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2013 | 27 | 4 |
Tytuł artykułu

Effect of electromagnetic stimulation of alfalfa seeds

Treść / Zawartość
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In the conducted experiments the effect of presowing He-Ne laser light, magnetic field stimulation or the combination of these two factors of alfalfa seeds on the field emergence, structure and yields in the year of sowing and during three following years of full land use were studied. The examined factors had a significant effect on the number of shoots per 1 m2, plant height, mass of shoots, fresh and dry mass. Electromagnetic stimulation resulted in a significant increase in alfalfa seeds emergence (from 35% – control to 47.8% – magnetic field), number of shoots per 1m2 (from 608 – control to 813 – laser light in cut), but a decrease of the mass of the shoots (from 0.61 g – control to 0.50 g – laser light).
Słowa kluczowe
Wydawca
-
Rocznik
Tom
27
Numer
4
Opis fizyczny
p.391-401,fig.,ref.
Twórcy
autor
  • Department of Plant Production Technology and Commodity, University of Life Sciences, Akademicka 15, 20-950 Lublin, Poland
  • Department of Physics, University of Life Sciences, Akademicka 13, 20-950 Lublin, Poland
Bibliografia
  • Aladjadjiyan A., 2007. The use of physical methods for plant growing stimulation in Bulgaria. J. Central Eur. Agric., 8(3), 369-380.
  • Azharonok V.V., Goncharik S.V., Filatova I.I., Shik A.S., and Antonyuk A.S., 2009. The effect of the high frequency electromagnetic treatment of the sowing material for legumes on their sowing quality and productivity. Surface Eng. Appl. Electrochem., 45, 318-328.
  • Balouchi H.R., and Modarres Sanavy S.A.M., 2009. Electromagnetic field impact on annual medics and dodder seed germination. Int. Agrophys., 23, 111-115.
  • Central Statistical Office, 2011. Branch Yearbooks. Statistical Yearbook of Agriculture, Warsaw, Poland.
  • Æwintal M., Dziwulska-Hunek A., and Wilczek M., 2010. Laser stimulation effect of seeds on quality of alfalfa. Int. Agrophys., 24, 15-19.
  • Æwintal M. and Olszewski J., 2007. Influence of pre-sowing laser stimulation of seeds on photosynthesis and transpiration intensity and on yielding of alfalfa (in Polish). Acta Agrophysica, 147, 345-352.
  • Dziwulska A., Wilczek M., and Æwintal M., 2006. Effect of laser stimulation on crop yield of alfalfa and hybrid alfalfa studied in years of full land use (in Polish). Acta Agrophysica, 133, 327-336.
  • Hernandez A.C., Dominguez P.A., Cruz O.A., Ivanov R., Carballo C.A., and Zepeda B.R., 2010. Laser in agriculture. Int. Agrophys., 24, 407-422.
  • Koper R., and Dygda³a Z., 1993. Appliance for pre-sowing laser light treatment of seeds (in Polish). Patent UPRP, No. 162598, WUP No. 12, 1111.
  • Kordas L., 2002. The effect of magnetic filed on growth, development and the yield of spring wheat. Polish J. Environ. Stud., 11, 527-530.
  • Martinez E., Flórez M., Maqueda R., Carbonell M.V., and Amaya J.M., 2009. Pea (Pisum sativum L.) and lentil (Lens culinaris Medik) growth stimulation due to exposure to 125 and 250 mT stationary fields. Polish J. Environ. Stud., 18, 657-663.
  • Pembleton K.G., Donaghy D.J., Volenec J.J., Smith R.S., and Rawnsley R.P., 2010. Yield, yield components and shoot morphology of four contrasting lucerne (Medicago sativa) cultivars grown in three cool temperate environments. Crop Pasture Sci., 61, 503-511.
  • Petkova D. and Panayotova G., 2007. Comparative study of Trifoliolate and Multifoliolate alfalfa (Medicago sative L.) synthetic populations. Bulgarian J. Agric. Sci., 13, 221-224.
  • Pietruszewski S., 2003. Electromagnet (in Polish). Utility model UPRP Protection rights No. 59863, WUP No. 7, 1077.
  • Pietruszewski S. and Gruszecka D., 2003. Influence of magnetic field on field seeds and mechanical properties of some types of cereals (in Polish). Acta Agrophysica, 82, 159-164.
  • Pietruszewski S. and Kania K., 2010. Effect of magnetic field on germination and yield of wheat. Int. Agrophys., 24, 297-302.
  • Radoviæ J., Sokoloviæ D., and Markociæ J., 2009. Alfalfa – most important perennial forage legume in animal husbandry. Biotechnol. Animal Husbandry, 25, 465-475.
  • Stanisavijeviæ R., Ðjukiæ D., Milenkoviæ J., Radoviæ J., Lugiæ Z., and Stevoviæ V., 2006. Effect of cultivars and cuts on production and quality of alfalfa (Medicago sativa L.). Biotechnol. Animal Husbandry, 22, 781-790.
  • StanisavijeviæR., Milenkoviæ J., ÐokiæD., Terziæ D.,Markoviæ J., Bekoviæ D., and Djukanoviæ L., 2011. Effect of crop density on yield and quality of alfalfa forage from combined use (forage-seed). Biotechnol. Animal Husbandry, 27, 1571-1578.
  • Vasilevski G., 2003. Perspectives of the application of biophysical methods in sustainable agriculture. Bulg. J. Pant Physiol., Special Issue, 179-186.
  • Yinan Y., YuanL., Yongqing Y., and Chunyang L., 2005. Effect of seed pretreatment by magnetic field on the sensitivity of cucumber (Cucumis sativus) seedlings to ultraviolet-B radiation. Environ. Exp. Botany, 54, 286-294.
  • Zając T., Stok³osa A., Klimek A., and Thier M., 2007. Lucerne (Medicago sp.) morphological traits and agricultural properties determining yielding and chemical composition (in Polish). Advances in Agric. Sci., 4, 35-56.
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