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Thick Cane Molasses Liquid Fertilizer Organic For Soil Health Improvement
Product Details
| Einecs No | Bio Fulvic Acid Fertilizer | Application | Foliar Spray, Drip Irrigation, Soil Application |
|---|---|---|---|
| Richness | 70% | Water Solubility | 100% Soluble |
| Classification | ORGANIC FERTILIZER | Other Names | FULVIC ACID |
| Fulvic Acid Content | ≥5% | Trace Elements Content | ≥0.5% |
| State | Powder/Liquid | Release Type | QUICK |
| Function | Increase Yield | Ph Range | 5-6 |
Product Description
Thick Cane Molasses Liquid Fertilizer Organic For Soil Health Improvement
Applications in Soil Improvement
1. Natural Nutrient Source: Molasses is naturally rich in organic matter and essential nutrients including nitrogen, phosphorus, potassium, and various trace elements, making it an excellent foundation for high-quality fertilizer production.
Through simple processing methods involving fermentation with selected microbial strains, sugarcane molasses alcohol byproducts can be transformed into nutrient-rich liquid organic fertilizer. Vegetable cultivation trials demonstrate that molasses-fermented organic fertilizer enhances flavor quality, increases vitamin content, and improves overall market competitiveness of produce.
2. Enhanced Chemical Fertilizer Utilization: Molasses serves as an effective fertilizer efficiency booster when combined with conventional chemical fertilizers.
Its organic components form complexes with nutrient ions in soil, reducing nutrient fixation and leaching losses. When incorporated with nitrogen fertilizers, molasses improves soil's nitrogen adsorption and retention capacity, enabling more gradual and even nitrogen release that extends the effective fertilization period.
Rice cultivation trials show that nitrogen fertilizers supplemented with molasses achieve 15%-20% higher nitrogen use efficiency compared to standard nitrogen fertilizers. This improvement allows for reduced nitrogen application rates, lower input costs, and minimized environmental impact.
3. Microbial Fertilizer Activation: Microbial fertilizers enhance soil ecological environment and fertility through beneficial microorganism activity.
Molasses provides abundant carbon sources and energy for microorganisms, significantly boosting the activity and reproductive capacity of beneficial microbes in microbial fertilizers. When added to Bacillus-based microbial fertilizers, molasses rapidly increases Bacillus populations and significantly enhances their ability to decompose insoluble phosphorus and potassium in soil.
Orchard applications of microbial fertilizers with molasses effectively increase available phosphorus and potassium content in soil, promote nutrient absorption by fruit tree root systems, and improve fruit yield and quality.
4. Stress-Resistant Fertilizer Development: Molasses shows strong potential as a base material for developing stress-tolerant fertilizers.
Active compounds in molasses, including betaine and proline, enhance crops' ability to withstand environmental stresses. When combined with other stress-resistance enhancers like seaweed extracts and amino acids, molasses enables innovative stress-tolerant fertilizer formulations.
Field applications in arid cotton-growing regions demonstrate that molasses-based stress-resistant fertilizers significantly improve drought tolerance. Under limited water conditions, cotton plants maintain higher leaf relative water content, exhibit lower wilting rates, and achieve more stable yields.
5. Slow-Release and Controlled-Release Fertilizer Production: These fertilizers supply nutrients gradually according to crop growth requirements, minimizing fertilizer losses and reducing environmental impact.
Using molasses as a base material with physical or chemical modification techniques to form coatings on fertilizer granules produces fertilizers with controlled nutrient release properties. Nitrogen fertilizer particles encapsulated with coating materials formulated from molasses blended with starch and other components create effective slow-release fertilizers.
Nutrient release behavior can be regulated by soil conditions including moisture levels and temperature. During early crop development stages, slower nutrient release matches lower nutrient demands of young plants, while during vigorous growth periods, increased release rates provide sufficient nutrients for optimal crop development.
Product Composition
| Component | Specification |
|---|---|
| Humic Acid (g/L) | 48.4 |
| pH (1:250 dilution) | 5.6 |
| Nitrogen (N) (g/L) | 21.7 |
| Phosphorus (P₂O₅) (g/L) | 3.1 |
| Potassium (K₂O) (g/L) | 62.7 |
| Density (g/ml) | 1.3 |
| Free Amino Acids (g/L) | 20.06 |
| Water Insoluble Matter (g/L) | 0.8 |
| Total Amino Acids (g/L) | 44.74 |
| Organic Matter Content (g/L) | 366 |
| Moisture Content (%) | 45.63 |
| Humic Acid (g/L) | 48.4 |
Application Methods (Reference)
- Silage Application: Apply 30-40 kg of molasses solution at 50% concentration per metric ton of forage material. Spray evenly during layering and ensure thorough compaction.
- Drinking Water Supplementation: Mix molasses liquid into drinking water at 1%-2% rate. Filter the solution to avoid clogging, helping reduce heat stress during hot summer conditions.
- Lick Block Formulation: Blend molasses liquid with salt and mineral additives to manufacture liquid lick blocks, with molasses accounting for 30%-40% of formulation, promoting voluntary intake by cattle and sheep.
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