1、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.

2、Effects of Silicon

The objective of this study was to evaluate the effects of different combined doses of standard fertilizer practice and Si fertilizer on growth, yield and yield components, and nutrient uptake of rice.

3、The Use of Si

Each single experiment reporting a crop growing under a specific silicon-based fertilizer (case) was evaluated on the following topics: (a) increase in the productivity, (b) alleviation of limitation/stressful symptoms and (c) alteration of the crop physiological indicators.

4、Silicon–calcium fertilizer increased rice yield and quality by

Silicon-calcium complex fertilizers are fertilizers mixed with silicates and carbonates, which can supply the silicon and calcium needed by rice.

A Comprehensive Review on the Potential Effect of Silicon Fertilizer

As a result, scientists have doubled their efforts to figure out the best ways to apply silicon fertilizer to various agricultural and horticulture crops and establish best practices.

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 framework linking silicon fertilisation, plant silicification and

We reviewed how silicon (Si) fertilisers, commonly used to improve plant health, may also influence SOC dynamics. We developed a framework linking Si and SOC and discussed the possibility of Si-mediated plant changes contributing to SOC sequestration.

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.

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.

Silicon fertilizer (silicate fertilizer) is an essential soil conditioner that can improve soil pH, enhance soil structure, and optimize nutrient absorption in plants. When combining silicon fertilizer with other fertilizers, it is crucial to consider its characteristics, functions, and the specific needs of different crops. Below are some recommendations:

1. Combination with Phosphate Fertilizers: Silicon fertilizer can be used with phosphate fertilizers, as both silicon and phosphorus are vital for plant growth. Silicon fertilizer increases soil pH, while phosphate fertilizers provide essential phosphorus. This pairing enhances nutrient uptake, promotes root development, and boosts crop yields.

2. Combination with Potash Fertilizers: Silicon fertilizer also pairs well with potash fertilizers, as silicon and potassium are critical for plant health. Potassium strengthens disease resistance, while silicon improves soil pH, facilitating potassium absorption. This combination helps plants adapt to environmental stress and improves resilience.

3. Combination with Microelements: Silicon fertilizer can be paired with microelements like zinc, iron, and manganese. These elements are essential for plant growth but often get fixed in soils. Silicon fertilizer raises soil pH, promoting the release of microelements and enhancing their uptake by plants.

4. Combination with Organic Fertilizers: Silicon fertilizer works synergistically with organic fertilizers (e.g., animal manure, compost). Organic matter provides rich nutrients, while silicon fertilizer improves soil pH, aiding nutrient release and absorption from organic sources.

5. Combination with Compound Fertilizers: Silicon fertilizer can be mixed with compound fertilizers (e.g., NPK blends). This allows tailored nutrient ratios based on crop needs. Silicon fertilizer also enhances soil pH, ensuring efficient nutrient release from compounds.

6. Combination with Bio-bacterial Fertilizers: Silicon fertilizer complements bio-bacterial fertilizers (e.g., rhizobium or nitrogen-fixing bacteria). These fertilizers boost soil microbial activity and water retention. Silicon fertilizer’s pH-boosting effect further optimizes nutrient release from biological agents.

Key Factors to Consider When Pairing Silicon Fertilizer:

1. Crop Requirements: Different crops have varying silicon needs. Choose pairings based on growth stages and specific demands.

2. Soil Conditions: Soil pH, texture, and organic matter content affect silicon fertilizer efficacy. Tailor combinations to soil properties for optimal results.

3. Climate: Climate influences effectiveness. In dry regions, use high-silicon formulations; in humid areas, prioritize phosphorus-rich options.

4. Fertilization Methods: Application techniques matter. Foliar spraying improves silicon uptake, while basal application increases soil silicon levels.

pairing silicon fertilizer with other nutrients requires careful consideration of crop needs, soil conditions, climate, and application methods. Scientific fertilization strategies can enhance crop yield, quality, and sustainable agricultural development.