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Due to human activities, soil chemical degradation is worsening globally, including issues like soil fertility depletion, salinization, acidification, and pollution. Our company’s patented soil remediation products, made from high-grade 3D silicon-carbon materials, are highly effective in addressing these soil challenges. They significantly reduce soil salinization, desertification, acidification, drought, and pollution, removing ecological barriers to healthy soil. Tests show that this product can adsorb ions like Na+ and Cl− in alkaline soils, reducing soil pH and alkalinity, improving soil physical and chemical properties, and increasing cation exchange capacity to support crop growth and boost yields. Key functions include:
1. Improving Soil Nutrient Levels
Due to improper land use, soil nutrients are increasingly depleted, while fertilizer nutrients often volatilize or leach away after application. Our soil conditioner has strong adsorption and selective exchange capacities for N, K, and P. Once applied to the soil, it improves soil conditions and controls nutrient release, aiding in nutrient retention and availability. For example, mixing this product with chemical fertilizers or incorporating it into compound fertilizers reduces nutrient loss and improves soil properties. Trials show that applying 20 tons per hectare boosts buckwheat yields by 36%, corn by 20%, barley by 17-64%, and wheat by 31%, with lasting effects for 4-6 years.
2. Enhancing Soil Physical Properties
Granular structure is ideal for mitigating drought, but is often damaged by natural shifts and agricultural practices. Our product, with its strong electrostatic adsorption, increases soil aggregates >2 mm, especially improving low-yield soils. When applied to alkaline soils, it reduces bulk density by 0.1 g/cm³, increases total porosity by 1.7%, and lowers soil hardness by 13.6 kg/cm², creating a more favorable environment for crop growth. Additionally, our product enhances soil water retention. In drought, treated soil’s field capacity improves by 5-15%, reaching up to 27.9%. In high moisture conditions, the product retains water within its molecular structure, releasing it during dry seasons to regulate soil moisture and enhance drought resistance across various soil types.
3. Preventing Soil Acidification
Soil acidification results in an annual grain loss of approximately 20 million tons in China. It increases hydrogen ion concentration, largely affected by soil base saturation and Al3+ levels. Our soil conditioner, with its natural ion exchange and adsorption properties, releases large amounts of base ions and adsorbs acid ions and harmful compounds in acidic soils. Tests show that applying 100-200 kg per hectare can buffer soil acidity, significantly increasing yields of rice, wheat, eggplant, apples, and barley (up to 50%). This product addresses acidification at its source, has long-lasting effects, is non-toxic to crops, and avoids the soil damage caused by lime applications.
4. Remediating Polluted Soils
Soil pollution, a global environmental issue, primarily arises from industrial, household, and agricultural sources, with pollutants like cadmium, lead, mercury, fluoride, ammonia nitrogen, sulfides, arsenic compounds, phenols, organic phosphates, and radioactive substances. Our product effectively adsorbs and exchanges ions, particularly heavy metal ions, ammonia nitrogen, nitrites, and sulfides, helping mitigate soil pollution. In trials, applying 1% of the soil weight of our product to Cd-contaminated soil reduced Cd concentrations in lettuce leaves by 86%. Similar trials on lead and mercury-contaminated soils saw reductions of over 60%, with maximum decreases up to 86%. The product is also effective for controlling soil radioactivity.
Our soil conditioner has extensive applications, addressing most soil ecological challenges. It loosens soil, increases ion exchange capacity, controls ammonia nitrogen and potassium release in fertilizers, and inhibits harmful substance transfer from soil and fertilizer to crops, extending nutrient retention in the soil. It also contains essential micronutrients that improve crop quality. Additionally, this product is cost-effective, easy to apply, and serves as an excellent alternative to other soil conditioners.
The Left Side is the Treated Area, the Right Side is the Untreated Area
Due to human activities, soil chemical degradation is worsening globally, including issues like soil fertility depletion, salinization, acidification, and pollution. Our company’s patented soil remediation products, made from high-grade 3D silicon-carbon materials, are highly effective in addressing these soil challenges. They significantly reduce soil salinization, desertification, acidification, drought, and pollution, removing ecological barriers to healthy soil. Tests show that this product can adsorb ions like Na+ and Cl− in alkaline soils, reducing soil pH and alkalinity, improving soil physical and chemical properties, and increasing cation exchange capacity to support crop growth and boost yields. Key functions include:
1. Improving Soil Nutrient Levels
Due to improper land use, soil nutrients are increasingly depleted, while fertilizer nutrients often volatilize or leach away after application. Our soil conditioner has strong adsorption and selective exchange capacities for N, K, and P. Once applied to the soil, it improves soil conditions and controls nutrient release, aiding in nutrient retention and availability. For example, mixing this product with chemical fertilizers or incorporating it into compound fertilizers reduces nutrient loss and improves soil properties. Trials show that applying 20 tons per hectare boosts buckwheat yields by 36%, corn by 20%, barley by 17-64%, and wheat by 31%, with lasting effects for 4-6 years.
2. Enhancing Soil Physical Properties
Granular structure is ideal for mitigating drought, but is often damaged by natural shifts and agricultural practices. Our product, with its strong electrostatic adsorption, increases soil aggregates >2 mm, especially improving low-yield soils. When applied to alkaline soils, it reduces bulk density by 0.1 g/cm³, increases total porosity by 1.7%, and lowers soil hardness by 13.6 kg/cm², creating a more favorable environment for crop growth. Additionally, our product enhances soil water retention. In drought, treated soil’s field capacity improves by 5-15%, reaching up to 27.9%. In high moisture conditions, the product retains water within its molecular structure, releasing it during dry seasons to regulate soil moisture and enhance drought resistance across various soil types.
3. Preventing Soil Acidification
Soil acidification results in an annual grain loss of approximately 20 million tons in China. It increases hydrogen ion concentration, largely affected by soil base saturation and Al3+ levels. Our soil conditioner, with its natural ion exchange and adsorption properties, releases large amounts of base ions and adsorbs acid ions and harmful compounds in acidic soils. Tests show that applying 100-200 kg per hectare can buffer soil acidity, significantly increasing yields of rice, wheat, eggplant, apples, and barley (up to 50%). This product addresses acidification at its source, has long-lasting effects, is non-toxic to crops, and avoids the soil damage caused by lime applications.
4. Remediating Polluted Soils
Soil pollution, a global environmental issue, primarily arises from industrial, household, and agricultural sources, with pollutants like cadmium, lead, mercury, fluoride, ammonia nitrogen, sulfides, arsenic compounds, phenols, organic phosphates, and radioactive substances. Our product effectively adsorbs and exchanges ions, particularly heavy metal ions, ammonia nitrogen, nitrites, and sulfides, helping mitigate soil pollution. In trials, applying 1% of the soil weight of our product to Cd-contaminated soil reduced Cd concentrations in lettuce leaves by 86%. Similar trials on lead and mercury-contaminated soils saw reductions of over 60%, with maximum decreases up to 86%. The product is also effective for controlling soil radioactivity.
Our soil conditioner has extensive applications, addressing most soil ecological challenges. It loosens soil, increases ion exchange capacity, controls ammonia nitrogen and potassium release in fertilizers, and inhibits harmful substance transfer from soil and fertilizer to crops, extending nutrient retention in the soil. It also contains essential micronutrients that improve crop quality. Additionally, this product is cost-effective, easy to apply, and serves as an excellent alternative to other soil conditioners.
The Left Side is the Treated Area, the Right Side is the Untreated Area
