Effect of Melioration Drug on Chemical Degradation of Soils
DOI:
https://doi.org/10.51699/ijbea.v2i10.2633Keywords:
Chemical degradation, Biosolvent, soil salinity, irrigated soil, soil washing, urease, catalase, invertaseAbstract
Among the stresses due to chemical degradation, soil salinity is a very serious environmental stress for soil bioindicators, reducing productivity in irrigated lands worldwide [1]. The study of the role of bioindicator enzyme activity in activating the mechanisms of the soil fertility improvement mechanism and the scientific analysis of the effect of soil salt indicators on soil processes serve as a basis for increasing soil health quantitatively and qualitatively. A series of bioindicator biochemical and enzymatic activity processes are activated under saline stress in the soil buffer. It is important to scientifically substantiate the effect of salt stress on biochemical processes on soil degradation. It serves to increase the efficiency of the biosolvent chemical meliorant used in the assessment of soil fertility and its parameters. mitigated the negative impact. In this article, the relationship between the level of soil salinity and urease enzymes in moderately saline alluvial soils degraded by salinity, which accelerates chemical degradation, was studied. Simple options were applied to soils not washed with biosolvent and selected for testing.
References
Pooja Shrivastava Rajesh Kumar Soil salinity: A serious environmental issue and plant growth promoting bacteria as one of the tools for its alleviation Saudi Journal of Biological Sciences. Volume 22, Issue 2, March 2015, pp.123-131
Munns, R. and M. Tester. Mechanisms of salinity tolerance. Ann Rev Plant Bio.2008; 59: pp. 651-681
Rengasamy, P. World Salinization with Emphasis on Australia. journal of Experimental Botany, Volume 57, Issue 5, March 2006, P 1017–1023, https://doi.org/10.1093/jxb/erj1084.
Behrouz Mostafazadeh–Fard, Manouchehr Heidarpour, Abbas Aghakhani and Mohammad Feizi Effects of Irrigation Water Salinity and Leaching on Soil Chemical Properties in an Arid Region.2007;135: pp 466-69.
Green, S. M., R. Machin, and S.C. Malcolm. Effect of Long-Term Changes in Soil Chemistry Induced by Road Salt Applications on N-Transformations in Roadside Soils. Envier Pollution.2008; 152: pp 20–31.
R. A. James, C. Blake, C. S. Byrt, and R. Munns, “Major genes for Na+ exclusion, Nax1 and Nax2 (wheat HKT1;4 and HKT1;5), decrease Na+ accumulation in bread wheat leaves under saline and waterlogged conditions,” Journal of Experimental Botany, vol. 62, no. 8, pp. 2939–2947, 2011. View at: Publisher Site | Google Scholar.
A. Rahnama, R. A. James, K. Poustini, and R. Munns, “Stomatal conductance as a screen for osmotic stress tolerance in durum wheat growing in saline soil,” Functional Plant Biology, vol. 37, no. 3, pp. 255–263, 2010. View at: Publisher Site Google Scholar
Duffey S. S., Stout M. J. 1996. Antinutritive and toxic components of plant defense against insects. Arch. Insect Biochem. Physiol. 32: 3 – 37. [Google Scholar].
Z.A.Jabbarov D.P.Jabborova, O.N Imomov , “Biochar improves root morphological traits and growth of Alfalfa, amaranth and maize under salt stress”. International Conference on "Global Approaches in Agriculture and Allied Sciences for Sustainability, Food Security and Livelihood India 2023 21-23 January
Z.A.Jabbarov, T.Abdraxmanov, M.F.Faxrutdinova, O.N.Imomov, Sh.Z.Abdullyev “increasing biography of plants in salty sandy soils on the dry bottom of the Aral Sea” "Modern problems of ecology and environmental protection and biotechnology"15-16- June 666 p.
Downloads
Published
How to Cite
Issue
Section
License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
