1、Silicon fertilizers, humic acid and their impact on physicochemical
Therefore, the effects of Si fertilizer, HA, and their combinations on the physicochemical characteristics, availability of heavy metals (Cu, Cd, Pb, Zn), and fraction changes in soils and soil aggregates were investigated in this research.
2、Silicon Improves Soil Environment and Promotes Crop Growth under
In addition, the yield was improved through proper silicon fertilizer application. In summary, exogenous silicon has positive effects on soil physical and chemical properties and crop growth, and relieves secondary salinization risk under compound irrigation via brackish water and reclaimed water.
3、Effects of water
The purpose of this paper was to experimentally study the suitable period of silicon fertilizer application in rice under intermittent irrigation.
4、Effects of silicon fertilizer and biochar on active silicon components
In addition, the addition of silicon fertilizer could directly and indirectly improve soil water-soluble silicon, mediate the conversion of soil silicon components, and improve the...
FS1278: Silicon Needs of Soils and Crops (Rutgers NJAES)
To be an effective source for crops, a silicon fertilizer should provide a high percentage of silicon in soluble form. Other characteristics to consider are cost of material, physical properties, and ease of application.
Role of silicon and silicon fertilizers in the world: a review of
Therefore, this study developed and analyzed various studies on the role of Si in soil and Si fertilizers over the past decades. The purpose of this study is to find out how many developed countries have already taken the step to study and use silicon fertilizers.
A Comprehensive Review on the Potential Effect of Silicon Fertilizer
Numerous studies have shown that Si positively impacts plant growth, productivity, photosynthesis, balanced nutrient availability, and the processes for scavenging reactive oxygen species [5,6].
Role of silicon and silicon fertilizers in the world: a review of
Role of silicon and silicon fertilizers in the world: a review of papers from the Scopus database published in English for the period of 2012–2022
Silicon as a Smart Fertilizer for Sustainability and Crop
In this review, we provide an overview of different smart fertilizer types, application of Si fertilizers in agriculture, availability of Si fertilizers, and experiments conducted in greenhouses, growth chambers, and open fields.
Silicon, a quasi
Silicon fertilizer regime, as soil or foliar application, is a subject of debate. Understanding Si uptake mechanisms is crucial for harnessing its positive effects. Diverse mathematical models define Si uptake dynamics at whole plant scale.
Water-soluble silicon fertilizers are a novel type of fertilizer with distinct characteristics and applications.
Firstly, their most notable feature is excellent solubility. They dissolve easily in water and maintain high stability in aqueous solutions, resisting oxidation or decomposition. This makes them convenient to apply, eliminating the need for specialized equipment or conditions required by some other fertilizers.
Secondly, the primary function of water-soluble silicon fertilizers is to provide silicon, an essential nutrient for plant growth and development. Silicon enhances plants’ stress resistance, improves their ability to fend off pests and diseases, boosts photosynthetic efficiency, and increases crop yields.
The applications of water-soluble silicon fertilizers are broad, spanning various agricultural crops, including cereals, economic crops, and vegetables. For cereals like grains, silicon fertilizers promote growth and improve both yield and quality. In economic crops such as cotton, tobacco, and tea, they enhance product quality and market value. For vegetables like tomatoes, cucumbers, and peppers, they increase output while improving taste and nutritional value.
Additionally, these fertilizers prove valuable for fruit tree cultivation, particularly for silicon-demanding varieties like apples, pears, and peaches. Silicon application significantly elevates fruit quality and productivity.
In agriculture, water-soluble silicon fertilizers not only boost crop yields and quality but also reduce reliance on chemical fertilizers, lowering environmental costs. Silicon strengthens plants’ resilience to stressors, reducing pest and disease incidence. By minimizing chemical fertilizer use, it fosters sustainable farming practices.
water-soluble silicon fertilizers offer high solubility, stability, and efficient silicon delivery, enhancing crop performance while promoting environmentally friendly agriculture. Their adoption should be encouraged to advance agricultural productivity and sustainability.
