The Role of Nanosilica in Ameliorating the Deleterious Effect of Salinity Shock on Cucumber Growth

Abstract: A greenhouse experiment was conducted ‎to study the influence of the application of four concentrations of silica nanoparticles (NSi) in mitigating the negative effect of salinity shock on ‎cucumber (Cucumis sativus L.). Seedlings were sprayed with NSi ‎ (0, 100, 200, and 300 ppm) as the NSi treatment, and the plants were subjected to either no salinity shock (NSCh) or salinity shock (WSCh) 3250 ppm for two days. Yield and vegetative parameters, K+, Na+, K/Na ratio, Si, and proline contents were measured. The … Show more

“…It contaminates groundwater, waterways, and the air through the emission of hazardous gases; for example, nitrogen (N) fertilizers are lost by leaching from the soil by way of water-soluble nitrates and emitted as ammonia and nitrogen oxides (Kottegoda et al, 2011). Therefore, it is critical to create novel fertilizer types that regulate the rate of nutrient release in smaller amounts, gradually and sustainably to boost plant uptake (Avila-Quezada et al, 2022), as well as to reduce the impact of fertilizers on the environment (Alsaeedi & Alameer, 2023). In recent decades, many efforts have been made to develop controlled-release fertilizers (CRFs), such as coating conventional fertilizer with a variety of materials, such as sulfur, inorganic material, and petroleum-based material (Zhiyuan et al, 2013).…”

Optimizing Green Bean Yield: Controlled Nitrogen Release with Nano-Urea-Modified Apatite

“…It contaminates groundwater, waterways, and the air through the emission of hazardous gases; for example, nitrogen (N) fertilizers are lost by leaching from the soil by way of water-soluble nitrates and emitted as ammonia and nitrogen oxides (Kottegoda et al, 2011). Therefore, it is critical to create novel fertilizer types that regulate the rate of nutrient release in smaller amounts, gradually and sustainably to boost plant uptake (Avila-Quezada et al, 2022), as well as to reduce the impact of fertilizers on the environment (Alsaeedi & Alameer, 2023). In recent decades, many efforts have been made to develop controlled-release fertilizers (CRFs), such as coating conventional fertilizer with a variety of materials, such as sulfur, inorganic material, and petroleum-based material (Zhiyuan et al, 2013).…”

Optimizing Green Bean Yield: Controlled Nitrogen Release with Nano-Urea-Modified Apatite