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

To achieve the desired grain Zn concentration and high grain yield, we recommend applying Zn fertilizers to both soil and foliage for wheat with grain Zn concentration below 30 mg kg −1,...

2、Zinc Fertilizers

Various types of Zn fertilizers are used to correct Zn deficiency in crops. These fertilizers vary in their Zn content, chemical composition, price, and effectiveness to plants.

3、What is the Best Zinc Fertilizer for Absorption?

According to the Beth Israel Lahey Health Winchester Hospital, a person supplementing with zinc will find their best options in the form of zinc citrate, zinc acetate and zinc picolinate because these absorb the best.

4、Fate and Plant Uptake of Different Zinc Fertilizer Sources upon Their

To effectively manage soil for optimum crop production, it is crucial to understand how zinc (Zn) interacts and speciates in Zn-deficient calcareous soils. This study employed incubation-visualizat...

Chelated Zinc vs. Zinc Sulfate: Which Zinc Fertilizer is Best for Your

In this article, we will explore the differences between chelated zinc and zinc sulfate fertilizer, their benefits, and how to choose the right one for your plants.

Organic Zinc Fertilizer: Essential Benefits and Usage Guide for

‘Organic zinc fertilizers not only deliver micronutrients but they also help maintain soil organic matter, which is the core basis for soil structure and fertility,’ says Emily Ford, a soil scientist. Another key benefit is greater resistance to diseases and pests.

Foliar zinc fertilization improves yield, biofortification and nutrient

We tested different Zn fertilizer management methods for leading upland (rainfed) rice genotypes of north-eastern India to assess their potential to improve Zn-use efficiency, grain biofortification and yield.

Zinc in ammoniated phosphate fertilizers: Solid‐phase speciation

We evaluated a range of ammonium phosphate fertilizers using X-ray absorption near-edge structure and assessed the water-solubility of Zn in the formulations. Four Zn species were identified in these fertilizers, with zinc ammonium phosphate the most abundant one.

Comparing the individual and combined effects of nano zinc and

Among different nano-fertilizers, zinc oxide NPs (ZnO-NPs) are gaining recognition as effective nano-fertilizers that can boost the production of secondary metabolites and improve the yield of crops with medicinal and economic significance (Sabir et al., 2014, Zaeem et al., 2020).

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Zinc (Zn) is an important nutrient for human beings, which is also an essential micronutrient for crop growth. This study investigated the role of Zn in coordinating the mineral elements absorption in modern wheat (Triticum aestivum L.) cultivars with a new developed method.

Zinc is an essential trace element for human health, playing critical roles in growth, immune function, reproductive systems, and antioxidant processes. In agriculture, rational application of zinc fertilizers is equally vital for improving crop yields and quality. Below, we detail the advantages and disadvantages of three common zinc fertilizers to help farmers select the most suitable option for their crops.

1. Zinc Sulfate (ZnSO₄)

Advantages:

• High stability: Zinc sulfate has high solubility in soil, reducing water loss and enhancing crop absorption.
• Moderate cost: Compared to other zinc fertilizers, it is economically affordable for large-scale use.
• Wide applicability: Suitable for various crops, including cereals, industrial crops, and fruit trees.

Disadvantages:

• Prone to volatilization: High temperatures can cause zinc sulfate to volatilize, reducing its effective concentration.
• Environmental risks: Long-term soil residue may pose environmental pollution hazards.

2. Zinc Oxide (ZnO)

Advantages:

• Slow-release properties: Zinc oxide provides sustained zinc supply, avoiding deficiencies or excesses.
• High biological activity: Promotes root growth and enhances disease resistance in crops.
• Safety: Poses minimal risks to humans, crops, and ecosystems.

Disadvantages:

• Higher cost: Production and application expenses are significantly higher than alternatives.
• Technical demands: Requires precise adjustment based on crop needs and soil conditions.

3. Chelated Zinc

Advantages:

• High absorption efficiency: Enhances crop uptake of zinc, ensuring optimal utilization.
• Strong stability: Maintains effectiveness in soil for extended periods, reducing nutrient loss.
• Versatility: Suitable for diverse crops and soil types.

Disadvantages:

• Production complexity: Manufacturing processes are costly and technically demanding.
• Application precision required: Demands tailored dosing based on crop and soil analysis.

Zinc sulfate, zinc oxide, and chelated zinc each have unique strengths and limitations. Farmers should prioritize crop requirements, soil conditions, and economic feasibility when choosing a zinc fertilizer. Proper dosage and scientific application are key to ensuring crops receive adequate zinc while minimizing environmental impact.