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Straw fiber can help the soil water absorption, porosity and drainage, and directly promote the soil "physical phase." Soil microorganisms thus inhabit and multiply and secrete a large number of biochemical substances, including active enzymes, antibiotics, insecticidal substances, phosphorus-soluble substances, vitamins, tropism, etc., to improve the "biochemical phase" of the soil. The simultaneous input of straw fiber, organic and inorganic fertilizers and strains can promote the reproduction of beneficial microorganisms and simultaneously improve the balance between soil "biological phase", "physical phase" and "biochemical phase" to complete soil improvement.
Rainy season crops are rotted due to roots immersed in water. In fact, the main culprit of rot is not pure water, but dissolved in water such as hydrogen sulfide, ammonia, methyl mercaptan and other toxins. Some of these harmful gases are caused by protein decomposition and denitrification of nitrogenous fertilizers. In addition, some hydrogen sulfide is produced by anaerobic bacteria in the soil, such as sulfuric acid. The improper use of ammonia to produce ammonia is harmful to biological and environmental air. Produced by breeding in the state, these gases dissolved in water and contact with the roots, will poison the organization and cause rot. At the same time, the disease bacteria will invade the root and cause various diseases, such as flowering and fruit falling.
In the soil microbiota, such as photosynthesis bacteria, it can use hydrogen sulfide, carbon dioxide, water and sunlight or heat to convert it into monosaccharides and sulfates under flooding and anoxic conditions. Sulfate can also be synthesized with ammonia. Ammonium sulphate becomes a plant nutrient. Not only does it produce glucose, but it also eliminates the toxicity of hydrogen sulfide and ammonia gas from the mud, and it also turns them into useful nutrients. This is a great contribution to soil microbes.
Compost organic materials such as rice straw, wheat straw, bagasse, and rice are added to the organic raw materials of the compost, and the effects of good soil improvement can be obtained by adding the fertilizer and soil microorganisms to the soil at the same time. High-fibers provide microorganisms inhabiting environmental microbes and obtain the required nutrients from composts and fertilizers to multiply and establish a good soil “bio-phaseâ€. Microorganisms can secrete a large amount of polysaccharide mucilage in the soil, promote soil pelletization, and continuously ferment in the soil to loosen the soil.