PHYSIOLOGICAL SIGNIFICANCE OF MICROELEMENTS IN PLANT LIFE

Abstract

Trace elements are chemical elements that are necessary for the normal functioning of plants and animals and are used by plants and animals in small quantities compared to the main components of nutrition. However, the biological role of microelements is large. All plants without exception need microelements to create enzyme systems - biocatalysts, including the most important ones are iron, manganese, zinc, boron, molybdenum, cobalt and others.

Keywords

Trace element, temir, manganese, rux, boron, molybdenum, cobalt, sucrose, enzyme, intensive, biocime, reaction, catalyst, hemoglabin, citrus.

References

1. FAO. Global network on integrated soil management for sustainable use of salt-affected soils. 2008. http://www.fao.org/ag/agl/agll/spush.
2. Розенцвет О.А., Нестеров В.Н., Богданова Е.С. Структурные и физиолого-биохимические аспек¬ты солеустойчивости галофитов//Физиология растений. - 2017. - Т. 64, № 4. - С. 251-265.
3. Kuznetsov Vl.V., Shevyakova N.I. Polyamines and plant adaptation to saline environments // Desert Plants / Ed. Ramawat K.A. Heidelberg; Dordrecht; London; New York: Springer-Vferlag, 2010.- P. 261-298.
4. Richards R.A. Improving crop production on salt-affected soils: by breeding or manage¬ment? // Exp. Agr. 1995. - 31, 4. - P. 395-408.
5. Zhu J.-K. Plant salt tolerance //In: Trends Plant Sciences, 2001.- vol. 6, nr 2.- Р. 66-71. 9. FAO. High Level Expert Forum-How to Feed the World in 2050, Economic and Social Development, Food and Agricultural Organization of the United Nations, Rome, Italy, 2009.
6. Arzani A. Improving salinity tolerance in crop plants: a biotechnological view// In Vitro Cell Dev Biol Anim: 2008.- 44.- Р. 373-383.
7. Bouwer H. Integrated water management for the 21st century: problems and solutions //J. Irrig. Drain. Eng. 2002.- 28.- Р. 193-202.
8. Isayenkov S.V. Physiological and molecular aspects of salt stress in plants // Cytol. Genet. 2012.- V. 46.- P. 302-318.
9. Flowers T.J., Galal H.K., Bromham L. Evolution of halophytes: multiple origins of salt tolerance in land plant // Funct. Plant Biol. 2010. -V. 37. -P. 604-612.
10. Kholliyev A E, Norboyeva U T, Boltayeva Z A, Adizova Kh R 2020 Ecophysiological effects of water deficiency on cotton varieties //Journal of Critical Reviews. Vol 7, Issue 9.- рр. 244-246.
11. Kholliyev A E, Norboyeva U T, Fayziyeva F F, Adizova Kh R The properties of cotton resistance and adaptability to drought stress//Journal of Pharmaceutical Negative Results. Vol.13, Issue 4-2022.-рр. 958-961.
12. A.E.Kholliyev, U.T.Norboyeva, H.R.Adizova, F.A.Fayziyeva.Effekcts of mikroelements on Drought Resistance of Cotton Plant. //International Journal of Psychosocial Rehabilitation. Vol.24, Issue 02, 2021.-P.643-648. Sсopus.
13. А.Э.Холлиев, У.Т.Норбоева, H.R.Adizova. Methods of microelemens to increase salt resistance of corron. With proceedings of the internasional scientific and practical conference “specialized and multidisciplinary scientific researches” desemder 11,2020. Amsterdam.
14. X.R.Adizova, A.E.Kholliev, U.T.Norboeva. Рhysiological basis of the use of microelements in agricultural crops. International Conference on Developments in Education, Sciences and Humanities Hosted from Livorno, Italy https: econferencezone.org March 17th -18th 2022.