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Vol. 19 No. 1 (2020)

Articles

FOLIAR APPLIED BIOPREPARATIONS AS A NATURAL METHOD TO INCREASE THE PRODUCTIVITY OF GARDEN THYME (Thymus vulgaris L.) AND TO IMPROVE THE QUALITY OF HERBAL RAW MATERIAL

DOI: https://doi.org/10.24326/asphc.2020.1.10
Submitted: February 6, 2020
Published: 2020-02-21

Abstract

The aim of this experiment was to determine the effects of three foliar biopreparations applied once or twice (growth stimulant Bio-algeen, fertilizer Herbagreen Basic, and Effective Microorganisms in the form of EM Farming spray) on yield and quality of herbal raw material of organically grown garden thyme (Thymus vulgaris). It was proved that the Bio-algeen had an effect on increasing thyme productivity, whereas Effective Microorganisms had no impact at all on herb yield. The beneficial action of biopreparations was more evident under favorable hydrothermal conditions over the study period than under unfavorable conditions. The biopreparations stimulated an increase in the essential oil content in the thyme herb. Bio-algeen, especially when applied twice, had the greatest positive influence on the quality of raw material, Effective Microorganisms were found to have a smaller effect (positive and negative), whereas Herbagreen Basic had positive effect on thyme yield and essential oil content. The effect of Bio-algeen, and to a lesser extent that of Effective Microorganisms, on the content of natural antioxidants (phenolic acids, polyphenols) in the thyme raw material and, moreover, its impact on free radical scavenging and antioxidant activity should be considered to be a particularly valuable finding. Due to application of the Bio-algeen, herbal raw material characterized by the best health-promoting parameters can be obtained.

References

  1. Bac, S., Koźmiński, C., Rojek, M. (1993). Agrometeorologia. PWN, Warszawa, 32–33.
  2. Bączek-Kwinta, R., Seidler-Łożykowska K. (2004). Cultivars of German chamomile (Chamomilla recutita (L.) Raush) and their resistance to water stress. Acta Physiol. Plant, 26, 142–143.
  3. Bączek-Kwinta, R., Adamska, A., Seidler-Łożykowska, K. (2006). Wzrost części nadziemnych roślin wybranych form rumianku pospolitego pod wpływem suszy glebowej. Folia Hort., 1, 55–60.
  4. Borgen, A., Davanlou, M. (2000). Biological control of common bunt (Tilletia tritici) in organic agriculture. J. Crop Production, 3, 157–171. DOI: 10.1300/J144v03n01_14
  5. Condor, A.F., Perez, P.G., Lokare, Ch. (2006). Effective Microorganisms: Myth or reality. Rev. Peru. Biol., 14(2), 315–320.
  6. Djanaguirman, M., Sheeba, J.A., Devi, D.D., Banguarusamy, U. (2005). Effect of Atonik seed treatment on seedling physiology of cotton and tomato. J. Biol. Sci., 59(2), 163–169. DOI: 10.3923/jbs.2005.163.169
  7. Dobromilska, R., Mikiciuk, M., Gubarewicz, K. (2008). Evaluation of cherry tomato yielding and fruit mineral com-position after using of Bio-algeen S-90 preparation. J. Elem., 13(4), 491–499.
  8. Geneva, M.P., Stancheva, I.V., Boychinova, M.M., Mincheva, N.H., Yonova, P.A. (2010). Effects of foliar fertilization and arbuscular mycorrhizal colonization on Salvia officinalis L. growth, antioxidant capacity, and essential oil composition. J. Sci. Food Agric., 90, 696–702. DOI: 10.1002/jsfa.3871
  9. Heine, H., Eger, H., Kruger, H. (2001). Qualitat und Ertrag von Thymian-Sorten (Thymus vulgaris L.). Gemuse, 9, 25–26.
  10. Higa, T. (1998). Effective Microorganisms, concept and recent advances in technology. Proceedings of the Confer-ence on Effective Microorganisms for a sustainable agriculture and environment. 4th International Conference on Kyusei Nature Farming, Bellingham, Washington, USA, 247–248.
  11. http://www.naturalcrop.com/herbagreen [date of access: 17.12.2018].
  12. Javaid, A. (2006). Foliar application of Effective Microorganisms on pea an alternative fertilizer. Agron. Sustain. Dev., 26, 257–262. DOI: 10.1051/agro:2006024
  13. Kołodziej, B. (2008a). The effect of drip irrigation and Asahi SL application on peppermint yield and quality. Herba Pol., 4, 43–51.
  14. Kołodziej, B. (2008b). The effect plantation establishment method and Atonik application in Goldenrod (Solidago virgaurea L. ssp. virgaurea) cultivation. Acta Sci. Pol. Hort. Cult., 7(3), 33–39.
  15. Król, B. (2009). Wpływ stosowania wybranych nawozów dolistnych oraz stymulatorów wzrostu na plon i jakość surowca tymianku właściwego (Thymus vulgaris L.). Zesz. Probl. Post. Nauk Roln., 542(1), 271–278.
  16. Kwiatkowski, C.A. (2011). The effect of growth stimulators and forecrop on raw material quality and yield of garden thyme (Thymus vulgaris L.). Herba Pol., 57(1), 5–14.
  17. Kwiatkowski, C.A. (2015). Yield and quality of chamomile (Chamomilla recutita L. Rausch.) raw material depending on selected foliar sprays and plant spacing. Acta Sci. Pol. Hort. Cult., 14(1), 143–153.
  18. Kwiatkowski, C.A., Juszczak, J. (2011). The response of sweet basil (Ocimum basilicum L.) to the application of growth stimulators and forecrops. Acta Agrobot., 64(2), 69–76.
  19. Kwiatkowski, C., Kołodziej, B., Woźniak, A. (2013). Yield and quality parameters of carrot (Daucus carota L.) roots depending on growth stimulators and stubble crops. Acta Sci. Pol. Hort. Cult., 12(5), 55–68.
  20. Kwiatkowski, C.A., Haliniarz, M., Kołodziej, B., Harasim, E., Tomczyńska-Mleko, M. (2015). Content of some chemical components in carrot (Daucus carota L.) roots depending on growth stimulators and stubble crops. J. Elem., 20(4), 933–943. DOI: 10.5601/jelem.2014.19.4.812
  21. Kwiatkowski, C.A., Harasim, E., Yakimovich, A., Kołodziej, B., Tomczyńska-Mleko, M. (2018). Evaluation of spent mushroom substrate, mineral NPK fertilization and manure fertilization on chamomile (Chamomilla recutita L. Rausch) yield and raw material quality. Acta Sci. Pol. Hort. Cult., 17(3), 3–16. DOI: 10.24326/asphc.2018.3.1
  22. Kwiatkowski, C.A., Wesołowski, M., Pałys, E., Kraska, P., Haliniarz, M., Nowak, A., Andruszczak, S., Kwiecińska-Poppe, E. (2014). Aspekty proekologicznego gospodarowania w agroekosystemach. Wyd. Perfekta info, Lublin, pp. 165.
  23. Lichtenthaler, H.K., Wellburn, A.R. (1983). Determination of total carotenoids and chlorophylls a and b of leaf extracts in different solvents. Biochem. Soc. Transact., 603, 591–592.
  24. Martyniuk, S., Księżak, J. (2011). Ocena pseudomikrobiologicznych biopreparatów stosowanych w uprawie roślin. Pol. J. Agron., 6, 27–33.
  25. Onofrei, V., Burducea, M., Lobiuc, A., Teliban, G.C., Ranghiuc, G., Robu, T. (2017). Influence of organic foliar ferti-lization on antioxidant activity and content of polyphenols in Ocimum basilicum L. Acta Pol. Pharm., 74(2), 611–615.
  26. Panajatov, N.D., Jevtic, S., Lazic, B. (1997). Sweet pepper response to the application of the plant growth regulator Atonik. Acta Hortic., 462, 197–202.
  27. Polish Pharmacopoeia VI (2002). PTFarm, Warszawa.
  28. Polish Pharmacopoeia VII (2006). PTFarm, Warszawa.
  29. Polish Pharmacopoeia IX (2011). PTFarm, Warszawa.
  30. Przybysz, A., Wrochna, M., Słowiński, A., Gawrońska, H. (2010). Stimulatory effect of Asahi SL on selected plant species. Acta Sci. Pol. Hort. Cult., 9(2), 53–64.
  31. Rey, C. (1993). Selection of thyme (Thymus vulgaris L.). Acta Hort., 344, 404–410.
  32. Shamshad, H.S., Saleem, M.F., Shahid, M. (2001). Effect of different fertilizers and Effective Microorganisms on growth, yield and quality of maize. Int. J. Agric. Biol., 3(4), 378–379.
  33. Shalaby, A.S., Razin, A.M. (1992). Dense cultivation and fertilization for higher yield of thyme (Thymus vulgaris L.). J. Agron. Crop Sci., 168, 243–248.
  34. Singh, A. (2007). Effective Microorganisms. Can. Organ. Grow., 2, 35–36.
  35. Skupień, K., Oszmiański, J. (2007). The effect of mineral fertilization on nutritive value and biological activity of chokeberry fruit. Agr. Food Sci., 16, 46–55. DOI: 10.2137/145960607781635822
  36. Skupień, K., Ochmian, I., Grajkowski, J. (2008). Influence of mineral fertilization on selected physical features and chemical composition of aronia fruit. Acta Agrophys., 11(1), 213–226.
  37. Sulewska, H., Ptaszyńska, G. (2005). Reakcja kukurydzy uprawianej na ziarno na stosowanie preparatów mikro-biologicznych. Pam. Puł., 140, 271–285.
  38. Thompson, J.D., Manicacci, D., Tarayre, M. (1998). Thirty-five years of thyme: a tale of two polymorphisms. Bio-Science, 48(10), 805–815.
  39. Valarini, P.J., Alvarez, M.C.D., Gasco, J.M., Guerrero, F., Tokeshi, H. (2003). Assessment of soil properties by organic matter and EM – microorganisms incorporation. Rev. Bras. Ciênc. Solo, 27, 519–525. DOI: 10.1590/S0100-06832003000300013
  40. Vliet, P.C.J. van, Bloem, J., Goede, R.G.M de (2006). Microbial diversity, nitrogen loss and grass production after addition of Effective Microorganisms (EM) to slurry manure. Appl. Soil Ecol., 32(2), 188–198. DOI: 10.1016/j.apsoil.2005.07.001
  41. Woropaj-Janczak, M., Andrzejewska, J., Skinder, Z. (2011). Reaction of German chamomile (Chamomilla recutita L. Raushert) cultivars to biostimulants and foliar fertilisation. Herba Pol., 57(1), 16–26.
  42. Xu, H. (2000). Effect of a microbial inoculant and organic fertilizers on the growth, photosynthesis and yield of sweet corn. J. Crop Prod., 3, 183–214. DOI: 10.1300/J144v03n01_16

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