The Effect of Low-Frequency EMI in Laboratory Conditions on Some Physiological Properties of Varieties and Lines of Plants Grown Under Two Different (Normal and Water Deficit) Conditions
Keywords:
Effect of EMI, variety, line, chlorophyll content in seed leaves
Abstract
There are a number of methods for evaluating drought tolerance of plants. One of them is based on the cultivation of seeds in sucrose solutions with high osmotic pressure to simulate physiological water deficit. By determining the percentage (%) of germinated seeds in solutions with high osmotic pressure, it is possible to determine the relative resistance of varieties to drought at the germination stage.
References
1. Medvedev S.S. Plant Physiology: textbook. - St. Petersburg: BHV-Petersburg, 2012. - 512 p.
2. Tonkikh A.K., Makhmurova D.M., Radzhabova G.G. Pre-sowing electromagnetic hardening of cotton seeds increases the salt tolerance of plants. Reports of UzNU. Special volume. 2011. - p. 78-79.
3. Khatamov M.M., Akhmedzhanov I.G., Kurbanbaev I.D., Tonkikh A.K., Usmanov R.M. Induction of cotton resistance to wilt by a low-frequency electromagnetic field. // Reports of UzNU. 2013. No. 4/2. - p. 47-49.
4. Holliev, A. E. Norboeva U. T., Zhabborov B. I. Influence of soil water deficiency on some parameters of water exchange and drought resistance of cotton varieties in the conditions of the Bukhara region // Young scientist. 2015. No. 10 (90). -p. -483-485. URL: https://moluch.ru/archive/90/18465.
5. Chvarkova E.A., Tupitsina L.S. Biological effects in plants under the action of magnetic and electromagnetic fields induced by therapeutic devices. //News of the Samara Scientific Center of the Russian Academy of Sciences. (Samara, Russia). 2015. V.17. No. 5-2. -p. 627-631.
6. Turker M., Temirci C., Battal P., Erez M.E. The Effects of an Artificial and Static Magnetic Field on Plant Growth, Chlorophyll and Phytohormone Levels in Maize and Sunflower Plants// Phyton (Horn, Austria). 2007. V. 46. Fasc. 2. -P. -271-284.
2. Tonkikh A.K., Makhmurova D.M., Radzhabova G.G. Pre-sowing electromagnetic hardening of cotton seeds increases the salt tolerance of plants. Reports of UzNU. Special volume. 2011. - p. 78-79.
3. Khatamov M.M., Akhmedzhanov I.G., Kurbanbaev I.D., Tonkikh A.K., Usmanov R.M. Induction of cotton resistance to wilt by a low-frequency electromagnetic field. // Reports of UzNU. 2013. No. 4/2. - p. 47-49.
4. Holliev, A. E. Norboeva U. T., Zhabborov B. I. Influence of soil water deficiency on some parameters of water exchange and drought resistance of cotton varieties in the conditions of the Bukhara region // Young scientist. 2015. No. 10 (90). -p. -483-485. URL: https://moluch.ru/archive/90/18465.
5. Chvarkova E.A., Tupitsina L.S. Biological effects in plants under the action of magnetic and electromagnetic fields induced by therapeutic devices. //News of the Samara Scientific Center of the Russian Academy of Sciences. (Samara, Russia). 2015. V.17. No. 5-2. -p. 627-631.
6. Turker M., Temirci C., Battal P., Erez M.E. The Effects of an Artificial and Static Magnetic Field on Plant Growth, Chlorophyll and Phytohormone Levels in Maize and Sunflower Plants// Phyton (Horn, Austria). 2007. V. 46. Fasc. 2. -P. -271-284.
Published
2023-09-06
How to Cite
Sh. B. Yuldasheva, & Z. Yu. Ibragimova. (2023). The Effect of Low-Frequency EMI in Laboratory Conditions on Some Physiological Properties of Varieties and Lines of Plants Grown Under Two Different (Normal and Water Deficit) Conditions. Central Asian Journal of Medical and Natural Science, 4(5), 11-16. Retrieved from https://cajmns.casjournal.org/index.php/CAJMNS/article/view/1772
Section
Articles
