacosan-10-ol content in Picea omorika, Pinus heldreichii and P. peuce. Chem Biodiv. 10(4):677–686.
  • Nikolić B, Tešević V, Đorđević I, Jadranin M, Todosijević M, Bojović S, Marin PD. 2010. n–alkanes in needle waxes of Pinus heldreichii var. pančići. J Serb Chem Soc. 75:1337–1346.
  • Nikolić B, Tešević V, Đordđević I, Todosijević M, Jadranin M, Bojović S, Marin PD. 2012a. Chemodiversity of nonacosan-10-ol and n-alkanes in the needle wax of Pinus heldreichii. Chem Biodiv. 9(1):80–90.
  • Nikolić B, Tešević V, Đorđević I, Todosijević M, Jadranin M, Bojović S, Marin PD. 2012b. Population variability of nonacosan-10-ol and n-alkanes in needle cuticular waxes of Macedonian pine (Pinus Peuce Griseb). Chem Biodiv. 9(6):1155–1165.
  • Nikolić B, Tešević V, Đorđević I, Todosijević M, Jadranin M, Bojović S, Marin PD. 2013b. Variability of n-alkanes and nonacosan-10-ol in natural populations of Picea omorika. Chem Biodiv. 10(3):473–483.
  • Nikolić B, Todosijević M, Ratknić M, Đorđević I, Stanković J, Cvetković M, Tešević V, Marin PD. 2018b. Terpenes and n-alkanes in needles of Pinus cembra. Nat Prod Commun. 13:1035–1037.
  • Nikolić BM, Mitić ZS, Tešević VV, Đorđević IŽ, Todosijević MM, Bojović SR, Marin PD. 2018c. Chemotaxonomic considerations of the n-alkane composition in Pinus heldreichii, P. nigra and P. peuce. Chem Biodiversity. 15(9):e1800161.
  • Oros DR, Standley LJ, Chen X, Simoneit BRT. 1999. Epicuticular wax compositions of predominant conifers of western North America. Z. Naturforsch. 54c. 54(1–2):17–124.
  • Poynter JG, Eglinton G. 1990. Molecular composition of three sediments from hole 717C: the Bengal Fan. In: Cochran JR, Stow DAV, editors. Proceedings of the Ocean Drilling Program Scientific Results 116; p. 155–161.
  • Racovita RC, Jetter R. 2016. Identification of in-chain-functionalized compounds and methyl-branched alkanes in cuticular waxes of Triticum aestivum cv. Plos One . 11(11):e0165827.
  • Rajčević N, Janaćković P, Bojović S, Tešević V, Marin PD. 2013. Variability of the needle essential oils of Juniperus deltoides R.P. Adams from different populations in Serbia and Croatia. Chem Biodiv. 10(1):144–156.
  • Richardson DM, Rundel PW. 1998. Ecology and biogeography of Pinus: an introduction. In: Richardson DM, editor. Ecology and biogeography of Pinus. Cambridge: Cambridge University Press; p. 3–46.
  • Sauter JJ, Voß J-U. 1986. SEM – observations on the structural degradation of epistomatal waxes in Picea abies (L.) Karst. – and its possible role in the Fichtensterben. Forest Pathol. 16(7):408–423.
  • Teece MA, Zengeya T, Volk TA, Smart LB. 2008. Cuticular wax composition of Salix varieties in relation to biomass productivity. Phytochemistry. 69(2):396–402.

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