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Vol. 14 No. 2 (2015)

Articles

LASER IRRADIATION EFFECTS ON SCORZONERA (Scorzonera hispanica L.) SEED GERMINATION AND SEEDLING EMERGENCE

Submitted: November 5, 2020
Published: 2015-04-30

Abstract

Laser stimulation is a non-expensive and environmentally safe way of the improving of seeds quality. The objective of the study was to determine the effect of He-Ne laser irradiation on the germination parameters of scorzonera seeds. Seeds were characterized with different quality expressed by germination capacity. Experimental material consisted of 4 lots of scorzonera seeds having initial germination capacity between 50.8 and 93.0%. Seeds were treated with laser He-Ne light of surface power density of 3 mW·cm-2 and the time of exposition of 0 (control), 1, 5, 10 and 30 minutes. After pre-sowing stimulation of seeds the following parameters were estimated: germination energy, germination capacity, mean germination time, speed of germination, hypocotyl length, length of radicle,
fresh and dry weight of seedling, field emergence, mean emergence time and speed of emergence. Pre-sowing laser treatment resulted in increasing of the several parameters such as germination energy, germination capacity, speed of germination, hypocotyl and radicle length, as well as fresh and dry weight of seedlings. Laser light stimulation was the most effective in the case of low quality seeds (initial germination capacity of 50.8%). Irradiation of the seeds belonging to this group also resulted in the increase of the seedling emergence and the speed of emergence.

References

Alexander, M.P., Doijode, S.D. (1995). Electromagnetic field, a novel tool to increase germination and seedling vigour of conserved onion (Allium cepa L.) and rice (Oryza sativa L.) seeds with low viability. Plant Gen. Res. Newslet., 105, 1–5.
Copeland, L.O., McDonald, M.B. (1995). Principles of seed science and technology. 2nd ed., Burgass Publ. Co., Minneapolis, Minnesota.
Ćwintal, M., Dziwulska-Hunek, A. (2013). Effect of electromagnetic stimulation of alfalfa seeds. Int. Agrophys., 27, 391–401.
Drozd, D., Szajsner, H. (2007). Reakcja nasion wybranych odmian ogórka na przedsiewną biostymulację laserową (The reaction of seeds of some cucumber cultivars to pre-sowing laser biostimulation). Roczniki AR w Poznaniu, 383, 455–459.
Dziwulska, A. (2006). Effects of pre-sowing laser stimulation on sowing value of lucerne seeds. Acta Sci. Pol. Technica Agraria, 5, 27–36.
Dziwulska-Hunek, A., Kornarzyński, K., Pietruszewski, S., Szot B., 2009. Effect of laser and variable magnetic field stimulation on amaranth seeds germination. Int. Agrophys., 23, 229–235.
Gładyszewska, B. (2011). Estimation of a laser biostimulation dose. Int. Agrophys., 25, 403–405.
Hampton, J.G., TeKrony, D.M. (1995). Handbook of vigour test methods. ISTA.
Hernandez, A.C., Carballo, C.A., Artola, A., Michtchenko, A. (2006). Laser irradiation effects on maize seed field performance. Seed Sci. Technol., 34, 193–197.
Hernandez, A.C., Dominguez, P.A., Cruz, O.A., Ivanov, R., Carballo, C.A., Zepeda, B.R. (2010). Laser in agriculture. Int. Agrophys., 24, 407–422.
Hoffman, F. (1996). Laser microbeams for the manipulation of plant cells and subcellular structures. Plant Sci., 113, 1–11.
ISTA (2004). International Rules for Seed Testing. International Seed Testing Association, Zürich, Switzerland.
Kelly, G. (2008). Inulin-type prebiotics – a review: part 1. Alternat. Med. Rev., 14(4), 315–329.
Kilian, N., Gemeinholzer, B., Lack, H.W. (2009). Cichorieae – Chapter 24. Systematics, Evolution, and Biogeography of Compositae. International Association for Plant Taxonomy (IAPT), Vienna, 2009.
Koper, R., 1996. Urządzenie do przedsiewnej laserowej biostymulacji nasion metodą ich naświetlania nastawnymi dawkami energii. Patent RP, 296303.
Koper, R., Wójcik, S., Kornas-Czuczwar, B., Bojarska, U. (1996). Effect of the laser exposure of seeds on the yield and chemical composition of sugar beet roots. Int. Agrophys., 10, 103–108.
Krawiec, M., Dziwulska-Hunek, A. (2009). Wpływ przedsiewnej stymulacji laserowej na kiełkowanie nasion grochu (Pisum sativum L.) i wschody polowe. Zesz. Probl. Post. Nauk Roln., 539(1), 359–364.
Maguire, J.D. (1962). Speed of germination – aid in selection and evaluation for seedling emergence and vigor. Crop Sci., 2(2), 176–177.
Muszyński, S., Gładyszewska, B. (2008). Representation of He-Ne laser irradiation effect on radish seeds with selected germination indices. Int. Agrophys., 22 ,151–157.
Nuez, F., Bermejo, J.E.H. (1994). Neglected Crops: 1492 from a Different Perspective, Hernándo Bermejo J.E., León J. (eds). Plant Prod. Protect., ser. 26. FAO, Rome, Italy, 303–332.
Pietruszewski, S. (2002). Wpływ pól magnetycznych i elektrycznych na kiełkowanie nasion wybranych roślin uprawnych . Acta Sci. Pol. Technica Agraria, 1, 75–81.
Podleśny, J., Podleśna, A. (2004). Morphological changes and yield of selected species of leguminous plants under the influence of seed treatment with laser light. Int. Agrophys., 18, 253–260.
Podleśny, J., Stochmal, A. (2004). Wpływ przedsiewnego traktowania nasion światłem laserowym na niektóre procesy biochemiczne i fizjologiczne w nasionach i roślinach łubinu białego i bobiku. Acta Agroph., 4(1), 149–160.
Rochalska, M. (2002a). Pole magnetyczne jako środek poprawy wigoru nasion. Acta Agroph., 62, 103–111.
Rochalska, M. (2002b). Poprawa jakości materiału siewnego za pomocą zmiennego pola magnetycznego. Doświadczenia polowe. Acta Agroph., 62, 113–126.
Roszko, A., Michalik, B. (2002). Wpływ naświetlania laserem na wartość siewną. Zesz. Probl. Post. Nauk Rol., 488, 425–430.
Rybiński, W. (2000). Influence of laser beams on the variability of traits in spring barley. Int. Agrophys, 14, 227–232.
Soliman, A.S.H., Harith, M.A. (2010). Effects of laser biostimulation of germination of Acacia farnesiana (L.) Willd. Acta Hort., 854, 41–50.
Soltani, F., Kashi, A., Arghavani, M. (2006). Effect of magnetic field on Ocimum basilicum seed germination and seedling growth. Acta Hort., 723, 279–282.
Stephens, J.M. (1994). Scorzonera – Scorzonera hispanica L. Fact Sheet HS-664. Florida Cooperative Extension service IFAS, University of Florida, Gainesville Florida.
Sujak, A., Dziwulska-Hunek, A., Kornarzyński, K. (2009). Compositional and nutritional values of amaranth seeds after pre-sowing He-Ne laser light and alternating magnetic field treatment. Int. Agrophys., 23, 81–86.
Sujak, A., Dziwulska-Hunek, A., Reszczyńska, E. (2013). Effect of electromagnetic stimulation on selected Fabaceae Plants. Pol. J. Environ. Stud., 22, 3, 893–898.
Truchliński, J., Wesołowski, M., Koper, R., Dziamba, Sz. (2002). Influence of pre-sowing red light radiation on the content of antinutritional factors, mineral elements and basic nutritional component contents in triticale seeds. Int. Agrophys., 16, 227–230.
Vasilevski, G., Bosev, D. (1997). Results of the effect of the laser light on some vegetables. Acta Hort., 462, 473–476.
Wilczek, M., Koper, R., Ćwintal, M., Korniłłowicz-Kowalska, T. (2005). Germination capacity and heath status of alfalfa seeds after laser treatment. Int. Agrophys., 19, 85–89.

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