[
Aladjadjiyan, A. (2010). Influence of stationary magnetic field on lentil seeds. International Agrophysics. 24(3), 321-324.
]Search in Google Scholar
[
Ćwintal, M., Dziwulska-Hunek, A. and Wilczek, M. (2010). Laser stimulation effect of seeds on quality of alfalfa. International Agrophysics. 24(1), 15–19.
]Search in Google Scholar
[
Dziwulska-Hunek, A., Kornarzyński, K., Matwijczuk, A., Pietruszewski, S.and Szot, B. (2009). Effect of laser and variable magnetic field simulation on amaranth seeds germination. International Agrophysics. 23(3), 229–235.
]Search in Google Scholar
[
Hernandez, A.C., Dominguez, P.A., Cruz, O.A., Ivanov, R., Carballo, C.A. and Zepeda, B.R. (2010). Laser in agriculture. International Agrophysics. 24(4), 407-422.
]Search in Google Scholar
[
Hernandez-Aguilar, C., Dominguez, A., Cruz-Orea, A., Ivanov, R., Carballo-Carballo, A., Zepeda-Bautista, R. and Galindo, L. (2009). Laser irradiation effects on field performance of maize seed genotypes. International Agrophysics. 23(4), 327-332.
]Search in Google Scholar
[
Iqbal, M., Haq, Z.U., Jamil, Y. and Ahmad, M.R. (2012). Effect of presowing magnetic treatment on properties of pea. International Agrophysics. 26(1), 25-31.
]Search in Google Scholar
[
Kiełbasa, P., Dróżdż, T., Nawara, P. and Dróżdż, M. (2017). Wykorzystanie emisji biofotonów do parametryzacji jakościowej produktów spożywczych. Przegląd Elektrotechniczny. 93(1), 153-156.
]Search in Google Scholar
[
Lynikiene, S., Pozeliene, A. and Rutkauskas, G. (2006). Influence of corona discharge field on seed viability and dynamics of germination. International Agrophysics. 20(3), 195-200.
]Search in Google Scholar
[
Mahajan, T. and Pandey, O. (2014). Effect of electric field (at different temperatures) on germination of chickpea seed. African Journal of Biotechnology. 13(1), 61-67.
]Search in Google Scholar
[
Marks, N. and Szecowka, P. (2010). Impact of variable magnetic field stimulation on growth of aboveground parts of potato plants. International Agrophysics. 24(2), 165-170.
]Search in Google Scholar
[
Martínez, E., Carbonell, M., Flórez, M., Amaya, J. and Maqueda, R. (2009). Germination of tomato seeds (Lycopersicon esculentum L.) under magnetic field. International Agrophysics. 23(1), 44-50.
]Search in Google Scholar
[
Matwijczuk, A., Kornarzyński, K. and Pietruszewski, S. (2012). International Agrophysics. 26(3), 271-278.
]Search in Google Scholar
[
Mierzwa-Hersztek, M. et.al. (2019). Assessment of soil quality after biochar application based on enzymatic activity and microbial composition. International Agrophysics. 33, 331-336.
]Search in Google Scholar
[
Muszyński, S. and Gładyszewska, B. (2008). Representation of He-Ne laser irradiation effect on radish seeds with selected germination indices. International Agrophysics. 22(2), 151-157.
]Search in Google Scholar
[
Oziembłowski, M., Dróżdż, M, Kiełbasa, P., Dróżdż, T., Gąsiorski, A., Nawara, P. and Tabor, S. (2017). Ultra słaba luminescencja (USL) jako potencjalna metoda oceny jakości żywności tradycyjnej. Przegląd Elektrotechniczny. 93(12), 131-135.
]Search in Google Scholar
[
Pietruszewski, S. and Kania, K. (2010). Effect of magnetic field on germination and yield of wheat. International Agrophysics. 24(3), 297-302.
]Search in Google Scholar
[
Pietruszewski, S. and Wójcik, S. (2000). Effect of magnetic field on yield and chemical composition of sugar beet root. International Agrophysics. 14(1), 89-92.
]Search in Google Scholar
[
Pietruszewski, S., Kornarzyński, K. and Łacek, R. (2001). Germination of wheat grain in an alternating magnetic field. International Agrophysics. 15(4), 269-271.
]Search in Google Scholar
[
Podleśna, A., Gładyszewska, B., Podleśny, J. and Zgrajka, W. (2015). Changes in the germination process and growth of pea in effect of laser seed irradiation. International Agrophysics. 29(4), 485-492.
]Search in Google Scholar
[
Podleśny, J. (2002). Effect of laser irradiation on the biochemical changes in seeds and the accumulation of dry matter in the faba bean. International Agrophysics. 16(3), 209-213.
]Search in Google Scholar
[
Podleśny, J. and Podleśna, A. (2004). Morphological changes and yield of selected species of leguminous plants under the influence of seed treatment with laser light. International Agrophysics. 18(3), 253–260.
]Search in Google Scholar
[
Podleśny, J., Pietruszewski, S. and Podleśna, A. (2004). Efficiency of the magnetic treatment of broad bean seeds cultivated under experimental plot conditions. International Agrophysics. 18(1), 65–71.
]Search in Google Scholar
[
Podleśny, J., Pietruszewski, S.and Podleśna, A. (2005). Influence of magnetic stimulation of seeds on the formation of morphological features and yielding of the pea. International Agrophysics. 19(1), 61-68.
]Search in Google Scholar
[
Podleśny, J., Misiak, L. and Koper, R. (2001). Concentration of free radicals in faba bean seeds after the pre-sowing treatment of the seeds with laser light. International Agrophysics. 15(3), 185-189.
]Search in Google Scholar
[
Podleśny, J., Misiak, L., Podleśna, A. and Pietruszewski, S. (2005). Concentration of free radicals in pea seeds after pre-sowing treatment with magnetic field. International Agrophysics. 19(3), 243-249.
]Search in Google Scholar
[
Rochalska, M. and Grabowska, K. (2007). Influence of magnetic fields on the activity of enzymes: a- and b-amylase and glutathione S-transferase (GST) in wheat plants. International Agrophysics. 21(2), 185-188.
]Search in Google Scholar
[
Rochalska, M., Grabowska-Topczewska, K. and Mackiewicz, A. Influence of alternating low frequency magnetic field on improvement of seed quality. (2011). International Agrophysics. 25(3), 265-269.
]Search in Google Scholar
[
Rochalska, M., Grabowska, K. and Ziarnik, A. (2009). Impact of low frequency magnetic fields on yield and quality of sugar be. International Agrophysics. 23(2), 163-174.
]Search in Google Scholar
[
Rybiński, W and Garczyński, S. (2004). Influence of laser light on leaf area and parameters of photo-synthetic activity in DH lines of spring barley (Hordeum vulgare L.). International Agrophysics. 18(3), 261-267.
]Search in Google Scholar
[
Rybiński, W. (2000). Influence of laser beams on the variability of traits in spring barley. International Agrophysics. 14(2), 227-232.
]Search in Google Scholar
[
Sacała, E., Demczuk, A., Grzyś, E., Prośba-Białczyk, U. and Szajsner, H. (2012). Impact of presowing laser irradiation of seeds on sugar beet properties. International Agrophysics. 26(3), 295–300.
]Search in Google Scholar
[
Sarkis, J., Boussetta, N., Tessaro, I., Marczak, L. and Vorobiev, E. (2015). Application of pulsed electric fields and high voltage electrical discharges for oil extraction from sesame seeds. Journal of Food Engineering. 153, 20-27.
]Search in Google Scholar
[
Stašelis, A., Duchovskis, P. and Brazaityte, A. (2004). Impact of electromagnetic fields on morphogenesis and physiological indices of tomato. International Agrophysics. 18(3), 277-283.
]Search in Google Scholar
[
Sujak, A., Dziwulska-Hunek, A. and Kornarzyński, K. (2009). Compositional and nutritional values of amaranth seeds after pre-sowing He-Ne laser light and alternating magnetic field treatment. International Agrophysics. 23(1), 81-86.
]Search in Google Scholar
[
Wang, J., Song, H., Song, Z., Lu, Y., Yan Y. and Li F. (2020). Effect of positive and negative corona discharge field on vigor of millet seeds. IEEE Access 8, 50268-50275.
]Search in Google Scholar
[
Wilczek, M., Koper, R., Ćwintal, M. and Korniłłowicz-Kowalska, T. (2004). Germination capacity and the health status of red clover seeds following laser treatment. International Agrophysics. 18(3), 289-293.
]Search in Google Scholar
[
Zepeda, R., Hernandez, C., Suazo, F., Dominguez, A., Cruz, A. and Martínez, E. (2011). Physical characteristics of maize grain and tortilla exposed to electromagnetic field. International Agrophysics. 25(4), 389-393.
]Search in Google Scholar
[
Zepeda-Bautista, R., Hernández-Aguilar, C., Domínguez-Pacheco, A., Cruz-Orea, A., J.J. Godina-Nava, J., and Martínez-Ortíz, E. (2010). Electromagnetic field and seed vigour of corn hybrids. International Agrophysics. 24(3), 329–332.
]Search in Google Scholar