1、Co

Aiming to solve the existing HTH drawbacks mentioned above, we propose a novel urea assisted artificial humification technology under room temperature, creating favorable conditions for cellulose retention.

2、Water Soluble Humic Acid for Soil & Crop Health

Mix with water to produce a humic acid-rich organic solution for soil or foliar application. Compatible with other liquid fertilizers and micronutrients for a comprehensive fertilization approach.

3、Effects of humic acid

In order to investigate the effects of different application rates and methods of humic acid-containing water-soluble fertilizers on the water spinach quality, nutrient contents, soil carbon contents, and soil enzyme activities, eight treatments were established.

Development of humic acid fertilizer via ultrafiltration concentration

The resulting concentrate, with a humic acid content of 13.96 g/L, is suitable for formulating humic acid-based fertilizers. The prepared humic acid water-soluble fertilizer meets national standards, and maintains excellent stability under storage conditions of 4-30°C.

Application of humic acid

Humic acid fertilizer contains quick-acting nutrients lower than chemical fertilizers, so it can not replace chemical fertilizers, but should be applied in combination with chemical fertilizers and farmyard manure.

HUMIC SOLUTIONS

Humates, or humic substances, can be divided into three major humic fractions: fulvic acids, humic acids, and humins. Each of these fractions has some similar and some unique physical and chemical properties that contribute to their efectiveness and complement fertilizer programs.

Application method of water

Humic acid containing fertilizers have a wide range of applications and can be used for various food and economic crops such as vegetables, fruits, tea, cotton, rice, wheat, etc.

Humic Acid

In summary, humic acid-containing water-soluble fertilizers have emerged as vital components of modern nutrient management strategies, offering both environmental and agronomic benefits across a wide range of crops and geographies.

Humic Acid

Farmers increasingly adopt technologies that promote targeted nutrient application, reducing waste and optimizing input costs. Humic acid’s ability to chelate essential micronutrients ensures better assimilation by plants, promoting healthier growth without over-fertilization.

Production of artificial humic acid from rice straw for fertilizer

The water-soluble humic acid fertilizer improved the relative abundance of Glutamicibacter, Pseudomonas, and Mortierella. In this study, artificial humic acid (AHA) was produced from rice straw at room temperature.

Humic acid water-soluble fertilizer, enriched with humic acid, can improve soil structure, enhance soil fertility, and boost water- and nutrient-retention capacities. Below are detailed methods to address common challenges in using this type of fertilizer:

1. Understand Product Characteristics: First, familiarize yourself with the properties of humic acid water-soluble fertilizer, including its components, functions, and application methods. This knowledge helps optimize selection and usage.

2. Choose the Right Application Timing: While suitable for all crop growth stages, the optimal timing is typically during early growth or around the flowering stage. Crops demand higher nutrients during these periods, and humic acid fertilizer can provide adequate nourishment to promote healthy development.

3. Apply Proper Dosage: Determine the appropriate amount based on crop type, growth stage, and soil fertility. Overapplication may lead to nutrient runoff or soil salinization, while insufficient dosage could hinder normal crop growth.

4. Ensure Even Distribution: To maximize absorption, spread the fertilizer evenly around the crop’s root zone. Use tools like sprayers, drip irrigation systems, or broadcast spreading for uniform application.

5. Avoid Mixing with Alkaline Substances: Since humic acid regulates soil pH, refrain from combining it with alkaline materials (e.g., lime). Doing so may reduce efficacy or trigger adverse reactions.

6. Tailor Application Methods: Adjust application strategies based on crop and soil types. For example, use calcium-rich humic acid fertilizer on acidic soils or magnesium-rich formulas on sandy soils.

7. Regularly Test Soil Fertility: Monitor soil nutrient levels periodically to assess fertilization effects and adjust plans accordingly. This ensures crops receive balanced nutrients, improving yield and quality.

8. Prioritize Environmental Protection: Prevent contamination by avoiding direct dumping near water sources or field edges. Properly dispose of leftover fertilizer to minimize ecological harm.

9. Train Farmers: Educate farmers on effective use of humic acid fertilizers to resolve operational issues, enhance efficiency, and promote adoption.

10. Strengthen Research Support: Advance scientific studies on humic acid fertilizers to explore their agricultural potential. Convert research findings into practical guidance to drive sustainable farming practices.

This translation maintains technical accuracy while ensuring clarity and readability for English-speaking audiences. Key terms (e.g., "soil salinization," "drip irrigation") are translated using standard agricultural terminology.