Global Journal of Science Frontier Research, D: Agriculture and Veterinary, Volume 23 Issue 1

latter devices are being regulated for the sake of preventing the hydrological release and complete the life cycle. Silicon enhances the overall signaling devices to be in a favorable states under the abiotic stress conditions. The result from that research clarifies the types of environmental managerial practices should have been adopted when dealing with the natural abiotic stress of drought and salinity due to global climatic changes or artificial one due to irrigation deficit scenario because of the three incoming reasons:  Since the geo-signal is being induced by more compacted electric double layer, hysteric behavior and the Albert Ainkhtien’s relativity of clayey lattice.  As the bio signal is being induced by osmoregulation strain and turgidity strain.  As the weather controlled signaling device is being induced by canopy evaporative demand. Analyzing soil system under saline and drought conditions using AMUN_SHC showed the merciful behavior of soil toward plant under abiotic stress conditions. This is because the plots were treated with silicon, the second abundant element in the earth’s crust 1 Year 2023 4 © 2023 Global Journals Global Journal of Science Frontier Research Volume XXIII Issue ersion I VI ( ) R eferences R éférences R eferencias 1. Abaghandura, G., D. Park, D. White, W. Bridges, (2017). Modelling soil degradation in Libya. J. Natu. Sci. Res., (7) 24: 30-40. 2. Abu Swaireh L., (2009). “Disaster risk reduction global and regional context”, regional workshop on climate change and disaster risk reduction in the arab region “Challenges and future actions”, organized by ISDR, WB, GFDRR, LAS, AASTM, Cairo, Egypt, 21 - 23 November, 21- 23Nuvember. 11:591911.doi:10.3389/fpls.2020.591911. 3. Albasha, R., J. C. Mailhol, and B. Cheviron, (2015). Compensatory uptake functions in empirical macroscopic root water uptake models- experimental and numerical analysis. Agric. Water Mang., 155: 22-39. 4. Almeras, T. and J. Gril. (2007). Mechanical analysis of the strains generated by water tension in plant stems. Part I: stress transmission from the water to the cell walls. Tree Physiology 27: 1505–1516. 5. Alsulaili, A., M. Alkandari and A. Buqammaz. (2022). Assessing the impacts of meteorological factors on freshwater consumption in arid regions and forecasting the freshwater demand. Environmental Technology & Innovation 25, 102099. Available at https://doi.org/10.1016/j.eti.2021.102099. 6. Amin, M., Ahmad, R., Basra, S. M. and Murtaza, G. (2014). Silicon induced improvementin morpho-physiological traits of maize (Zea mays L.) under water deficit. Pak. J. Agric. Sci. 51: 187–196. 7. Arsova, B., K. J. Foster, M. C. Shelden, H. Bramley and M. Watt. (2020). Dynamics in plant roots and shoots minimize stress, save energy and maintain water and nutrient uptake. New Phytologist 225: 1111–1119. 8. ASCAD (2011). Drought vulnerability in the Arab region a case Study- Drought in Syria. Ten year of scarce water. www.ascad.org 9. Bazaraa, A. (2015). Lectures in unsaturated zone hydrology, Faculty of Engineering, Cairo University. 10. Bekhit, H. (2015). Introduction to computer programing using FORTRAN. Faculty of Engineering, Cairo University. 11. Choobbasti, A. J., A. Vafaei, and S. S. Kutanaei. (2015). Mechanical properties of sandy soil improved with cement and nano-silica. Open Eng; 5:111–116. 12. Ctenanthe Setosa exposed to drought stress. Photosynthetica, 47:429–436. 13. Clausnitzer V and J, Hopmans. (1994). Simultaneous modeling of transient three-dimensional root growth and soil water flow. Plant Soil, 164: 299–314. https://doi.org/10.1007/BF00010082. D The Modified Richard’s Equation for Assessing the Impact of Drought and Salinity in Arid and Semi-Arid Zones. Part Two: A Soil Hydraulic Capacitance