Nanoparticulate Silica Internalization and Its Effect on the Growth and Yield of Groundnut (Arachis hypogaea L.)

Abstract: In recent years, foliar applications of nanoparticles are increasingly being employed in agricultural fields as fertilizers to enhance crop yields. However, limited studies are available on the foliar uptake of nanoscale nutrients and their interaction with plants. In this study, we reported the effects of foliar spray with varied concentrations of nanoscale silica (N-SiO2) and bulk tetraethyl orthosilicate (TEOS at 2000 ppm) on the growth and yield of groundnut. Nanosilica was prepared by a sol–gel method and… Show more

“…4,5 Therefore, it was reported that monosilicic acid, orthosilicic acid, and inorganic complex forms are the main forms of Si fertilizer at present and are being widely employed in rice cultivation. 6 Unfortunately, monosilicic acid and orthosilicic acid with higher solubility and absorption rates may induce potential phytotoxicity in plants. The disadvantage can be remedied through the use of nanotechnology in which nanoscale silicon has completely different particle size and surface area compared to natural silicon, thereby affecting its uptake and translocation in rice plants.…”

“…9 Similarly, Prasad et al found that the foliar application of SiNPs could increase the growth and yield of groundnut. 6 Our previous studies indicated that the pretreatment of SiNPs could alleviate cadmium (Cd) toxicity in rice suspension cells in a sizedependent manner by regulating the expression of Cd-and Sirelated genes. 10 Additionally, the addition of SiNPs could inhibit the uptake of arsenic (As) in rice cells by improving the mechanical force of cell walls and regulating As-related genes under As stress.…”

“…In addition, the supply of SiNPs could improve the growth and productivity of cucumber by balancing nutrient uptake under salinity stress and water deficit . Similarly, Prasad et al found that the foliar application of SiNPs could increase the growth and yield of groundnut . Our previous studies indicated that the pretreatment of SiNPs could alleviate cadmium (Cd) toxicity in rice suspension cells in a size-dependent manner by regulating the expression of Cd- and Si-related genes .…”

“…Particularly, the addition of Si could improve the resistance in rice against diseases and alleviate the effects of other abiotic stresses such as drought, high temperature, salinity, and heavy metal toxicity . However, plants take up a small amount of Si in the form of monosilicic acid from the soil through active or passive absorptive processes, which is not enough to promote the growth and yield of rice plants. , Therefore, it was reported that monosilicic acid, orthosilicic acid, and inorganic complex forms are the main forms of Si fertilizer at present and are being widely employed in rice cultivation . Unfortunately, monosilicic acid and orthosilicic acid with higher solubility and absorption rates may induce potential phytotoxicity in plants.…”

A New Type of Quantum Fertilizer (Silicon Quantum Dots) Promotes the Growth and Enhances the Antioxidant Defense System in Rice Seedlings by Reprogramming the Nitrogen and Carbon Metabolism

“…4,5 Therefore, it was reported that monosilicic acid, orthosilicic acid, and inorganic complex forms are the main forms of Si fertilizer at present and are being widely employed in rice cultivation. 6 Unfortunately, monosilicic acid and orthosilicic acid with higher solubility and absorption rates may induce potential phytotoxicity in plants. The disadvantage can be remedied through the use of nanotechnology in which nanoscale silicon has completely different particle size and surface area compared to natural silicon, thereby affecting its uptake and translocation in rice plants.…”

“…9 Similarly, Prasad et al found that the foliar application of SiNPs could increase the growth and yield of groundnut. 6 Our previous studies indicated that the pretreatment of SiNPs could alleviate cadmium (Cd) toxicity in rice suspension cells in a sizedependent manner by regulating the expression of Cd-and Sirelated genes. 10 Additionally, the addition of SiNPs could inhibit the uptake of arsenic (As) in rice cells by improving the mechanical force of cell walls and regulating As-related genes under As stress.…”

“…In addition, the supply of SiNPs could improve the growth and productivity of cucumber by balancing nutrient uptake under salinity stress and water deficit . Similarly, Prasad et al found that the foliar application of SiNPs could increase the growth and yield of groundnut . Our previous studies indicated that the pretreatment of SiNPs could alleviate cadmium (Cd) toxicity in rice suspension cells in a size-dependent manner by regulating the expression of Cd- and Si-related genes .…”

“…Particularly, the addition of Si could improve the resistance in rice against diseases and alleviate the effects of other abiotic stresses such as drought, high temperature, salinity, and heavy metal toxicity . However, plants take up a small amount of Si in the form of monosilicic acid from the soil through active or passive absorptive processes, which is not enough to promote the growth and yield of rice plants. , Therefore, it was reported that monosilicic acid, orthosilicic acid, and inorganic complex forms are the main forms of Si fertilizer at present and are being widely employed in rice cultivation . Unfortunately, monosilicic acid and orthosilicic acid with higher solubility and absorption rates may induce potential phytotoxicity in plants.…”

A New Type of Quantum Fertilizer (Silicon Quantum Dots) Promotes the Growth and Enhances the Antioxidant Defense System in Rice Seedlings by Reprogramming the Nitrogen and Carbon Metabolism

“…Such a strategy may be the “nano agriculture”, which has been recently developed. ,, Nanoparticles (NPs) have a minimum one-dimensional size of 100 nm and unique properties compared to their bulk counterparts . Using NPs as a development strategy for sustainable agriculture has emerged as a new research direction.…”

Foliar Application of Nanoparticles Reduced Cadmium Content in Wheat (Triticum aestivum L.) Grains via Long-Distance “Leaf–Root–Microorganism” Regulation

Nanotechnology, a frontier in agricultural science, a novel approach in abiotic stress management and convergence with new age medicine-A review