Study of radioprotective properties of potassium humate in gamma irradiated wheat seedlings

Автор: Muslumova Z.H., Mammadli S.A., Farajov M.F.

Журнал: Журнал стресс-физиологии и биохимии @jspb

Статья в выпуске: 3 т.18, 2022 года.

Бесплатный доступ

The radioprotective properties of potassium humate were studied under model conditions. The growth dynamics of wheat seedlings treated with 0.01%, 0.001% and 0.001% solutions of potassium humate both before and after γ-irradiation at a dose of 200 Gy was studied. A positive effect of potassium humate solutions on the activity of catalase, the amount of malondialdehyde, chlorophyll pigments and carotenoids, fluorescent characteristics (the maximum quantum yield of PSII (photosystem II) in seedlings obtained from gamma-irradiated wheat seeds was revealed.

Wheat seedling, γ-irradiation, lipid peroxidation, potassium humate, malondialdehyde, seed germination

Короткий адрес: https://sciup.org/143179057

IDR: 143179057

Список литературы Study of radioprotective properties of potassium humate in gamma irradiated wheat seedlings

Beyer, L., Sieling K., Pingpank K. (1999). The impact of a low humus level in arable soils on microbial proper-ties, soil organic matter quality and crop yield. Biology and Fertility of Soils, 28, 156-161.
Costa H., Gallego S.M., Tomaro M.L. (2002). Effect of radiation on antioxidant defense system in sunflower cotyledons. Plant Science. 162(6), 939945
Hanan M. Abou-Zeid and Salwa A. Abdel-Latif (2014). Effects of gamma irradiation on biochemical and antioxidant defense system in wheat (Triticumaestivum L.) seedlings. International Journal of Advanced Research, 2(8), 287-300.
Holman H. Y., Nieman, K., Sorensen, D. L., Miller, C. D., Martin, M. C., Borch, T., et al. (2002), Catalysis of PAH biodegradation by humic acid shown in synchrotron infrared studies. Environmental Science& Technology, 1276-1280.
Kalaji H. M., Schansker G., Ladle R. J. et al. (2014). Frequently asked questions about in vivo chlorophyll fluorescence: practical issues Photosynth. Res. 122. 121-158.
Khristeva L.A. (1951), The role of humic acid in plant nutrition and humic fertilizers. Proceedings of the Soil Institute. V.V. Dokuchaeva, Academy of Sciences of the USSR, 38, 108-184
Loewen, P. C., Switala, J., Triggs-Raine, B. L. (1985). Catalases HPI and HPII in Escherichia coli are induced independently. Arch. Biochem. Biophys. 243, 144-149
MacCarthy P., (1990) C.E. Clapp, R.L. Malcolm and P.R. Bloom Eds. Humic Substances in Soil and Crop Sciences: Selected Readings. p. 111 - 187
Maslova N.F., Nyutin Yu.I. (1973), Optical properties of tomato leaves grown from irradiated seeds Physiology and biochemistry of cultivated plants, 5, (4), 407-410
Min Jeong Hong et al. (2014) The effects of chronic gamma irradiation on oxidative stress response and the expression of anthocyanin biosynthesis-related genes in wheat (Triticumaestivum) Int J Radiat Biol. 1218-1228.
Montiller J.L., Cacas J.L. (2004). The upstream oxylipin profile of Arabidopsis thaliana: A tool to scan for oxidative stresses. Plant J. 40. 439-450.
Murchie E. H., Lawson T. (2013). Chlorophyll uorescence analysis: A guide to good practice and understanding some new applications J. Exp. Bot. 64(13). 3983-3998.
Muslimova Z.Kh., Farajov M.F., Mammadli S.A. (2014) Influence of humates Na, K, Fe on the antioxidant system of gamma irradiated wheat seeds. Conf. Plant physiology is the theoretical basis of innovative agro and phytobiotechnologies. Kaliningrad. p. 300-302.
Muslimova Z, Azizov I, Faracov M. (2013). Effect of ionizing radiation on pigment content and photochemical activity of chloroplasts in maize (zea mays L.) leaves at partipication of humin comlexes. Inernatinal conference Photosynthesis research for sustainability. Baku. p.111
Schreiber U. (2004). Pulse-Amplitude (PAM) fluorometry and saturation pulse method In: Papageorgiou G and Govindjee (eds) Chlorophyll fluorescence: A signature of Photosynthesis. Springer, Dordrecht p.279-319.
Stevenson F.J. (1982). Humus Chemistry, Genesis, Composition, Reactions - New York: John Wiley&Son, p. 443
Van Stempvoort D. R., Lesage, S., Molson J. (2005). The Use of Aqueous Humic Substances for In-Situ Remediation of Contaminated Aquifers. The Use of Humic Substances to Remediate Polluted Environments: From Theory to Practice, p.135-154
Zenkov N. K. (1993). Activated oxygen metabolites in biological systems Successes of modern biology. 3. 286-290.

Еще

Статья научная