165

Magneto-Priming: A Novel Technique Towards Improved Seed Germinability

Ramesh, B., Kavitha, G., Gokiladevi, S., Balachandar, R. K., Kavitha, K., Gengadharan, A. C.,

& Puvanakrishnan, R., (2020). Effect of extremely low power timevarying electromagnetic

field on germination and other characteristics in foxtail millet (Setaria italica) seeds. Bio

ELectromagn., 41(7), 526–539.

Rathod, G. R., & Anand, A., (2016). Effect of seed magnetopriming on growth, yield and

Na/K ratio in wheat (Triticum aestivum L.) under salt stress. Indian J. Plant Physiol., 21(1),

15–22.

Razmjoo, J., & Alinian, S., (2017). Influence of magnetopriming on germination, growth,

physiology, oil and essential contents of cumin (Cuminum cyminum L.). Electromagn. Biol.

Med., 36(4), 325–329.

Reina, F. G., & Pascual, L. A., (2001). Influence of a stationary magnetic field on water

relations in lettuce seeds. Part I: Theoretical considerations. Bio ELectromagn., 22(8),

589–595.

Rochalska, M., & Orzeszko-Rywka, A., (2005). Magnetic field treatment improves seed

performance. Seed Sci. Technol., 33(3), 669–674.

Ružič, R., & Jerman, I., (2002). Weak magnetic field decreases heat stress in cress seedlings.

Electromagn. Biol. Med., 21(1), 69–80.

Sahebjamei, H., Abdolmaleki, P., & Ghanati, F., (2007). Effects of magnetic field on the

antioxidant enzyme activities of suspensioncultured tobacco cells. Bio ELectromagn.,

28(1), 42–47.

Samani, M. A., Pourakbar, L., & Azimi, N., (2013). magnetic field effects on seed germination

and activities of some enzymes in cumin. Life Sci. J., 10(1), 323–328.

Sarraf, M., Kataria, S., Taimourya, H., Santos, L. O., Menegatti, R. D., Jain, M., Ihtisham,

M., & Liu, S., (2020). Magnetic field (MF) applications in plants: An overview. Plants,

9(9), 1139.

Schopfer, P., (2001). Hydroxyl radical-induced cell wall loosening in vitro and in vivo:

Implications for the control of elongation growth. Plant J., 28(6), 679–688.

Selim, A. F. H., & El-Nady, M. F., (2011). Physio-anatomical responses of drought stressed

tomato plants to magnetic field. Acta Astronaut., 69(7, 8), 387–396.

Sen, A., & Alikamanoglu, S., (2014). Effects of static magnetic field pretreatment with and

without PEG 6000 or nacl exposure on wheat biochemical parameters. Russ. J. Plant

Physiol., 61(5), 646–655.

Shabrangi, A., & Majd, A., (2009). Effect of magnetic fields on growth and antioxidant

systems in agricultural plants. PIERS Proceedings, 23–27.

Shaddad, M., (1990). The effect of proline application on the physiology of Raphanus sativus

plants grown under salinity stress. Biol. Planta, 32(2), 104–112.

Shahin, M., Mashhour, A., & Abd-Elhady, E., (2016). Effect of magnetized irrigation water

and seeds on some water properties, growth parameter and yield productivity of cucumber

plants. Curr. Sci. Int., 5(2), 152–164.

Shine, M., Guruprasad, K., & Anand, A., (2011). Enhancement of germination, growth, and

photosynthesis in soybean by pretreatment of seeds with magnetic field. Bio ELectromagn.,

32(6), 474–484.

Smirnoff, N., & Arnaud, D., (2019). Hydrogen peroxide metabolism and functions in plants.

New Phytol., 221(3), 1197–1214.

Song, W. Y., Zhang, Z. B., Shao, H. B., Guo, X. L., Cao, H. X., Zhao, H. B., Fu, Z. Y., & Hu,

X. J., (2008). Relationship between calcium decoding elements and plant abiotic stress

resistance. Int. J. Biol. Sci., 4(2), 116.