Effective Solutions for Improving Acid Sulfate and Saline Soils with NPK Con Co 20-10-0+10.5Ca+7S

Improve acid sulfate and saline soils effectively with NPK Con Co 20-10-0+10.5Ca+7S. Increase crop yields and reduce investment costs. Discover the solution today!  

The impact of acid sulfate and saline soils on crops  

Acid sulfate and saline soils, particularly common in the Southwestern region, pose many challenges for agricultural production, severely affecting the growth and development of crops. This situation becomes even more serious during the summer. Specifically, acid sulfate and saline soils negatively impact crops in various ways:  

For rice:  

• Seedling stage: Acid sulfate and saline soils cause drying out, root rot, reducing the ability to absorb nutrients and water, resulting in mass seedling death. The most evident symptom is the rice leaves turning yellow and wilting.  
• Maturity stage: Although rice plants may survive, the yield will significantly decrease due to inhibited growth and development. The rice grains may be empty, and the rice quality is poor.  

For fruit trees:  

• Acid sulfate soil: Fruit trees often do not adapt well to acid sulfate conditions. The low pH and the presence of toxic metal ions such as aluminum (Al3+) and iron (Fe2+/Fe3+) inhibit root development, causing stunted growth, yellowing leaves, and dropping of young fruits. The yield and quality of fruits decrease, making it difficult to achieve economic productivity.  
• Saline soil: Most fruit trees cannot tolerate high salinity. High salt concentrations in the soil cause a phenomenon called "physiological drought," meaning the plants cannot absorb water even though the soil is sufficiently moist. Leaves wilt, edges burn, and they gradually drop. The plants weaken and may die if the condition persists.  

Salinity of soil seriously affects crops. Image: Internet

Mechanisms of action:  

• Toxicity of ionserrorerror: In acid sulfate soils, ions like Al3+ and Fe2+/Fe3+ are toxic to crops, affecting nutrient absorption and metabolic processes. In saline soils, high salt concentrations cause dehydration in plant cells.  
• Impact on nutrition: Acid sulfate and saline soils reduce the nutrient absorption capacity of crops, leading to nutrient deficiencies and poor growth.  
• Impact on soil structure: Acid sulfate soils often have a compact structure, making drainage difficult, leading to root rot. Saline soils can cause soil compaction, affecting root development.  

Consequences:  

• Reduced yields: Acid sulfate and saline soils significantly decrease crop yields, causing economic losses for farmers.  
• Reduced quality of agricultural products: The quality of agricultural products is affected, making them difficult to consume, resulting in lower economic value.  
• Loss of ecosystem balance: Acid sulfate and saline soils can cause imbalances in the soil ecosystem, affecting biodiversity.  

Improving acid sulfate and saline soils is very important to ensure the yield and quality of crops, contributing to sustainable agricultural development.

The solution for improving acid sulfate and saline soils with the application of exclusive USP technology products

Acid sulfate and saline soils are significant obstacles to crop yield. However, with advancements in science and technology, effective solutions have been developed to help farmers overcome this issue. One of these is the exclusive USP (Urea Super Phosphate) technology from France, produced by Baconco in Vietnam, applied in the NPK Con Co 20-10-0+10.5Ca+7S fertilizer product.

USP technology – A breakthrough in fertilizer production:

USP technology allows for the combination of Urea Nitrogen and Super Phosphate, which was previously very difficult to achieve. This unique combination creates the formula NPK 20-10-0+10.5Ca+7S, bringing many outstanding benefits:

• Chemical bonding of Nitrogen – Phosphorus – Calcium: This bond helps control the release of Nitrogen, preventing losses due to volatilization or leaching, ensuring a long-term supply of nutrients for crops. This optimizes fertilizer usage efficiency, saves costs, and reduces environmental pollution.
• The role of Calcium: Calcium plays an important role in soil improvement. It helps release nutrients in the soil, detoxifies, raises soil pH, and creates favorable conditions for root development. For crops, Calcium helps strengthen cell walls, enhances resistance against pests and diseases, and reduces the risk of lodging.

NPK Con Co 20-10-0+10.5Ca+7S – A comprehensive solution for acid sulfate and saline soils:

The NPK Con Co 20-10-0+10.5Ca+7S product, applying USP technology, provides a comprehensive solution for improving acid sulfate and saline soils:

• Reducing acidity and salinity: The high Calcium content helps neutralize acidity and reduce soil salinity, creating a conducive environment for crop development.
• Strengthening plants, increasing resilience: Providing Calcium and essential nutrients helpserrorerror plants, enhancing their resistance against harmful pests and diseases.
• Slow Nitrogen release: USP technology allows crops to absorb Nitrogen effectively and for an extended period, optimizing fertilizer use and maintaining the greenness of the plants.
• KCl-free: The product does not contain KCl, ensuring it does not increase soil salinity, making it suitable for acid sulfate and saline areas.

Usage instructions: For the best results, it is recommended to incorporate the fertilizer into the soil around the base of the plants.

NPK Con Co 20-10-0+10.5Ca+7S with exclusive USP technology is a significant advancement in improving acid sulfate and saline soils. The product helps increase crop yield and quality, bringing high economic benefits to farmers. This is truly a sustainable solution for modern agriculture.

We hope the above information about the NPK Con Co 20-10-0+10.5Ca+7S product will provide farmers with additional optimal solutions for acid sulfate and saline soil conditions. Wishing farmers a successful and bountiful harvest!