CN110590457A - Biological organic bacterial fertilizer for crops and preparation method thereof - Google Patents

Abstract

The invention discloses a crop bio-organic bacterial fertilizer and a preparation method thereof, wherein the bacterial fertilizer comprises a bio-organic fertilizer, a beneficial microbial flora and peptidase; the beneficial microbial flora comprises the following components: bacillus flora, photosynthetic bacteria flora, lactic acid bacteria flora, actinomycetes flora, yeast flora and secretion products thereof; the biological organic fertilizer comprises: plant straw, livestock manure, grass peat, algin and molasses. The biological organic bacterial fertilizer can improve the soil property, improve the soil fertility, enable the soil to be more fertile, enhance the water seepage, water retention and air permeability and promote the agglomeration; the quality can be effectively improved, and the pure natural green product which is large in color, delicious and tasty and has no chemical pollution is produced, so that the quality of agricultural products is improved comprehensively.

Description

Biological organic bacterial fertilizer for crops and preparation method thereof

Technical Field

The invention relates to the technical field of biological fertilizers, in particular to a crop biological organic bacterial fertilizer and a preparation method thereof.

Background

As a big agricultural country, China has high demand on chemical fertilizers in agricultural production, and the chemical fertilizers become the largest material investment in agricultural production according to statistics. With the development of agriculture, farmers excessively apply fertilizers year by year to cause a series of ecological problems, such as soil hardening, acidification, fertility reduction and the like, which also pose serious threats to human health. However, the amount of farmyard manure is limited, the fertilizer efficiency is uncontrollable, and the farmyard manure is difficult to adapt to the requirement of high standard.

The bacterial manure is also called biological manure, biological fertilizer, bacterial fertilizer or inoculant, and the like, contains a large amount of microorganisms, improves the nutritional conditions of crops through the life activities of the microorganisms in soil, and participates in the fixation of nitrogen in the soil, the conversion of substances and energy, the formation and decomposition of humus and the release of nutrients. The biological organic bacterial fertilizer can provide various nutrients for crops through the metabolism of microorganisms, improve the living environment of the crops, even participate in certain physiological processes of the crops, enhance the stress resistance, improve the crystal yield and quality, is pollution-free and residue-free, is a novel fertilizer with high efficiency, no toxicity, no pollution and no public nuisance, can meet the requirement of increasing the yield of the crops, and can also solve the worry of people about excessive use of the fertilizer. Therefore, the bacterial manure has good development prospect.

Disclosure of Invention

In order to solve the problem, relieve ecological pressure and provide healthy and green organic agricultural products for people, according to the current soil situation of China, the invention provides the crop biological organic bacterial fertilizer and the preparation method thereof, the biological organic bacterial fertilizer can improve the soil property and improve the soil fertility, can enable the soil to be more fertile and fertile, enhance the water seepage, water retention and air permeability and promote the agglomeration; the quality can be effectively improved, and the pure natural green product which is large in color, delicious and tasty and has no chemical pollution is produced, so that the quality of agricultural products is improved comprehensively.

The invention is realized by the following technical scheme:

a biological organic bacterial fertilizer for crops comprises a biological organic fertilizer, a beneficial microbial flora and peptidase; the beneficial microbial flora comprises the following components: bacillus flora, photosynthetic bacteria flora, lactic acid bacteria flora, actinomycetes flora, yeast flora and their secreted products.

Preferably, the bio-organic fertilizer comprises the following raw materials in parts by weight: 60-80 parts of plant straw, 80-100 parts of livestock manure, 10-20 parts of grass carbon, 10-15 parts of algin and 5-15 parts of molasses.

Preferably, the ratio of each flora in the beneficial microbial flora is: 3-5 parts of bacillus flora, 1-2 parts of photosynthetic bacteria flora, 2-4 parts of lactic acid bacteria flora, 1-2 parts of actinomycete flora and 1-2 parts of yeast flora.

Wherein the plant straw is one or more of corn straw, soybean straw, wheat straw, rice straw and cassava straw.

The livestock manure is one or more of cow manure, sheep manure, pig manure, chicken manure and rabbit manure.

Preferably, the weight ratio of the bio-organic fertilizer to the beneficial microbial flora to the peptidase is 50-100: 2-3: 0.5 to 1.0.

The crop biological organic bacterial fertilizer can be suitable for grain oil crops, melon and fruit crops, leaf vegetable crops, root tuber crops and the like. Such as: the fruit and vegetable feed additive comprises rice, corn, soybean, mung bean, peanut, cassava, wheat, orange, apple, persimmon, pear, peach, cherry, apricot, red date, strawberry, banana, mango, longan, lychee, guava and pomegranate.

The organic bacterial fertilizer can be applied to promoting the growth of crops, increasing the yield of the crops, improving the quality or improving the soil.

The beneficial microbial flora can also be prepared into beneficial microbial liquid by adding water, and the beneficial microbial liquid is used for seed soaking, seed dressing, root soaking, seedling raising, foliage spraying, plowing after spraying returning straws and the like.

In the probiotic liquid, the total content of beneficial biological bacteria is more than or equal to 1.0 multiplied by 10⁸ cfu/g。

If the method is used in a seedling raising period, seeds are sown after being soaked in beneficial microbial liquid diluted by 200-300 times; and after seedling emergence, spraying the beneficial microbial liquid diluted by 500-600 times once.

If the seedlings are used for transplanting, the seedlings are fixedly planted after being diluted by 500-550 times of the beneficial microorganism bacterium liquid for soaking the roots for 5-8 minutes, or the roots are watered once by 1000-1200 times of the beneficial microorganism bacterium liquid.

If the fertilizer is used for the growth period, the fertilizer is taken as the growth vigor, and the beneficial microbial liquid with 400-600 times of liquid is sprayed, the number of times of the fertilizer is more than or equal to 2-3, the effect is better, and the better the fertilizer is sprayed for 1 time per week; some crops can also be applied with additional fertilizer by watering the roots with the beneficial microbial liquid manure diluent.

And when plowing and land preparation are carried out, 50-60 kilograms of biological organic bacterial manure is applied to each mu.

The crop straws are a huge resource in China, and according to statistics, the crop straws in China have high yield, multiple varieties and wide distribution, but the utilization efficiency of the straws is extremely low, most of the straws are arbitrarily burned and discarded, and serious environmental pollution and resource waste are caused. The invention is used in organic fertilizer, which not only can utilize waste and improve the fertility of the organic fertilizer, but also can solve the problem of environmental pollution caused by straw combustion.

Peat, also known as "peat", is a product of the growth process of swamps and is formed in the quaternary stage from residues of swamp plants which cannot be completely decomposed and accumulated under the anaerobic conditions of watery water. Contains a large amount of water and plant residues, humus and a part of minerals which are not completely decomposed. The peat is rich in nutrients and is very beneficial to plants. The peat is the coal with the lowest coalification degree, is also the most original state of the coal, and has the advantages of sterility, no toxicity, no pollution and good ventilation performance. The organic fertilizer has the advantages of light weight, water retention, fertilizer retention, contribution to microbial activity, enhanced biological performance, rich nutrition, being a culture medium, being a good soil conditioner, and containing high organic matters, humic acid and nutrient components. Can improve the water holding, ventilation and fertilizer holding capacity of the soil, improve the phenomena of soil hardening and hardening, and increase the nutrient content, thereby improving the product quality.

The algin is extracted from marine plant seaweed (algaes), and has no pollution and no public nuisance. Can be directly used for leaf spraying, root irrigation, seed soaking and cutting propagation, and also can be used as a special water flush fertilizer, a leaf fertilizer, a pesticide and the like for preparing a nutrient. The algin integrates nutrient components, marine biological active components and seaweed organic matters which are necessary for plants, is used for agricultural production and mainly embodies three effects: (I) fertilizer efficiency: the algin contains essential nutrients, natural minerals and growth regulator, and has effects of promoting plant cell division and elongation, enhancing metabolism, accelerating root development, increasing water and nutrient absorption capacity of plant, enhancing stress resistance, improving crop quality, and increasing yield. (II) stress resistance: the algin contains various marine bioactive substances, algal polysaccharide, algal polyphenol, oligosaccharins and iodine, has moderate content proportion, and has obvious inhibition effect on powdery mildew, gray mold and red spider mites of plants. Especially has stronger inhibiting effect on greenhouse red spider mites, rice sheath blight and tobacco mosaic disease. (III) environmental protection: the algin is pure natural seaweed extract, and has no pollution to environment. After the fertilizer is applied, the soil can be loosened, the soil hardening caused by applying the fertilizer is improved, the formation of a soil granular structure is accelerated, and the good air permeability of the soil is ensured. The grain, vegetable, melon and fruit and tea produced with the algin have excellent quality and no toxic matter residue, and meet the green food standard.

Bacillus is a genus of bacteria of the Bacillaceae family, including Bacillus, Lactobacillus, Clostridium, Desulfoenterobacter, and Sporosarcina, among others. Bacillus has several important functions: (1) strong moisture retention: form natural polyglutamic acid with excellent strength as soil protecting film to prevent loss of fertilizer and water. (2) The organic matter decomposition force is strong: when the bacteria are proliferated, the decomposition enzyme with high activity is released, and the macromolecular substances which are difficult to decompose are decomposed into usable micromolecular substances. (3) production of abundant metabolites: synthesizing various organic acids, enzymes, physiological active substances and other nutrients which are easy to be utilized. (4) Strong bacteriostasis and pest killing capability: has the advantages of occupying space and inhibiting the growth and the propagation of harmful microorganisms such as harmful bacteria, pathogenic bacteria and the like. (5) And (3) deodorization: can decompose organic substances, organic sulfides, organic nitrogen and the like which generate malodorous gases, and greatly improve the environment of a place. The bacillus can improve the production performance of animals, and is an important embodiment for producing various digestive enzymes. Research shows that the bacillus can produce various digestive enzymes to help animals digest and absorb nutrients. The bacillus has stronger protease, amylase and lipase activities, and also has enzymes for degrading complex carbohydrates, if the enzymes are collagenase, glucanase, cellulase and the like, the enzymes can destroy cell walls of plant cells, promote nutrient substances of the cells to be released, eliminate anti-nutritional factors in feed, and reduce the barriers of the anti-nutritional factors to the digestion and utilization of animals.

Photosynthetic Bacteria (PSB) are a generic name of Bacteria that perform anaerobic photosynthesis under anaerobic conditions, are gram-negative Bacteria that do not have the ability to form spores, and are microorganisms that use light as an energy source and can perform photosynthesis using organic matter, sulfides, ammonia, and the like in nature as a hydrogen donor and carbon source under anaerobic illumination or aerobic dark conditions. Photosynthetic bacteria can perform photosynthesis in an environment where light is lack of oxygen, can perform photosynthesis using light energy, and can assimilate carbon dioxide or other organic substances using light energy, and their photosynthesis is not oxygen-producing unlike green plants. The photosynthetic bacteria have only one photosystem, i.e. PSI, and the original hydrogen donor for photosynthesis is not water, but H2S (or some organic matter), so that it carries out photosynthesis to produce H2, decompose the organic matter, and fix molecular nitrogen in the air to generate ammonia. The photosynthetic bacteria also complete three very important chemical processes in the circulation of natural substances of hydrogen production, nitrogen fixation and organic matter decomposition in the self assimilation and metabolism process.

Lactic Acid Bacteria (LAB) are a general term for a group of bacteria that can utilize fermentable carbohydrates to produce large amounts of lactic acid. Lactic acid bacteria have a good inhibitory effect against some putrefying bacteria and low-temperature bacteria, and they can produce bacteriocin-like fine proteins or peptides (antibacterial peptides), such as various lactobacillin and bifidus, and have antagonistic effects against staphylococci, clostridia, and salmonella and shigella.

Actinomycetes (Actinomyces bovis) are a group of prokaryotes which grow mainly in the shape of hyphae and reproduce in spores and have strong terrestrial properties. Most of actinomycetes in natural environment are saprophytic heterotrophic bacteria, and most of actinomycetes can generate antibiotics due to abundant secondary metabolites. Some species of actinomycetes also produce various enzyme preparations (proteases, amylases, cellulases, etc.), vitamins (B12), organic acids, and the like. The actinomycete can decompose many organic matters including complex compounds such as aromatic compounds, paraffin, rubber, cellulose, wood and the like and compounds with strong toxicity such as cyanogen and the like, and can promote soil to form a granular structure so as to improve soil.

Yeast (Saccharomyces) is a unicellular fungus, a spherical or ellipsoidal microorganism of eukaryotic cell type that propagates in a budding or schizont manner.

The action mechanism of the biological organic bacterial fertilizer is as follows:

after the beneficial microbial flora and the biological organic fertilizer are applied to the field, under the combined action of the beneficial microbial flora and the biological organic fertilizer, the contained microbes with specific functions become dominant strains, so that the plant pathogenic bacteria and other mixed bacteria in the soil lose viability, and the occurrence of soil-borne diseases is greatly reduced. Under the conditions of ground temperature of 20-25 ℃ and soil water content of 50% -70%, the applied organic matters and carbon in the organic matters in the soil are used as frameworks to propagate in a large quantity, one generation can be propagated in about 20 minutes, and the number of the generation is increased in geometric progression, which is equal to that when a fertilizer production plant is moved underground, nitrogen, phosphorus, potassium, trace elements, phytohormones and the like required by crop growth are continuously manufactured. According to the fertilizer requirement characteristics of different crops, 50-100 kg of biological organic fertilizer and 2-3 kg of beneficial microbial floras are applied per mu to replace more than 70-75% of chemical fertilizers, and the rest 25-30% of the biological organic fertilizer can be solved by composting, fermenting and returning the straws to the field, so that the use of pesticides and chemical fertilizers can be saved. Therefore, the bio-organic fertilizer can completely replace the fertilizer under the conditions of less dosage and equal use cost to the fertilizer, and agricultural products with higher yield and better quality than the fertilizer are obtained.

The invention has the beneficial effects that:

1. the biological organic bacterial fertilizer can improve the soil property, improve the soil fertility, reduce the soil fertility year by year so as to completely eliminate the need of chemical fertilizers and pesticides, and finally realize no-tillage operation. The test shows that: compared with chemical fertilizers, the biological organic bacterial fertilizer can improve the quick-acting potassium in the soil by 5 percent, improve the quick-acting phosphorus by 31.2 percent and improve the total nitrogen by 15.5 percent, and can increase the fertility of the soil, multiply the beneficial animals (such as earthworms) in the soil, enhance the water seepage, water retention and air permeability and promote the granulation. After the soil is used for three or five years, the ecological, physical and chemical properties of the soil are thoroughly improved, and no-tillage planting can be realized.

2. The biological organic bacterial fertilizer can inhibit the survival and propagation of harmful microorganisms, decompose insect eggs, lighten and gradually eliminate soil diseases and insect pests and continuous cropping obstacles.

3. The biological organic bacterial fertilizer can also enhance the metabolic function of plants, improve photosynthesis, promote seed germination, developed root system, early flowering and more fructification, and advance the mature period by more than 10 days.

4. Through years of use in various regions, the biological organic bacterial fertilizer disclosed by the invention is summarized and found that only 1.5-2 kg of beneficial microbial liquid is needed for each mu of a crop, and the yield increase amplitude can reach as follows: the yield of the grain and oil crops is increased by more than 10-20% (wherein the yield of the soybean can be increased by more than 40%); the yield of leaf vegetables is increased by more than 8-26% (the root tuber yield is increased by a larger margin); the flower and fruit retention rate of melons and fruits is improved by over 40 percent, and the weight, sugar degree and fresh-keeping capacity of a single fruit are obviously improved; the flowers can bloom in half a month in advance, more flowers are more and more brilliant, and the flowering phase is prolonged.

5. The biological organic bacterial fertilizer can effectively improve the quality, produce a pure natural green product with large color, delicious taste and no chemical pollution, and is beneficial to comprehensively improving the quality of agricultural products.

Detailed Description

In order to make the technical solutions and advantages of the present invention clearer, the following describes the technical solutions of the present invention clearly and completely in combination with the embodiments of the present invention.

Example 1

A biological organic bacterial fertilizer for crops comprises a biological organic fertilizer, a beneficial microbial flora and peptidase; the beneficial microbial flora comprises the following components: bacillus flora, photosynthetic bacteria flora, lactic acid bacteria flora, actinomycetes flora, yeast flora and their secreted products.

The biological organic fertilizer comprises the following raw materials in parts by weight: 60 parts of plant straw, 80 parts of livestock manure, 10 parts of grass peat, 10 parts of algin and 5 parts of molasses.

The proportion of each flora in the beneficial microbial flora is as follows: 3 parts of bacillus flora, 1 part of photosynthetic bacteria flora, 2 parts of lactic acid bacteria flora, 1 part of actinomycete flora and 1 part of yeast flora.

The plant straw is rice straw.

The livestock manure is pig manure and chicken manure.

The weight ratio of the biological organic fertilizer to the beneficial microbial flora to the peptidase is 100: 3: 1.0.

example 2

A biological organic bacterial fertilizer for crops comprises a biological organic fertilizer, a beneficial microbial flora and peptidase; the beneficial microbial flora comprises the following components: bacillus flora, photosynthetic bacteria flora, lactic acid bacteria flora, actinomycetes flora, yeast flora and their secreted products.

The biological organic fertilizer comprises the following raw materials in parts by weight: 80 parts of plant straw, 100 parts of livestock manure, 20 parts of grass peat, 15 parts of algin and 15 parts of molasses.

The proportion of each flora in the beneficial microbial flora is as follows: 4 parts of bacillus flora, 1.5 parts of photosynthetic bacteria flora, 3 parts of lactic acid bacteria flora, 1.5 parts of actinomycete flora and 1.5 parts of yeast flora.

The plant straw is formed by mixing wheat straw, rice straw and cassava straw.

The livestock manure is formed by mixing cow manure, chicken manure and rabbit manure.

The weight ratio of the biological organic fertilizer to the beneficial microbial flora to the peptidase is 80: 2.5: 0.7.

example 3

A biological organic bacterial fertilizer for crops comprises biological organic fertilizer, beneficial microbial flora and peptidase; the beneficial microbial flora comprises the following components: bacillus flora, photosynthetic bacteria flora, lactic acid bacteria flora, actinomycetes flora, yeast flora and their secreted products.

The biological organic fertilizer comprises the following raw materials in parts by weight: 70 parts of plant straw, 90 parts of livestock manure, 15 parts of grass peat, 12 parts of algin and 10 parts of molasses.

The proportion of each flora in the beneficial microbial flora is as follows: 5 parts of bacillus flora, 2 parts of photosynthetic bacteria flora, 4 parts of lactic acid bacteria flora, 2 parts of actinomycete flora and 2 parts of yeast flora.

The plant straw is corn straw and soybean straw according to the weight ratio of 1: 1.

The livestock manure is formed by mixing cow manure and sheep manure.

The weight ratio of the biological organic fertilizer to the beneficial microbial flora to the peptidase is 50: 2: 0.5.

Claims (8)

1. a biological organic bacterial fertilizer for crops is characterized in that: comprises a biological organic fertilizer, beneficial microbial flora and peptidase; the beneficial microbial flora comprises the following components: bacillus flora, photosynthetic bacteria flora, lactic acid bacteria flora, actinomycetes flora, yeast flora and their secreted products.

2. The crop bio-organic bacterial fertilizer of claim 1, characterized in that: the biological organic fertilizer comprises the following raw materials in parts by weight: 60-80 parts of plant straw, 80-100 parts of livestock manure, 10-20 parts of grass carbon, 10-15 parts of algin and 5-15 parts of molasses.

3. The crop bio-organic bacterial fertilizer of claim 1, characterized in that: the proportion of each flora in the beneficial microbial flora is as follows: 3-5 parts of bacillus flora, 1-2 parts of photosynthetic bacteria flora, 2-4 parts of lactic acid bacteria flora, 1-2 parts of actinomycete flora and 1-2 parts of yeast flora.

4. The crop bio-organic bacterial fertilizer of claim 1, characterized in that: the plant straw is one or more of corn straw, soybean straw, wheat straw, rice straw and cassava straw.

5. The crop bio-organic bacterial fertilizer of claim 1, characterized in that: the livestock manure is one or more of cow manure, sheep manure, pig manure, chicken manure and rabbit manure.

6. The crop bio-organic bacterial fertilizer of claim 1, characterized in that: the weight ratio of the biological organic fertilizer to the beneficial microbial flora to the peptidase is 50-100: 2-3: 0.5 to 1.0.

7. The crop bio-organic bacterial fertilizer of claim 1, characterized in that: the crops are any one of the following crops: the fruit and vegetable feed additive comprises rice, corn, soybean, mung bean, peanut, cassava, wheat, orange, apple, persimmon, pear, peach, cherry, apricot, red date, strawberry, banana, mango, longan, lychee, guava and pomegranate.

8. Use of the organic bacterial manure of claim 1 for promoting crop growth or increasing crop yield, improving quality or improving soil.