humic acid
The relationship between humic acid and soil
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First, the basic information of the soil
The soil, formed by hard rock exposed to the surface, is formed through its complex weathering process and soil-forming process over a long period of time, from the rock to the parent to the soil.
Soil minerals are the main constituents of the soil and constitute the “skeleton” of the soil, which generally accounts for 95%-98% of the mass of the soil solid phase. Rock is a substance composed of simple or multiple minerals. After weathering, the soil parent material is formed, and then the soil suitable for cultivation is selected by screening.
Furthermore, the weathering of the rock forms the parent material, and the weathering refers to the process of mechanical fracture and chemical change under the influence of air, water, temperature and biological activities of the outermost layer of the crust. It is divided into three types: physical weathering, chemical weathering, and biological weathering. As a result of weathering, the rock is further decomposed to produce secondary clay minerals. Their particles are very fine, generally less than 0.001 mm, which is in a colloidal dispersion state, which causes the parent material to have adsorption capacity, cohesiveness and plasticity, and a capillary phenomenon occurs. The ability to store water, while releasing some simple soluble salt substances, combined with the biological excretion of nutrients in the process of biological weathering, constitutes the source of primary plant nutrients in the soil, and the start of the weathering of the organism means the beginning of the soil-forming process.
Due to different natural conditions, chemical weathering and biological weathering predominate in the hot and humid south, weathering intensity is large, and weathering is more thorough, so finer clay is formed; in the north of dry cold, physical weathering predominates, and the degree of weathering is relatively shallow. Therefore, the formed mineral particles are coarser, and most of them are gravel, sand and silt.

Second, the basic classification of cultivated soil
The various solid particles in the soil are referred to as soil particles and can be divided into single particles (primary particles) and complex particles (secondary particles). The former is mainly composed of rock mineralized weathered fragments and crumbs. It can exist alone when completely dispersed. It is often called mineral particles and mineral soil particles. The latter is a group of individual particles that are combined under physical and chemical chemistry. Organic mineral complexes and microaggregates.
The size of soil mineral particles is uneven, large several millimeters or more, small is less than 1nm, and the difference is 100 times. The current classification methods in China are mainly based on different particle sizes, and the soil minerals are roughly divided into three types, sand grains (1~0.05). Mm), powder (0.05 ~ 0.01mm) and cosmid (<0.001mm), so the corresponding tillage soil is divided into three categories: sandy soil, loamy soil and clay soil. The characteristics of each soil fertility are not described, and the relevant information can be easily searched. The conclusion is that the loamy soil has better comprehensive performance and is suitable for most crops.
In order to explore the function of humic acid, let’s continue to talk about the soil, because what is the true understanding of the soil? What have you experienced? What else do you need? By waiting for these questions, it is possible to better explore the significance of humic acid for the soil.

Third, soil organic matter
Soil organic matter is an important part of soil. It refers to all carbon-containing organic substances present in the soil. It includes various animals, plant residues, microorganisms and various organic substances that are decomposed and synthesized in soil. It is soil fertility. Material basis.
Soil organisms are part of the entire ecosystem of nature. They mainly include animals, plants and microorganisms living in the soil. They do not refer to the professional vocabulary such as protozoa and metazoans. Simply speaking, soil animals have mites, nematodes, mites, ants. , snails and some insects, etc.; soil microbes contain the most bacteria, fungi, actinomycetes, tiny animals and viruses, etc., the data show that generally 1kg soil can contain 500 million bacteria, nearly 1 billion fungi, 100 Billions of actinomycetes and 500 million tiny animals. The above composition is beneficial to crops, and also has harmful organisms to the crops, which together play the vitality of the soil and play a leading role in the formation and development of the soil.
The organic matter entering the soil generally assumes three states: fresh organic matter, semi-decomposed organic residues and humic substances that have changed. Fresh organic matter is the undecomposed biological remains in the soil; semi-decomposed organic matter is a substance in which fresh organic matter is partially decomposed by microorganisms and has destroyed the original form and structure; both of them can be completely separated from the soil by mechanical means. It generally accounts for 10% to 15% of the total organic matter in the soil. It is an important source of soil organic matter and crop nutrients, and is also a raw material for the formation of soil humus.
Humic substance is a brown or dark brown macromolecular colloidal substance which is decomposed and re-synthesized by organic matter. It is closely combined with soil minerals and can not be separated by mechanical means. It is the main component of organic matter and is in general soil. It accounts for 85% to 90% of the total organic matter. Soil humus is the main substance that improves soil properties and supplies nutrients to crops, and is also one of the main indicators of soil fertility levels.
The organic matter entering the soil undergoes an extremely complex transformation process under the action of microorganisms. This transformation is mainly in two aspects, namely the mineralization process and the humification process of organic matter. The mineralization process is the decomposition of organic matter into simple inorganic Compounds (CO2, H2O, NH3, etc.) and release mineral nutrients; the humification process allows simple organic compounds to form new, more stable organic compounds and is a process of storing organic matter and nutrients.
Both of them are quite complex transformations. The results of modern research indicate that the decomposition of organic matter mainly depends on hydrolase, and the synthesis of humus is mainly the action of oxidase. It is generally believed that the formation of humus goes through two stages:
The first stage is a component (structural unit) in which microorganisms convert animal and plant residues into humus, such as aromatic compounds (polyphenols) and nitrogen-containing compounds (amino acids);
The second stage is the synthesis (condensation) of humus by the action of microorganisms. In this stage, the phenol oxidase secreted by the microorganisms oxidizes the polyphenols into hydrazines, which are easy to be combined with other components (amino acids, peptides). a monomer molecule that condenses into humic substances.
After the formation of humus, it is difficult to decompose, and it has considerable stability without changing its formation. However, when the conditions of formation change, the microbial population also changes, and the new microbial population promotes the decomposition of humus and The stored nutrients are released for plant use. Therefore, the two opposing processes of humus formation and decomposition are closely related to soil fertility. The two processes of coordination and control are naturally very important issues in agricultural production.
Everyone should have a clear understanding of soil, soil minerals and organic matter. If you don’t understand that you didn’t look at it carefully, the proportion of humus in soil organic matter and its role are undoubtedly very important. Then talk carefully below. Talk about what is humus.

Fourth, soil humus
Humus is a kind of natural high molecular polymer with complex composition and structure. Its main body is various humic acids and salts combined with metal ions. It is closely combined with soil minerals to form organic-inorganic composites. Therefore, it is difficult to dissolve in water. Therefore, in order to study, we need to extract. In the result of this extraction, we have seen the humic acid we have seen so far (there is a long-awaited relationship with the topic).
The main ingredient in the extract of humus is humic acid, which is currently divided into three types in academic and industrial fields: fulvic acid (fulic acid), brown humic acid (humic acid or palm humic acid), black humic acid (Humin or Black humic acid).
The humic acid extracted from the soil is mainly composed of carbon, hydrogen, oxygen, nitrogen, sulfur and other elements. In addition, it contains a small amount of ash elements such as calcium, magnesium, iron and silicon. The humic acid composition of different soils is not the same, so the humus Overall, the carbon content is 55% to 60%, and the nitrogen content is 3% to 6%. The C/N ratio is 10:1 to 12:1 on average.
The chemical structure of humic acid has not yet been determined, but it is certain that the molecular structure is complex and belongs to macromolecular polymers. The aromatic nucleus is the main body and various functional groups are attached. The main functional groups are phenolic hydroxyl group and carboxyl group. Methoxy, and nitrogen-containing cyclic compounds, etc., which are more difficult to decompose, can only be released after the aromatic nucleus is destroyed. Because of the presence of these oxygen-containing functional groups, humic acid exhibits various activities such as ion exchange, complexation ability to metal ions, and redox properties. These characteristics are also closely related to the electrical properties of humic acid, which is an amphoteric colloid with a negative and positive charge on the surface, usually with a negative potential. The source of these electrical properties is mainly the oxygen-containing surface of the molecule, such as the dissociation of carboxyl groups and phenolic hydroxyl groups and the protonation of amine groups.

Fifth, talk about humus function
1, water and fertilizer capacity
The humus is porous and porous, and it is a hydrophilic colloid. It can absorb a large amount of water, so it can greatly improve the water retention capacity of the soil. In addition, humus improves soil permeability, reduces water evaporation, and provides more effective water for crops.
Humus has two kinds of positive and negative charges, so it can adsorb cations and cations. Because it is mainly charged with negative charge, it has strong ability to adsorb cations, which is used as nutrient.
Once cations such as K+, NH4+, Ca2+, and Mg2+ are adsorbed, they can avoid loss with water, and can be exchanged by other cations near the roots for absorption by crops without changing the effectiveness of ions.
The ability of humus to retain cationic nutrients is much larger or even several times higher than that of other mineral colloids. Therefore, the application of organic fertilizers of humus type in soils with weak fertility ability not only increases the nutrient content of soil, but also improves soil physics. Nature, thereby improving its ability to retain fertilizer.
2, acid-base buffer capacity
Humus is a weak acid with a multi-acid functional group. Its salt has the function of amphoteric colloid, so it has a strong ability to buffer acid-base changes. Therefore, increasing the soil humus mass fraction can enhance the soil buffer acid-base performance and alleviate soil peracid. Or too alkaline.

  1. Improve soil physical properties
    The humus is mainly coated in the form of a film on the surface of the mineral soil. Since it is a colloid, the cohesive force and adhesion are larger than the sand (as mentioned above), and the sand can be added after being applied to the soil. Viscosity, which effectively promotes the formation of agglomerate structures. Because the humus is soft, flocculated and porous, the cohesive force is nearly 10 times smaller than the cosmid, and the adhesion is less than half of the cosmid. Therefore, after the cosmid is coated, it is easy to form scattered agglomerates, making the soil loose. And no longer form a hard block. The above indicates that the humus can make the sand tight, the clay becomes loose, and the soil retains water, water permeability and gas permeability, which is more suitable for agricultural farming.
    4, regulate soil heat
    It has a certain influence on the thermal condition of the soil, mainly because humus is a dark substance, and its presence can significantly deepen the color of the soil, thereby regulating the heat absorption of the soil. At the same time, the heat capacity of humus is larger than that of air and minerals, but it is smaller than water and the thermal conductivity is middle. Therefore, under the same sunshine conditions, the temperature of soil with high humus mass fraction is relatively high, and the change range is not large, which is conducive to low-temperature planting of crops. Better growth.
  2. Promote soil microbial activities
    The energy and nutrients required for the life activities of soil microbes are directly or indirectly derived from soil organic matter, while the humus, which is the main form of soil organic matter, bears the first need for nutrient requirements for microbial life activities; humus can regulate soil acid and alkali The reaction, which promotes the beneficial changes of the physical structure of the soil, also provides a strong guarantee for the life activities of the microorganisms, which is accompanied by the promotion of the ability of various microorganisms to transform substances, thereby providing a guarantee for the healthy growth of crops in the soil.
    The important role played by humus in the soil is obvious. There is a problem. Since the soil itself has humus, why do we still add it artificially? The soil contains various mineral elements. Why do we need to add various elements? Very simple, in order to increase crop yields; then with the increase in production, the problem of what the soil has experienced is easy to answer: artificially excessively adding inorganic elements, destroying the original minerals, organic matter and microbial environment of the soil; What the soil needs is gradually becoming clear: organic matter and micro-organisms, supplemented with inorganic mineral elements with the needs of crops.
    What kind of organic matter is good and what is bad? I think many experts can’t express it accurately, because we are destroying the soil organic matter formed by thousands or even hundreds of millions of years. What do you say now? In summary, of course, the source is humic acid.

Besides humic acid, ore source humic acid is derived from peat, lignite and weathered coal. As mentioned in the previous article, it is conceivable that the current source of humic acid is also a substance formed by animal and plant residues after thousands of years. This is not the same soil. Is there a primitive humus component that has not been artificially destroyed during the formation process? Humic acid is the main component of soil humus, and artificial extraction may be to alleviate the lack of effective humus in existing soils.
This may be the meaning of humic acid for the soil, and the overall advantages are quite obvious.

Potassium humate and potassium fulvate
Difference between potassium humate and potassium fulvate
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potassium potassium and potassium fulvate is are non-uniform macromolecular aromatic hydroxy acid salt. It has a black particle or a powdery solid and is a non-uniform macromolecular aromatic hydroxy acid salt. It has a black particle or a powdery solid and is easily soluble in water.

The aqueous solution is alkaline. humic acid has abundant active groups such as carboxyl group, hydroxyl group, phenolic hydroxyl group, sulfhydryl group and methoxy group.

After being applied to the soil, it can react with soil minerals through complexation, chelation and adsorption to improve soil structure and activate soil nutrients. Improve soil fertility and water retention capacity. It has obvious improvement effects on low-yield fields, acid soils, albic soils, saline-alkali land, sandy alkali land and sand wasteland.

What is more prominent is that it can increase the content of soil available potassium (especially water-soluble potassium) and reduce the fixation of potassium in soil. Promote the release of poorly soluble potassium, improve the supply of potassium in soil, and increase the absorption of potassium by crops.

It combines with the nitrogen, phosphorus and other elements required by plants to become a multifunctional compound fertilizer, and can be used as a soil conditioner, plant growth stimulation and fertilizer effect enhancer, and crop nutrient spray solution.

Potassium fulvate is formed by the reaction of fulvic acid and potassium hydroxide. The appearance of potassium fulvate is brownish yellow extra fine powder, slightly caramel flavor, instant soluble and no residue, fineness <120 mesh, water soluble >99.7%, water-soluble fulvic acid >50%, potassium oxide 11.7% nitrogen 3% phosphorus 0.4% crude protein content 19.78% amino acid 8.51%, and a large number of B vitamins, vitamin C, inositol, polysaccharides, etc., PH Between 5-6, its activity is 10 times that of natural humic acid, and it also contains various vitamins, trace elements, bacterial proteins, nucleic acids, surfactants and growth-promoting factors (bioactive substances).

Potassium humate is a high-efficiency macromolecular organic compound. This product can stimulate the rapid rooting of crops, multi-rooting, robust growth, increase chlorophyll, Vc content and sugar content, and play a role in drought resistance, cold resistance and disease resistance.

High quality and low cost complexing agent. The product is all water-soluble, acid-base resistant, anti-divalent ion, and can be co-dissolved with various trace elements and a large number of elements, without flocculation. Used as a main ingredient or additive for foliar fertilizer, organic fertilizer, fertilization or organic fertilizer.

Potassium fulvic acid is a new type of pure natural mineral active potassium fertilizer. It is a green high-efficiency and energy-saving fertilizer. Its appearance is brown, foamy microporous particles, containing pharmaceutical ingredients, and it has the characteristics of instant dissolution and quick action.

It can effectively kill all kinds of underground pests and has special effects on preventing the occurrence of root-knot nematode disease. It can prolong the fresh-keeping period and picking period of fruits and vegetables, prevent falling flowers and fruit drop, increase the sugar content of fruits and improve the quality of fruits.

Both potassium humate and potassium fulvic acid can be used in agricultural production, and the roles played are different and coincident. The appropriate products are selected according to the specific needs of the crops, so as to maximize crop yield.

Humic Acid and Potassium Humate
Humic Acid and Potassium Humate
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Humic acid (mineral source)and potassium humate is a polymer of natural organic polymer compounds, which is the decomposition of plant residues through tens of millions of years or even hundreds of millions of years, and the decomposition and transformation of microorganisms, as well as a series of physical and chemical effects of the earth. The formed polymer is an amorphous polymer.


Function of humic acid and potassium Humate

  1. Improve soil aggregate structure
  2. improve fertilizer utilization
  3. Stimulate soil microbial reproduction
  4. Promote crop growth
  5. Chelation of trace elements
  6. solution of phosphorus and potassium

Humic Acids

Humic acid includes black humic acid, brown humic acid, and fulvic acid. Many people will confuse humic acid with potassium humate. Simply put, humic acid is a kind of organic mixture, and potassium humate is one of the least molecular weight components, soluble in water and soluble in acids and bases. Because of its many functional groups (hydroxyl, carboxyl, methoxy, etc.), it has high activity and good effect, and is often proposed.

Potassium Humate

What about potassium humate? Potassium humate is divided into two categories from the source:

From the source: the source of humic acid is the residue of plants and animals (brown coal, weathered coal, peat) formed by tens of millions of years of soil microbial transformation.

The biochemical humic acid, which is made by using molasses to produce alcohol waste liquid or the waste water after producing yeast, is prepared by concentration and spray drying, and the humic acid is highly hygroscopic and has a sugary taste.

From the composition: the main components of biochemical humic acid potassium are polysaccharides, lignin, protein, and few functional groups. The ore source humic acid potassium is rich in various functional groups such as hydroxyl group, phenol group and carboxyl group, and the utilization rate is high.

From the function point of view: the source of potassium humate can regulate the pH of the soil due to its functional group. It is also a natural chelating agent, which chelate with metal ions, reduce nutrient loss or solidification, promote direct absorption of plants, and promote poor solubility in soil. The aluminosilicate inorganic mineral (phosphorus and potassium) forms soluble nutrients and is directly absorbed by plants.

Functions of potassium Humate

  1. Promote the development of crop roots and increase the rate of emergence. Potassium humate is rich in a variety of nutrients. It can be seen in new roots in 3-7 days. At the same time, it can increase secondary roots, increase the ability of plants to absorb nutrients and water, promote cell division and accelerate crop growth.
  2. Improve fertilizer utilization. Potassium humate provides the necessary carbon and nitrogen sources for beneficial microbial activities in the soil, which promotes the proliferation of microorganisms, dissolves phosphorus, dissolves potassium, and fixes nitrogen, thereby greatly improving the utilization of nitrogen, phosphorus and potassium, and generally increasing the utilization rate by 50%. the above.
  3. Improve the drought resistance, cold resistance and disease resistance of plants. Potassium humate can promote the formation of soil aggregate structure, enhance soil fertility and water retention capacity, and enhance plant drought resistance. Potassium humate can enhance the photosynthesis of plants and increase the organic matter in plant cells, thereby improving the cold resistance of crops. The roots of the plants are developed, the ability to absorb nutrients is greatly enhanced, the plants are robust and the disease resistance is strong.
  4. Improve production and improve quality. Potassium humate is completely soluble in water, easy to absorb and has strong permeability. The effect is more than 5 times that of common humic acid. The active substance of fulvic acid makes the absorption and utilization rate of nitrogen, phosphorus and potassium reach 50% or more, greatly enhancing the nutrition of the plant itself. Increase yield and improve crop quality.
  5. Improve soil and resist heavy mites. Humic acid combines with calcium ions in the soil to form a stable agglomerate structure. The water, fertilizer, gas and heat of the soil are regulated. The soil is beneficially multiplied, and the harmful bacteria in the soil are controlled, thus improving crop resistance and causing The long-term excessive fertilization caused by the knot and soil salinity has obvious repair function.
humic acid
Humic acid and fulvic acid
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Humic acid (HA) is a kind of organic matter formed and accumulated by a series of processes such as decomposition and transformation of plant remains and microbial reaction, including fulvic acid (FA). ) and Humin (HM). Composition: mainly composed of C, H, O, N, S and other elements. Composition: It contains various functional groups such as a carboxyl group, a hydroxyl group, a phenolic hydroxyl group, an alcoholic hydroxyl group, and a mercapto group.

Characteristics of humic acid

1. It is a macromolecular organic mixture, which is naturally weakly acidic. There are three components: fulvic acid, black humic acid and brown humic acid. It is usually in a black or brown colloidal state, and its color and specific gravity increase as the degree of coalification increases.

2, molecular weight from tens of thousands to millions, with a loose “sponge-like” structure, specific surface area of ​​330 ~ 340 m2 / g, with a strong adsorption capacity.

3. It is a hydrophilic reversible colloid with a specific gravity between 1.330 and 1.448.

4, carboxyl, hydroxyl, phenolic hydroxyl, alcoholic hydroxyl, sulfonic acid groups and other active groups, easy to form complexation and chelation reaction with metal ions.

The fulvic acid

fulvic acid is extracted from natural humus and is a group of substances with a small molecular weight and a yellow or brownish yellow color which is soluble in alkali, acid and water.

It is a plant growth regulator that promotes plant growth and enhances plant resistance, yield and quality.

Fulvic acid is the best core component of soil humus. It is a small molecular weight, fully water-soluble organic aromatic substance which is decomposed and decomposed by organic matter.

It is the best humic acid component in soil and the core material for the formation of soil aggregate structure.

Fulvic Acid
Fulvic acid and humic acid
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Fulvic acid is the smallest and most active component of humic acid. It is the essence of the active ingredients of humic acid. In the practical application of agricultural production, the stability of fulvic acid is the best.

Fulvic acid is the best core component of soil humus. Is that the molecular weight generated by decomposition and decomposition of organic matter is small, Fully water soluble organic aromatics,
Is the best humic acid in the soil,It is the core material that forms the structure of soil aggregates.

Advantages of fulvic acid


The fulvic acid contains functional groups such as carboxyl group and phenolic hydroxyl group, which has strong complexation, chelation and surface adsorption ability, can reduce the loss of ammonium nitrogen, increase the moving distance of phosphorus in the soil, and inhibit the fixation of water-soluble phosphorus in the soil. Ineffective phosphorus is converted into effective phosphorus, which promotes the absorption of phosphorus by roots; fulvic acid can absorb and store potassium ions, and the effective potassium content is especially effective for potassium fertilizer.

The fulvic acid can increase the utilization rate of nitrogen, phosphorus and potassium nutrients in the fertilizer by more than 20%.

The synergistic effect of fulvic acid on nitrogen fertilizer The active groups of fulvic acid (including carboxyl groups, hydroxyl groups and certain groups containing P, O, N, S) are generally electron donors, which are easily associated with many electron acceptors. (Multivalent metal ions, organic groups or ions) constitute a coordination compound called a complex or a chelate. For example, fulvic acid-urea, etc., is actually a complex (chelating) substance, which can reduce the loss of ammonium nitrogen and increase the utilization rate of nitrogen fertilizer. Oxidatively degraded nitroxanthohumic acid can inhibit urease activity and reduce urea volatilization.

Adding fulvic acid to ammonium bicarbonate can reduce the nitrogen volatilization rate of ammonium bicarbonate from 13.1% to 2.04% in 6 days. In the farmland test, the effect of ammonium bicarbonate was maintained for more than 20 days, and the ammonium fulvic acid could reach more than 60 days. The addition of fulvic acid, especially nitroxanthate, to urea can form a urea complex, which slows the decomposition of urea, prolongs the fertilizer efficiency, reduces the loss, and increases the utilization rate of urea by 30% and the aftereffect by more than 15%. As a result of measuring the nitrogen use efficiency, the utilization rate of fulvic acid was increased from 30.1% to 34.1%, and the nitrogen uptake was increased by 10%.

The effect of fulvic acid combined with nitrogen on plant growth and development is very obvious. When nitrogen and fulvic acid are sufficient, plants can synthesize more protein, promote cell division and growth, so the plant leaf area grows faster, and more leaf area can be used for photosynthesis. It has obvious effects on promoting plant growth and health. Often, after application, the leaf color turns green quickly and the amount of growth increases.

The synergistic effect of fulvic acid on phosphate fertilizer: Degraded fulvic acid can increase the distance of phosphorus movement in the soil, inhibit the fixation of water-soluble phosphorus in the soil, convert the ineffective phosphorus into effective phosphorus, and promote the absorption of phosphorus by roots. Use fulvic acid to protect water-soluble phosphate fertilizer or phosphorus-based compound fertilizer to reduce phosphorus fixation; promote phosphorus absorption and increase phosphorus fertilizer utilization rate.

The fertilizer efficiency test showed that adding 10-20% of fulvic acid to calcium, heavy calcium or ammonium phosphate could increase the fertilizer efficiency by 10-20% and the phosphorus uptake by 28~39%. The radioactive phosphorus tracer test measures the utilization rate of phosphate fertilizer. After adding fulvic acid, the utilization rate of phosphate fertilizer increased from 15.4% to 19.3%, that is, the utilization rate of phosphate fertilizer increased by a quarter.
The fulvic acid and phosphate fertilizer participate in photosynthesis, respiration, energy storage and transmission, cell division, cell enlargement and other processes in plants.

Synergistic effect on potassium fertilizer: The acidic functional group of fulvic acid can absorb and store potassium ions, and reduce the amount of potassium lost with water in sandy soil and leached soil. The fulvic acid prevents the fixation of potassium in sticky soils and increases the amount of exchangeable potassium.

fulvic acid has a dissolution effect on the potassium-containing minerals, slowly increasing the release of potassium and increasing the content of available potassium in the soil. Fulvic acid can also use its biological activity to stimulate and regulate the physiological metabolism of crops, increasing the potassium uptake by more than 30%.

The combination of fulvic acid and potassium promotes photosynthesis, can significantly increase the absorption and utilization of nitrogen by plants, and is quickly converted into protein, and can also promote plant economic water.

Promote the absorption of micro-fertilizer and effectively solve the deficiency syndrome: the trace elements in the chelating agent of fulvic acid form a humic acid chelate compound which is highly mobile and easily absorbed by crops, and is transmitted to the defective part of the crop to effectively solve the deficiency syndrome.

In addition to a large number of elements such as nitrogen, phosphorus and potassium, crop growth and development also requires trace elements such as iron, boron, manganese, zinc, molybdenum and copper. They are components of various enzymes in the crops and promote the normal growth and development of crops. Increasing disease resistance, increasing yield and improving quality all have important implications. Most of the trace elements in the soil are in an ineffective state that plants are difficult to absorb, and the application of trace element fertilizers to the soil is also easily fixed by the soil.

According to the research, decoctantic acid can react with trace elements such as iron and zinc to form a sulphate trace element chelate compound with good solubility and easy to be absorbed by plants, such as fulvic acid-Zn and fulvic acid-Mn. , fulvic acid-Fe, etc., is conducive to the absorption of roots or leaves, and can promote the trace elements from the roots to the upper part of the ground.

The experiment showed that the amount of iron fulvic acid entering the roots from the roots was 32% more than that of ferrous sulfate, and the number of movements in the leaves was twice that of ferrous sulfate, which increased the chlorophyll content by 15 to 45%, effectively solving the problem caused by iron deficiency. Yellowing of the leaves.

Fulvic acid, important for agriculture

As a plant growth regulator, fulvic acid is the best component of soil humus, not only reducing crop burden, increasing soil fertility, enriching the matrix of soil bacteria, but also improving crop yield and quality to help agriculture Achieve long-term development goals of increasing production, upgrading, and raising land. Thereby solving the quality problem of crops. ”

Fulvic Acid
Fulvic Acid Details
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The effects of fulvic acid on soil, fertilizers and plants in the agricultural sector are:

Improve soil Improve soil aggregate structure.

The fulvic acid is a humic substance, which can affect the nature of the soil, and promote the formation of a more stable agglomerate structure in the soil, so that the content of granules ≥ 0.25 mm in the soil is increased by 10-20%, and the content of organic matter is increased by 10%, so that the soil can maintain moisture. Increase ventilation, which is conducive to the growth of crops.

Enhance the water retention of the soil.

Fulvic acid is a hydrophilic colloid with strong water absorption capacity. The maximum water absorption can exceed 500%. The weight of water absorbed from saturated atmosphere can be more than doubled, which is much larger than that of ordinary mineral colloid. The fulvic acid inhibits the transpiration of the crop, so that the soil water consumption rate is slowed down and the soil water content is correspondingly increased.

Enhance the fertility of the soil.

The fulvic acid itself is an organic acid, which increases the dissolution of the mineral part of the soil, provides soil nutrients, and increases the effectiveness of nutrients through complexation. As an organic colloid, fulvic acid has positive and negative charges, which can adsorb anion and cation, so that these nutrients can be stored in the soil, not lost with water, and improve the utilization rate of fertilizer, which is especially important in sandy land.

Adjust the pH of the soil solution.

The fulvic acid and the fulvic acid salt transform each other to form a buffer system, thereby regulating the pH of the soil solution.

Reduce soil salinity.

The colloidal structure formed by the complexation of fulvic acid and chelated metal cations in the soil and its porosity (larger specific surface) can adsorb ions or molecules in the soil solution and reduce the concentration of salt in the soil solution.

Biological action fulvic acid contains a variety of oxygen-containing functional groups, which determine its physiological activity, thereby regulating the life activities, promoting the growth and reproduction of beneficial bacteria, and inhibiting the number of harmful microorganisms; the carboxyl group and phenolic hydroxyl group in fulvic acid have certain Inhibit the role of the virus.

Improve fertilizer utilization.

fulvic acid contains carboxyl, phenolic hydroxyl and other functional groups, has strong complexation, chelation and surface adsorption capacity, can reduce the loss of ammonium nitrogen; increase the movement distance of phosphorus in the soil, inhibit soil water solubility The fixation of phosphorus can convert the ineffective phosphorus into effective phosphorus and promote the absorption of phosphorus by the root system.

The fulvic acid can absorb and store potassium ions, and the effective potassium content, especially the potassium fertilizer, is especially effective. Experiments show that fulvic acid can increase the utilization rate of nitrogen, phosphorus and potassium nutrients in fertilizers by more than 20%.

Slow release synergistic effect of pesticide

fulvic acid has a surfactant function, can reduce the surface tension of water, emulsification and dispersion of pesticides; fulvic acid as a colloidal substance with a large viscosity and surface area may produce pesticides Strong physical sucking effect; fulvic acid itself has antibacterial and anti-disease effects, and the compounding with fungicides is equivalent to the compounding of two pesticides.

The stimulation of plant growth

fulvic acid similar to plant endogenous hormones, can promote seed germination, root growth, fruit coloring early maturity. Specific manifestations: promote root growth and activity, similar to auxin effect; promote seed germination, emergence of seedlings and seedling growth, similar to the effect of gibberellin; make leaves enlarge, thicken, green, delayed senescence of lower leaves, similar The role of cytokinin; the reduction of stomatal, transpiration, similar to the role of abscisic acid; the fruit coloring, maturation, similar to ethylene ripening; promote cell division and cell elongation, differentiation, etc., similar to two The role of the above plant hormones.

Improve the quality of agricultural products

fulvic acid enhances the synthesis of sugar, starch, protein, fat and various vitamins. It can stimulate the activity of polysaccharide enzyme, convert polysaccharide into soluble monosaccharide, thereby improve fruit sweetness; increase the ratio of total sugar to nicotine and potassium to chlorine in tobacco leaves, improve the quality of tobacco leaves; increase the total content of watermelon, cantaloupe and other fruits Sugar content and vitamin C content.

Enhance the stress resistance index of crop stress-resistant plants

(one): the content of ABA (abscisic acid: a plant hormone that inhibits growth) in plants. The ABA content of plants will increase under any adverse conditions. Abscisic acid is the “first messenger” that initiates the expression of stress-resistant genes in plants, and effectively activates the anti-reverse immune system in plants. Physiological mechanism of fulvic acid to improve plant stress resistance (common): fulvic acid can increase the content of ABA in plants.