Nano Carbon-Potassium Fertilizer
Characteristics
- Carbon Tube Structure: Similar to nano carbon-silicon fertilizer, carbon nanotubes provide a high surface area for potassium adsorption.
- Potassium Enrichment: Potassium is adsorbed onto the carbon nanotubes, increasing its availability to plants.
- High Efficiency: The carbon-potassium composite enhances the efficiency of potassium uptake by plants.
Effects
- Improved Water Regulation: Potassium regulates water absorption and retention, enhancing drought resistance.
- Enhanced Enzyme Activation: Potassium activates enzymes involved in photosynthesis and respiration, promoting plant metabolism.
- Better Nutrient Transport: Potassium facilitates nutrient movement within plants, improving growth and development.
- Application of nano carbon significantly increases potassium content and dry matter accumulation in tobacco leaves.
Advantages
- Increased Potassium Fertilizer Efficiency: Reduces volatilization and loss, improving potassium uptake and minimizing pollution.
- Enhanced Crop Stress Resistance: Increases crop resistance to drought, salinity, and disease, contributing to higher yield and quality.
- Promotion of Sustainable Agriculture: Improves soil structure, fertility, and promotes sustainable agricultural practices.