Because biochemical fulvic acid can adsorb and exchange many mineral elements in the activated soil, such as nitrogen, phosphorus, potassium, zinc, iron, manganese, magnesium, etc., the effectiveness of these elements is greatly increased, thereby improving the nutritional conditions of the crop. It acts as a synergist in chemical fertilizers and reduces the adverse effects of chemical fertilizers on soil physical and chemical properties. Biochemical fulvic acid potassium is absorbed by plant roots and stimulates the physiological metabolism of plant cells, which is manifested in the increase of respiratory intensity and photosynthesis intensity.
Six major functions of biochemical triamine
1. Improve the soil;
The organic colloid in biochemical fulvic acid forms a gelatinous substance in the soil, which can glue the soil particles to increase the water-stable aggregates in the soil, coordinate the water, fertilizer, gas and heat of the soil, and improve the sand and The clay soil has a good effect, thus improving the ecological environment of the crop. The biochemical fulvic acid potassium has more active genes in the modified saline-alkali soil, and has a large salt exchange capacity, which can adsorb and retain the soluble salt in the soil. A large number of harmful cations reduce soil salt concentration and reduce the pH of saline-alkaline soil. Thereby improving the ecological environment of the crop.
2. Improve fertilizer efficiency;
Because biochemical fulvic acid can adsorb and exchange many mineral elements in the activated soil, such as nitrogen, phosphorus, potassium, zinc, iron, manganese, magnesium, etc., the effectiveness of these elements is greatly increased, thereby improving the nutritional conditions of the crop. It acts as a synergist in chemical fertilizers and reduces the adverse effects of chemical fertilizers on soil physical and chemical properties.
The effect of nitrogen fertilizer on efficiency is as follows: reducing nitrogen volatilization loss, prolonging nitrogen fertilizer efficiency, promoting nitrogen absorption, increasing nitrogen fertilizer utilization rate, accelerating the rate of organic nitrogen mineralization in soil, and promoting soil available nitrogen content. .
The synergistic effect on phosphate fertilizer is as follows: reducing the fixation of available phosphorus to the soil and acting as a phosphate solution. It converts the insoluble phosphorus in the soil into effective phosphorus and promotes the absorption of phosphorus by crops. Improve the effective utilization rate of phosphate fertilizer, promote the conversion of organic and inorganic phosphorus in soil, increase the moving distance of phosphorus in soil, and stimulate the development of crop roots.
The synergistic effect on potassium fertilizer is as follows: it can reduce the absorption and fixation of potassium in the soil and improve the utilization rate of available potassium. Promoting the release of poorly soluble potassium and increasing the amount of available potassium can alleviate the adverse effects of potassium fertilizer on soil and crops, and have a good effect on improving crop quality. Biochemical potassium fulvic acid also has a significant synergistic effect on trace elements.
3. Stimulate crop growth:
Biochemical fulvic acid potassium contains a variety of functional groups, as a physiologically active substance, it has a stimulating effect on the growth and development of crops and physiological metabolism in the body. Single inorganic fertilizer does not have such characteristics. Biochemical potassium fulvic acid is water-soluble, which not only shows obvious stimulation to various crops in the way of seed dressing, rooting, spraying, etc., but also is stimulated by root absorption.
Promote seed germination, increase emergence rate and seedling rate, and promote the root development of crops, promote seedling roots fast, secondary roots, roots increase, root elongation, so that crops absorb water and develop ability Increasingly, the stimulating effect of biochemical fulvic acid potassium showed strong growth, plant height, and strong growth in the aboveground part of the crop, especially in the early stage.
4, disease resistance function:
The high organic matter content of the soil provides an excellent environment for beneficial microorganisms. The beneficial population gradually develops a dominant population, inhibits the growth of harmful bacteria, and the plant itself grows robust due to excellent soil conditions, and the disease resistance is enhanced, thus greatly reducing Diseases, especially the occurrence of soil-borne diseases.
5, can enhance the stress resistance of crops:
The soil, water, nutrients, temperature, light, air and other factors of the crop growth environment constitute the growth conditions of the plant. The biochemical fulvic acid potassium acts as a buffer to reduce the adverse effects of crop growth and has anti-reverse performance. It can improve the drought resistance of crops, and the water saving capacity can be increased by 30%. The effect of water-saving protection is second only to the effect of mulching. Enhance the anti-freezing ability of crops, and use the biochemical fuligiric acid potassium leaf spray to improve the resilience of winter crops.
6, can improve crop quality:
The effect of biochemical potassium fulvic acid on improving crop quality will be very far-reaching. In vegetables, melon and fruit crops, sugar can be increased, vitamin C content can be increased, fruit acidity can be reduced, and tobacco, vegetables, etc. In broad-leaved crops, the quality of the leaves can be improved. In food crops, crops are made to contain more low-molecular organic nutrients.
Second, the mechanism of action of biochemical potassium fulvic acid on crops
The fulvic acid is called the wonderful organic fertilizer by the Chinese agronomy. The fulvic acid has a great influence on soil fertility. Without fulvic acid, there is no agglomerate structure of the soil, and soil without agglomerate structure is not suitable for cultivation. After in-depth research, researchers at the Institute of Chemistry of the Chinese Academy of Sciences found that fulvic acid is active and inactive. After years of research, active fulvic acid has the following positive effects on crops:
1. Can significantly increase chlorophyll content and promote photosynthesis;
2, the root system can be developed, and the root activity is enhanced;
3. It can enhance the drought resistance, frost resistance and disease resistance of crops;
4, can improve the utilization rate of fertilizer;
5, can improve quality and increase production.
The drought resistance of fulvic acid needs to be described in detail. During the heading to filling stage of wheat, an acre of wheat consumes about 10,000 kilograms of water on average, 300,000 kilograms of water is consumed in 30 days, and 30 million kilograms of water (that is, 15 billion tons) is consumed in 100 million acres of wheat. It is believed that the water in the wheat field is mainly sun-dried from the ground. In fact, more than 90% of the water is transpiration through the leaves.
Agricultural chemists in various countries have tried to find a chemical to reduce the transpiration of the foliage. However, some of the agents found are expensive, have a short duration of action, and some have disadvantages such as pollution and poor photosynthesis, so they are not practical. Chinese scientists first discovered that natural fulvic acid has anti-transpiration effects and has been reported at a world conference held in Australia, which has attracted the attention of countries all over the world.
The action time of fulvic acid can reach 10-15 days, no pollution, and does not hinder normal photosynthesis. The fulvic acid reduces transpiration by 10-15% in ten to fifteen days. Don't underestimate this number. It says that 100 million mu of wheat will be transpiration of 15 billion tons of water a month, and a 10% reduction is 1.5 billion tons. This is of great significance for wheat to fight drought.
Third, the effect of biochemical yellow humate fertilizer
The effect of fulvic acid fertilizer on improving the yield of crops and improving the quality of agricultural products is very significant. However, due to the difference in applied crops, different fertilizer types and the proportion of effective components in fertilizers, the effect of increasing yield and quality is naturally very high. Large differences, the increase in the yield of small field crops is about 5-15%, while the increase in the yield of vegetables is increased by 15-30%, according to the Agricultural University test: strawberry application of fulvic acid compound fertilizer (N10-P10- K13, 5% fulvic acid increased yield by 84.6% compared with other nutrient treatments.
From the perspective of improving the quality of agricultural products, this type of fertilizer has the effect of increasing the content of nutrients such as sugar and Vc in the seeds and reducing the content of organic acids in the seeds, and can promote the early coloration of the fruits. In turn, it enhances photosynthesis; increases the content of minerals and vitamins in plants; thickens the cell wall of the fruit, prolongs its storage time; and promotes seed germination. Stimulates plant growth by accelerating cell division; increasing crop yields while improving quality and improving physical appearance and nutritional value.
This article URL: Biochemical fulvic acid potassium and fulvic acid fertilizer
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