1, It can improve the soil structure, improve soil fertility, and promote the absorption of chemical fertilizers.The focus of biological fertilizer contains some functional bacteria, such as: rhizobia, nitrogen-fixing bacteria, which can convert the nitrogen in the air into nitrogen nutrients that can be absorbed by plants, increasing the source of nitrogen in the soil, and a variety of phosphorus solubilizing, potassium solubilizing bacteria can break down the insoluble phosphorus and potassium in the soil, transforming it into fast-acting phosphorus and potassium compounds that can be absorbed and used by crops, so that the supply of nutrients in the crop growth environment increases.
Long-term use of
microbial fertilizer can make the original relatively stagnant soil become more loose and breathable, and the water and fertilizer retention performance has also improved.
2, It can reduce crop pests and diseases, enhance the crop's resistance to disease.Biofertilizer applied to the soil it's beneficial microflora in the crop root system around the massive growth and reproduction, the formation of the dominant colony, can destroy the harmful bacteria in the soil while blocking the harmful bacteria to the crop. So that the crop to avoid the attack of disease, reduce the incidence of crop.
3, It can promote growth.After using biofertilizer, microorganisms improve the environment of the soil through their activities and establish a good growth and development environment for crops, especially the development of crop roots, which improves the nutrient absorption capacity of crop roots and accelerates the growth and development of crops.
4, It can improve the quality of crops.Due to the activity of biological bacteria, it balances the supply of nutrients in the soil, prevents the crop from over-absorbing
nitrogen fertilizer, increases the protein, sugar and vitamin content, decreases the nitrate content, and improves the crop quality significantly, with good taste and longer shelf life.
5, It is a soil nutrient conditioner.Plants need phosphorus and potassium to grow. But in the soil, most of them exist in insoluble state, such as potassium feldspar, which plants cannot use, while Bacillus coli and Bacillus megaterium are like a group of troops with iron mouth and steel teeth, dissolving the hard bone of potassium feldspar slowly, "grinding and chewing", turning it into soluble phosphorus and potassium elements, which plants can easily absorb.
The rhizobacteria process the nitrogen in the air into ammonia nitrogen that can be absorbed by the plants, which is continuously delivered to the plants, forming the plants' natural nitrogen factory.