Plant Soil Environ., 2005, 51(11):506-512 | DOI: 10.17221/3624-PSE

Phenolic compounds as chemical markers of low taxonomic levels in the family Poaceae

V. Míka1, V. Kubáň2, B. Klejdus2, V. Odstrčilová1, P. Nerušil1
1 ResearchInstitute of Crop Production, Prague-Ruzyně, Research Station of Grassland Ecosystems, Jevíčko, Czech Republic
2 Mendel University of Agriculture and Forestry in Brno, Czech Republic

The spectra of non-structural phenolics in herbage were used to study genetic affinity in polyploid complex of Dactylis L., next in complex of octoploid brome species, and in red fescue cultivar collection. The diploid (2n = 14) subspecies of Dactylis revealed distinct differences from the tetraploid (2n = 28) ones as a clearly specialized group. In the genus Bromus the affinity bounds of the species inside the section (e.g. Ceratochloa) were not very tight in comparison to those between the species from various sections. Also remarkable differences in affinity bonds among red fescue cultivars were determined. Although the conclusions are only based on the results from one year and two sites, they bring significant information on exploitation of phenolic compounds. They demonstrate that phenolic profiles could be used in chemical taxonomy of grasses also at low taxonomic levels as a useful marker. As they are environmentally not as stable as the markers of primary metabolism, plant material for analyses should be standardized as to growing condition, growth stages of plants etc.

Keywords: phytochemistry; non-structural phenolic compounds; grasses; chemotaxonomy; plant taxonomy; secondary metabolites

Published: November 30, 2005  Show citation

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Míka V, Kubáň V, Klejdus B, Odstrčilová V, Nerušil P. Phenolic compounds as chemical markers of low taxonomic levels in the family Poaceae. Plant Soil Environ. 2005;51(11):506-512. doi: 10.17221/3624-PSE.
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    References

    1. Casler M.D., Pedersen J.F., Eizenga G.C., Stratton S.D. (1996): Germplasm and cultivar development. In: Moser L.E. et al. (eds.): Cool-season forage grasses. American Society of Agronomy (Madison, Wisconsin): 413-469. Go to original source...
    2. Chesson A., Stewart C.S., Wallace R.J. (1982): Influence of plant phenolic acids on growth and cellulolytic activity of rumen bacteria. Applied and Environmental Microbiology, 44: 597-610. Go to original source... Go to PubMed...
    3. Croteau R., Kutchan T.M., Lewis N.G. (2000): Natural products (secondary metabolites). In: Buchanan B. et al. (eds): Biochemistry and molecular biology of plants. American Society of Plant Physiologists (Rockville, Madison): 1250-1318.
    4. Di Stephano R. (1996): Metodi chimici nella caratterizzazione varietale. Rivista di Viticoltura e di Enologia, 1: 51-56.
    5. Dostál J. (1989): New flora Czechoslovakia. Academia, Praha. Vol. 1, 2. (In Czech)
    6. Frey L. (1996): Chemotaxonomy of the genus Trisetum (Poaceae) in Poland. Fragmenta Floristica et Geobotanica, 41: 537-540.
    7. Hubáček J., Lachman J. (1977): Chemotaxonomic study of selected barley varieties (Hordeum sativum L.). Rostlinná výroba, 23: 151-158. (In Czech)
    8. Jay M., Reynaud J., Raymond O., Grossi C. (1996): Les composés phénoliques et la caractérisation des niveaus taxonomiques inférieurs du monde végétal. Acta Botanica Gallica, 143: 481-491. Go to original source...
    9. Loffler C., Czygan F.C., Proksch P. (1997): Phenolic constituents as taxonomic markers in the genus Cuscuta (Cuscutaceae). Biochemical Systematics and Ecology, 25: 297-303. Go to original source...
    10. Lumaret R. (1988): Cytology, genetics, and evolution in the genus Dactylis. CRC Critical Reviews in Plant Science, 7: 55-91. Go to original source...
    11. Míka V., Cagaš B., Fiala J., Kohoutek A., Komárek P., Nerušil P., Odstrčilová V. (2002): Morphogenesis of grasses. VÚRV, Praha. (In Czech)
    12. Míka V., Gaisler J., Kalač P., Klejdus B., Kohoutek A., Komárek P., Kubáň V., Odstrčilová V., Pozdíšek J. (2001): Phenolic compounds in meadow plants. VÚRV, Praha. (In Czech)
    13. Míka V., Kubáň V., Klejdus B., Odstrčilová V., Nerušil P. (2004): Study of genetic diversity in Dactylis L. regarding phenolic spectra. In: Lüscher A. et al. (eds.): Grassland Science in Europe Lucern, 9: 416-418.
    14. Stebbins G.L. (1981): Chromosomes and evolution in the genus Bromus, Gramineae. Botanisch Jahrbuch System, 102: 359-380.

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