Fertilizer oxides stand as indispensable allies in the pursuit of more efficient and environmentally friendly agricultural practices. Their ability to improve nutrient availability, enhance absorption efficiency, and correct nutritional deficiencies makes them an option to consider for those aiming to maximize crop yields.
Fertilizer oxides are chemical compounds containing oxygen along with other elements such as nitrogen, phosphorus, and potassium. These oxides are used as sources of essential nutrients for plants and are fundamental to modern agriculture.
Controlled Solubility: Fertilizer oxides are characterized by their controlled solubility, allowing for gradual nutrient release over time.
High Nutrient Concentration: These compounds contain a high concentration of essential nutrients, enabling efficient applications.
Longevity: Gradual nutrient release prolongs their availability in the soil and reduces the need for frequent applications.
Reduction of Leaching Losses: Controlled release minimizes nutrient losses through leaching, benefiting the environment.
Compatibility with Other Fertilizers: Oxides can be combined with other fertilizers to provide balanced nutrition to plants.
Soil pH Adjustment: Some oxides can influence soil pH, improving conditions for crop growth.
Safe Storage and Handling: Oxides are safe to store and apply, facilitating their use in agriculture.
Grain Crops: Oxides are widely used in crops such as corn, rice, and wheat.
Vegetables: Vegetables like tomatoes and peppers benefit from oxide application.
Fruit Crops: Fruit trees such as apple and pear trees respond favorably to nutrients provided by oxides.
Pastures and Forage: These compounds are essential for livestock feed in pastures.
Sustainable Agriculture: Oxides are crucial in conservation agriculture and sustainable farming practices.
Improved Yield: Oxides provide essential nutrients that enhance crop production and quality.
Increased Nutrient Use Efficiency: Controlled release reduces nutrient losses, improving efficiency.
Environmental Sustainability: Decreased nutrient leaching benefits the environment and water quality.
Cost Reduction: Fewer fertilizer applications are needed due to gradual release.
Extended Plant Nutrition Duration: Sustained release ensures plants have access to nutrients throughout the growing season.
Magnesium Oxide
Zinc Oxide 99.9% Gº F