High Concentration Sugarcane Derived Fulvic Acid NPK Liquid Fertilizer

Fulvic acid Liquid introduction

This product is manufactured using advanced triple-effect fermentation and concentration systems, with molasses selected as the primary raw material. Through modern microbial fermentation processes followed by concentration, it is transformed into a thick, dark brown liquid with a characteristic caramel-like aroma.

As a completely natural fermentation-derived product, it presents a brown, semi-viscous appearance. Products derived from sugarcane molasses carry a mild sweet fragrance, while those made from beet molasses exhibit a distinct fish-like odor.

Product Composition

Main Application

1. Remediation of contaminated soil

In soils polluted with heavy metals such as lead and cadmium, molasses can interact with heavy metal ions through its organic components, forming complexes that reduce the mobility and bioavailability of these metals, thereby lessening their toxicity to plants.

In experiments with lead-contaminated soils, the addition of molasses resulted in a 20%-30% decrease in available lead content in the soil, significantly lowering the accumulation of lead in crops grown in this soil. This effectively mitigated the inhibitory impact of lead on plant growth and helped maintain the quality and safety of agricultural produce.

Furthermore, in soils contaminated with organic pollutants like petroleum hydrocarbons, molasses serves as a carbon source and energy supply for pollutant-degrading microorganisms, enhancing their activity and population, and accelerating the breakdown and transformation of organic contaminants.

When molasses was applied to petroleum hydrocarbon-contaminated soil, over time, the degradation rate of petroleum hydrocarbons increased by 15%-20% compared to the control group without molasses.

2. Promote the improvement of saline-alkali land

The high salt content in saline-alkali soils severely restricts plant growth.

The organic matter present in molasses can improve the aggregation of soil particles, enhance soil structure, increase aeration and water infiltration, and facilitate the leaching of salts.

In addition, certain components of molasses can participate in ion exchange with soil salts, lowering the salt concentration in the soil solution and reducing the ionic toxicity of salts to plants.

For example, in a saline-alkali land remediation study, after several years of continuous molasses application, the salt content in the 0-20 cm soil layer decreased by 10%-15%, and the soil pH also declined, approaching the range suitable for plant growth. This allowed various crops that were previously difficult to cultivate in the saline-alkali soil to grow normally, thereby improving the utilization efficiency of the land.

3. Facilitate the maturation of acidic soil

In the acidic soil regions of the south, soils often suffer from issues such as aluminum toxicity and phosphorus fixation.

When the organic compounds in molasses decompose and transform in the soil, they produce organic acids and other substances. These compounds can form complexes with aluminum ions in the soil, reducing their activity and mitigating the damaging effects of aluminum toxicity on plant roots.

At the same time, molasses can stimulate the activity of soil microorganisms. Increased microbial activity promotes the release of insoluble phosphorus in the soil, raising the level of available phosphorus.

In acidic red soil areas, long-term application of molasses resulted in a 15%-20% reduction in active aluminum content and an increase of 10-15 mg/kg in available phosphorus. This significantly enhanced soil fertility, supported the growth of acid-loving crops like tea and citrus, and improved both crop yield and quality.

4. Stabilizing and improving special soils

Molasses can also contribute to the improvement of certain special soil types, such as expansive soils and red soils.

The organic matter in molasses can occupy the spaces between soil particles, strengthen the cohesion of soil particles, and reduce the swelling and shrinking of expansive soils.

Red soils, on the other hand, are heavy, sticky, and typically exhibit poor aeration and water infiltration.

Applying molasses can enhance the structure of red soil, increase its porosity, and improve both aeration and water permeability.

When a certain amount of molasses was applied to expansive soil, its expansion rate decreased by 10%-15%.

For red soil, the addition of molasses increased porosity by 8%-12%, effectively enhancing both the engineering characteristics and fertility of these special soil types.

Application Methods (Reference)

• Silage Spraying: Spray 30-40 kg of molasses liquid (50% concentration) per ton of raw materials, layering and compacting.

• Drinking Water Addition: Add 1%-2% molasses liquid to drinking water (filter to prevent blockage) to alleviate summer heat stress.

• Licking Brick Production: Mix with salt and minerals to produce liquid licking bricks, with molasses liquid constituting 30%-40%, encouraging cattle and sheep to lick freely.