1、Functions and strategies for enhancing zinc availability in plants for

Zinc (Zn), which is regarded as a crucial micronutrient for plants, and is considered to be a vital micronutrient for plants. Zn has a significant role in the biochemistry and metabolism of plants owing to its significance and toxicity for ...

2、Behavior of zinc in soils and recent advances on strategies for

Microbes can ameliorate zinc toxicity plants through the improvement of elemental homeostasis. There are global concerns regarding heavy metals-induced pressure on soil ecosystem since past decades due to increasing urban, industrial and agricultural activities.

3、Zinc toxicity in plants: a review

However, potentially noxious levels of Zn in soils can result in various alterations in plants like reduced growth, photosynthetic and respiratory rate, imbalanced mineral nutrition and enhanced generation of reactive oxygen species.

4、Zinc (Zn) for Plants: A Comprehensive Guide

In this guide, we will delve into the importance of zinc for plants, the symptoms of zinc deficiency, the causes of its deficiency, and the best ways to supplement it in soils.

Efficiency of Zinc in Plants, its Deficiency and Sensitivity for

Optimal crop nutrition is a significant factor in increasing agricultural vintage and quality of products. Zinc (Zn) is an immobile important micronutrient, which is taken up by plants in...

Functions and strategies for enhancing zinc availability in plants for

It contributes to several cellular and physiological activities of plants and promotes plant growth, development, and yield. Zn is an important structural, enzymatic, and regulatory component of many proteins and enzymes.

Zinc in soil

Abstract Zinc (Zn) plays an important role in the physiology and biochemistry of plants due to its established essentiality and toxicity for living beings at certain Zn concentration i.e., deficient or toxic over the optimum range.

Is Zinc Good for Plants? Benefits and Deficiency Signs

Despite the small quantity needed, its presence significantly impacts a plant’s health and ability to perform life-sustaining functions. This nutrient supports everything from early growth stages to a plant’s ability to resist disease.

The Role of Zinc in Plant Growth and Fertilizers

Explore zinc's pivotal role in plant growth and how zinc-based fertilizers can lead to healthier, more bountiful plants。

Zinc For Plants: Feeding Methods And Benefits

Zinc is an essential micronutrient for plants. Learn about zinc's role in plant health, the different methods of application, and the benefits of maintaining adequate zinc levels in crops.

Zinc fertilizers are commonly used in agricultural production to provide essential nutrients for plants. excessive use of zinc fertilizers can pose risks to the environment and human health. This article analyzes in detail the potential harms and benefits of zinc fertilizers.

I. Harms of Zinc Fertilizers

1. Soil Pollution: Excessive application of zinc fertilizers can lead to elevated zinc levels in soil, disrupting its ecological balance. Long-term use of high-concentration zinc fertilizers may cause soil compaction, acidification, and other issues, hindering plant growth.

2. Environmental Contamination: Residual zinc from fertilizers can leach into groundwater through rainfall, contaminating water sources. Additionally, atmospheric deposition of zinc may harm aquatic ecosystems.

3. Health Risks to Humans: Chronic excessive zinc intake can cause zinc poisoning, characterized by nausea, vomiting, abdominal pain, diarrhea, and severe cases may damage the nervous system. Zinc toxicity can also impair children’s growth and development.

4. Soil Structure Degradation: Overuse of zinc fertilizers may inhibit the decomposition of soil organic matter, disrupting soil structure and reducing its water-retaining and fertilizer-retaining capacity, ultimately affecting plant growth and yield.

5. Increased Production Costs: Due to zinc fertilizers’ yield-enhancing effects, farmers often overapply them to maximize output. This not only raises agricultural costs but also leads to resource waste.

II. Benefits of Zinc Fertilizers

1. Improved Crop Yields: Proper zinc application promotes plant growth, enhances disease and pest resistance, and boosts crop quality and quantity.

2. Enhanced Stress Resistance: Zinc fertilizers improve crops’ ability to withstand adverse environmental conditions, reducing the incidence of diseases.

3. Soil Environment Optimization: Moderate zinc use can enrich soil fertility, creating a healthier environment for plant growth.

4. Ecosystem Protection: Rational zinc application minimizes environmental pollution. For example, while excess zinc can acidify soil, appropriate use helps maintain soil pH balance.

5. Better Agricultural Products: Zinc fertilizers enhance the nutritional value and taste of crops, improving product quality.

III. Recommendations

1. Rational Application: Farmers should scientifically apply zinc fertilizers based on soil conditions and crop requirements to avoid overuse.

2. Quality Product Selection: Choose zinc fertilizers with reliable quality, stable ingredients, and eco-friendly formulations.

3. Environmental Safeguards: Minimize pollution during application by properly managing waste and runoff.

4. Monitoring and Regulation: Governments and relevant agencies must strengthen supervision of zinc fertilizer usage to prevent environmental and health hazards.

the use of zinc fertilizers requires caution. Balancing their yield-boosting advantages with environmental and health impacts is critical. Only through scientific and rational application can sustainable agricultural development be achieved.