1、Zinc agronomic biofortification in wheat and its drivers: a

In this work, we show that foliar spraying and soil+foliar application of Zn fertilizer increase the grain Zn concentration in wheat more effectively than soil application alone, surpassing...

2、The search for best fertilizer combination to increase wheat

The study also aimed at identifying the rate of blended fertilizer appropriate for wheat production and to evaluate how the inclusion of potassium (K), boron (B), and zinc (Zn) to the blend affects wheat yield.

3、(PDF) Impact of foliar zinc and boron application on wheat yield

Wheat (Triticum aestivum L.) is a vital global crop, essential for human nutrition. However, wheat yields often suffer from nutrient deficiencies, particularly in micronutrients like zinc...

The strategic role of zinc and boron in wheat production

Zinc and boron are key for wheat to reach its maximum yield and quality potential. These micronutrients are involved in essential processes such as spikelet formation, grain setting, and final grain filling.

Zinc biofortification of wheat through fertilizer and genotype

This study investigated the responses of two wheat varieties, Alvand (Zn-inefficient) and Pishtaz (Zn-efficient), to various zinc (Zn) fertilization methods to determine optimal strategies for enhancing wheat growth and grain quality.

Boron and zinc fertilizer applications are essential in emerging

Conclusions: While the application of Zn fertilizers can moderately improve the performance of traditional rice–wheat rotations, B and to a lesser extent Zn application become essential and highly profitable when shifting towards vegetable cropping.

Zinc agronomic biofortification in wheat and its drivers: a

Here, we synthesize data from four field trials along with 139 studies from the literature, to evaluate the impact of management practices and soil properties on improving grain Zn concentration in wheat through applying Zn fertilizers.

Zinc biofortification of wheat through fertilizer applications in

Zinc (Zn) deficiency caused by inadequate dietary intake is a global nutritional problem in human populations, especially in developing countries. Biofortification of wheat and other staple foods with Zn is, therefore, an important challenge and a high-priority research task.

Which Fertilizer Is Best for Wheat? A Complete Guide

This comprehensive guide delves into the world of wheat fertilization, exploring the key nutrients, different fertilizer types, application methods, and best practices to maximize your wheat yields.

(PDF) COMPREHENSIVE EVALUATION OF THE VARIOUS EFFECTS OF FERTILIZATION

Because these elements play a role in human health, the use of these treatments in wheat can increase zinc and magnesium in wheat grains, and therefore, an effective step can be taken in...

Wheat, as one of the world's major food crops, has its yield and quality under extensive scrutiny. During wheat cultivation, applying base fertilizer is a critical practice to enhance soil fertility and improve soil structure. Zinc (Zn) and boron (B) fertilizers, two essential micronutrial fertilizers, play vital roles in promoting wheat growth and development. This article explores the effects, advantages, and disadvantages of adding zinc and boron fertilizers to wheat base fertilization, aiming to provide references for agricultural production.

I. The Role and Mechanism of Zinc Fertilizer

Zinc is an essential micronutrient for plant growth, crucial for physiological processes. Zinc fertilizers enhance enzyme activity, strengthen stress resistance, and improve photosynthetic efficiency. Additionally, they promote protein synthesis and disease resistance in plants.

II. Effects of Zinc Fertilizer in Wheat Base Fertilization

1. Promotes Growth: Zinc fertilizer stimulates root development, enhancing water and nutrient absorption, thereby increasing yield.
2. Improves Stress Resistance: Reduces pest/disease incidence, lowers pesticide use, and minimizes environmental pollution.
3. Boosts Photosynthesis: Increases leaf photosynthetic rate and dry matter accumulation.
4. Enhances Quality: Raises protein content, adding economic value to wheat.

III. The Role and Mechanism of Boron Fertilizer

Boron is another indispensable micronutrient for plants. It supports stem and leaf growth, strengthens stress tolerance, and improves photosynthetic efficiency. Boron also aids protein synthesis and disease resistance.

IV. Effects of Boron Fertilizer in Wheat Base Fertilization

1. Promotes Growth: Stimulates root development and nutrient uptake, boosting yields.
2. Improves Stress Resistance: Reduces pest/disease risks, cuts pesticide reliance, and lessens environmental impact.
3. Enhances Photosynthesis: Elevates leaf photosynthetic rates and dry matter production.
4. Improves Quality: Increases protein content, enhancing market value.

V. Interactions Between Zinc and Boron Fertilizers

Zinc and boron fertilizers complement each other in wheat growth, collectively improving yield and quality. Zinc enhances boron absorption, while boron boosts zinc uptake, maximizing their synergistic benefits when used together.

VI. Application Methods

1. Zinc Fertilizer:
   • Base Fertilizer: Evenly spread on soil.
   • Topdressing/Foliar Spray: Dissolve in water and apply.
2. Boron Fertilizer:
   • Base Fertilizer: Apply evenly to soil.
   • Topdressing/Foliar Spray: Dilute and spray on leaves.

VII. Optimal Dosage

Dosage depends on soil conditions, wheat variety, and growth stage. Excessive use may lead to soil salinization or negative impacts.

VIII. Precautions

1. Avoid Overapplication: Prevent soil salinization and toxicity.
2. Soil pH Matters: Adjust application based on soil acidity/alkalinity.
3. Avoid Mixing with Other Fertilizers: Prevent chemical reactions that reduce effectiveness.

IX. Economic Benefits

1. Yield Increase: Higher profits for farmers.
2. Quality Improvement: Premium prices for better-quality wheat.
3. Environmental Protection: Reduced pesticide use lowers pollution.

Incorporating both zinc and boron fertilizers into wheat base fertilization effectively boosts yield, quality, and sustainability. careful consideration of dosage, soil pH, and compatibility with other fertilizers is essential. Aligning practices with market trends and policies will further optimize outcomes.

Key Terms: Base fertilizer, micronutrients, photosynthesis, stress resistance, foliar spraying, soil salinization.