EM Biological Organic Compound Fertilizer
Project Profile - EM Microorganism Organic Compound Fertilizer EM Microorganism Organic Compound Fertilizer is an innovative, multi-functional, and environmentally friendly fertilizer designed to enhance the quality of agricultural products and restore soil health. It is made from a blend of chicken manure, cake fertilizer, humic acid, inorganic nutrients, and trace elements, all processed through fermentation, deodorization, granulation, and drying using beneficial microorganisms. This unique formulation combines organic, inorganic, and microbial fertilizers into one product, offering quick, slow, and long-term nutrient release, as well as three key functions: supplying nutrients, promoting growth, and enhancing disease resistance. Compared to traditional chemical fertilizers, it offers lower costs, reduced environmental impact, improved soil structure, longer-lasting effects, higher yields, better quality, and increased resistance to pests and diseases. It can effectively replace chemical fertilizers, reducing or eliminating the need for pesticides, thus supporting sustainable agriculture. The fertilizer uses organic materials as its base, supplemented with small amounts of inorganic nutrients and trace elements to meet the early growth needs of crops. Beneficial microorganisms in the formula help dissolve phosphorus, release potassium, fix nitrogen, and break down proteins, sucrose, and cellulose, ensuring continuous nutrient supply throughout the crop's growth cycle. These microbes also enhance root health by increasing the production of amino acids, vitamins, hormones, and antibiotics, which promote plant growth while suppressing harmful pathogens. Enzymes in the fertilizer convert pesticide residues and excess fertilizers into non-toxic substances, protecting the plants. Humic acid further boosts photosynthesis, accelerates maturity, and improves overall crop quality. The fertilizer also helps loosen compacted soil, reduce alkalinity, improve water retention, and prevent nutrient loss, making it ideal for long-term soil improvement. One of the key advantages of this fertilizer is the synergistic activity of effective microbial populations. During fermentation, they decompose organic matter, eliminate harmful bacteria, and neutralize odors. Once applied, these microbes quickly colonize the soil, acting like miniature "fertilizer factories" that continuously release bioactive compounds for plant use. They break down insoluble minerals such as potassium and phosphate into forms that plants can absorb, and transform complex organic materials like cellulose and lignin into usable carbohydrates. Additionally, specific enzymes detoxify harmful substances in the soil, reducing potential damage to crops. Beneficial microbes also outcompete pathogenic organisms, particularly fungi, significantly reducing soil-borne diseases. Increased populations of Azotobacter in the soil help convert atmospheric nitrogen into nitrate, supplementing the nitrogen needs of crops and reducing reliance on synthetic nitrogen fertilizers. Nitrifying bacteria and nitrosomonas increase the conversion of ammonia into nitrates, making more nitrogen available to plants. Meanwhile, a decrease in denitrifying bacteria limits nitrogen loss, preventing nitrite accumulation in crops and groundwater. Actinomycetes play a vital role in disease suppression, as many produce antimicrobial compounds that directly inhibit pathogens and boost plant immunity. Some actinomycetes also contribute to nitrogen fixation, improving soil fertility. Aerobic cellulose-decomposing bacteria and anaerobic lactic acid bacteria aid in breaking down lignin and cellulose, providing more carbon sources for plants. Yeasts support the growth of microorganisms and microfauna, including earthworms, which improve soil structure and aeration. Reducing mold populations in the soil is crucial for preventing fungal diseases such as downy mildew, gray mold, and powdery mildew. Studies have shown that after using this fertilizer, the population of beneficial microbes like nitrogen-fixing bacteria, nitrifiers, cellulose-decomposers, actinomycetes, and yeasts increases significantly—often doubling or even multiplying tenfold—while harmful microbes like denitrifiers and molds decline sharply. This fertilizer is versatile and suitable for various crops, including food crops, cash crops, fruit trees, and lawns. Field trials show that applying it increases wheat, rice, cotton, and sugar beet yields by 6–12%, while improving the sugar content of melons by 1.98% and reducing cracking rates by 4.17%. Available in both powder and granular forms, it can be used as a base fertilizer or top dressing, with optimal results when applied in furrows or at planting points. Granular form is ideal for general application, similar to chemical fertilizers, and can be applied mechanically. A recommended dose is 50–100 kg per mu, with double the first application. It provides fast-acting and long-lasting nutrition, but should not be mixed with chemical fertilizers or pesticides. If pesticides are needed, they should be applied separately. Always adjust the dosage based on soil conditions and crop type for best results. Thermostat Heating Freezing Equipment Thermostat Heating Freezing Equipment,Drug Storage Refrigerator,Blood Bank Refrigerator,Laboratory Pharmacy Refrigerator CHANGZHOU RICHGENIUS MEDLAB CO.,LTD , https://www.rich-gen.com