Effects of Soluble Silicate and Nanosilica Application on Rice Nutrition in an Oxisol
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2022, Environmental and Experimental BotanyCitation Excerpt :Recently, green synthesized nanomaterials such as plant-derived silica nanoparticles have received great interest in nanoenabled agriculture, particularly as nanocarriers for some agrochemicals, such as nanofertilizers (El-Saadony et al., 2020; Aldeen et al., 2021; Bapat et al., 2021; Bueno et al., 2021). In particular, silica nanoparticles have some superiority over other forms due to their high surface area and low toxicity (Alvarez et al., 2018; El-Saadony et al., 2021). However, the impacts of nanoagrochemicals on plant productivity under field conditions, particularly in soils with low fertility under salinity stress and low organic matter content, have not yet been verified.
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2020, Plant Physiology and BiochemistryCitation Excerpt :Silica nanoparticles have not been extensively used individually as nanofertilizers, but their potential seems promising. Application of nanosilica as fertilizers for the growth and nutrition of rice plants grown in oxisol enhanced the uptake of silica in leaves by 47%, lignin content in leaves by 112% and rate of transpiration by 48%, without hampering growth and grain yield (Félix Alvarez et al., 2018). Najafi Disfani et al. (2017) synthesized nano Fe/SiO2 fertilizers, where silica was used as a structural matrix to prevent the aggregation of iron nanoparticles.