163

Magneto-Priming: A Novel Technique Towards Improved Seed Germinability

Leelapriya, T., Dhilip, K., & Sanker, N. P., (2003). Effect of weak sinusoidal magnetic field

on germination and yield of cotton (Gossypium spp.). Electromagn. Biol. Med., 22(2, 3),

117–125.

Liboff, A., Cherng, S., Jenrow, K., & Bull, A., (2003). Calmodulindependent cyclic nucleotide

phosphodiesterase activity is altered by 20 μT magnetostatic fields. Bio ELectromagn.,

24(1), 32–38.

Maffei, M. E., (2014). Magnetic field effects on plant growth, development, and evolution.

Front. Plant Sci., 5, 445.

Mahajan, T. S., & Pandey, O. P., (2014). Magnetic-time model at off-season germination. Int.

Agrophys., 28(1), 57–62.

Maheshwari, B. L., & Grewal, H. S., (2009). Magnetic treatment of irrigation water: Its effects

on vegetable crop yield and water productivity. Agric. Water Manag., 96(8), 1229–1236.

Menegatti, R. D., De Oliveira, L. O., Da Costa, Á. V. L., Braga, E. J. B., & Bianchi, V. J.,

(2019). Magnetic field and gibberellic acid as pre-germination treatments of passion fruit

seeds. Rev. Ciênc. Agríc., 17(1), 15–22.

Messner, K. R., & Imlay, J. A., (2002). Mechanism of superoxide and hydrogen peroxide

formation by fumarate reductase, succinate dehydrogenase, and aspartate oxidase. J. Biol.

Chem., 277(45), 42563–42571.

Mohammadi, R., & Roshandel, P., (2020). Ameliorative effects of a static magnetic field on

hyssop (Hyssopus officinalis L.) growth and phytochemical traits under water stress. Bio

ELectromagn., 41(6), 403–412.

Morohashi, Y., (2002). Peroxidase activity develops in the micropylar endosperm of tomato

seeds prior to radicle protrusion. J. Exp. Bot., 53(374), 1643–1650.

Mridha, N., Chattaraj, S., Chakraborty, D., Anand, A., Aggarwal, P., & Nagarajan, S., (2016).

Presowing static magnetic field treatment for improving water and radiation use efficiency

in chickpea (Cicer arietinum L.) under soil moisture stress. Bio ELectromagn., 37(6),

400–408.

Mroczek-Zdyrska, M., Tryniecki, Ł., Kornarzyński, K., Pietruszewski, S., & Gagoś, M.,

(2021). Influence of magnetic field stimulation on the growth and biochemical parameters

in Phaseolus vulgaris L. J. Microbiol. Biotechnol. Food Sci., 2021, 548–551.

Müller, K., Linkies, A., Vreeburg, R. A., Fry, S. C., Krieger-Liszkay, A., & Leubner-Metzger,

G., (2009). In vivo cell wall loosening by hydroxyl radicals during cress seed germination

and elongation growth. Plant Physiol., 150(4), 1855–1865.

Munro, D., & Treberg, J. R., (2017). A radical shift in perspective: Mitochondria as regulators

of reactive oxygen species. J. Exp. Biol., 220(7), 1170–1180.

Nanushyan, E., & Murashov, V., (2001). Plant meristem cell response to stress factors of the

geomagnetic field (GMF) fluctuations. Plant. Environ. Stress, 204, 205.

Naz, A., Jamil, Y., Iqbal, M., Ahmad, M. R., Ashraf, M. I., & Ahmad, R., (2012). Enhancement

in the germination, growth and yield of okra (Abelmoschus esculentus) using pre-sowing

magnetic treatment of seeds. Indian J. Biochem. Biophys., 49(3), 211–214.

Noran, R., Shani, U., & Lin, I., (1970). The effect of irrigation with magnetically treated water

on the translocation of minerals in the soil. Magn. Electr. Separ., 7, 109–122.

Nossol, B., Buse, G., & Silny, J., (1993). Influence of weak static and 50 Hz magnetic fields

on the redox activity of cytochromeC oxidase. Bio ELectromagn., 14(4), 361–372.

Novitskaya, G., Molokanov, D., Kocheshkova, T., & Novitskii, Y. I., (2010). Effect of weak

constant magnetic field on the composition and content of lipids in radish seedlings at

various temperatures. Russ. J. Plant Physiol., 57(1), 52–61.