CN105462879A

CN105462879A - Preparation method of agricultural complex bacterium

Info

Publication number: CN105462879A
Application number: CN201510915443.8A
Authority: CN
Inventors: 任艳萍; 李建飞
Original assignee: Nanping Zhengda Ouruixin Biotechnology Development Co Ltd
Current assignee: Nanping Zhengda Ouruixin Biotechnology Development Co Ltd
Priority date: 2015-12-10
Filing date: 2015-12-10
Publication date: 2016-04-06

Abstract

The invention provides a preparation method of an agricultural complex bacterium. Agricultural microbial bacteria are selected according to purposes and the relative proportions of various strains are determined, and then the strains, as a complex strain, are applied to liquid and solid combined fermenting culture. The preparation method disclosed by the invention, through the solid and liquid combined culture on the agricultural complex microbial bacterium, can save cost and improve efficiency; various farming byproducts can be utilized reasonably, so that waste materials are recycled; in early stage, the various strains are rapidly expanded through liquid culture, and in later stage, the various microbial bacteria are cultured in a same fermentation tank, so that the strains are co-cultured and mutually coordinated, and co-survive in a same environment; therefore, the disintegrating degree among the strains is improved; and the preparation not only can improve the quantity of effective live bacteria but also can enhance the function of the complex bacterium.

Description

The preparation method of agricultural composite bacteria

Technical field

The present invention relates to the cultivation field of composite bacteria, particularly relate to a kind of preparation method of agricultural composite bacteria.

Background technology

Current domestic microbiological microbial inoculum development rapidly, in order to do the function yeast of composite fertilizer, fertilizer, punching fertilising etc., effectively can improve utilization rate of fertilizer, and control bacterial fungus disease infection, instant effect, income is high.A lot of agriculture microbial composite bacteria used is mainly composite in varing proportions according to each bacterial classification using function now, or the bacterial classification of multiple same alike result is made into composite bacteria, separately through liquid culture or separately through solid culture, contradict each other between so easy generation bacterial classification, cause being difficult to practical function unification, effect is lower.

Summary of the invention

The technical problem to be solved in the present invention, is the preparation method providing a kind of agricultural composite bacteria, comprises the following steps:

1, choose bacterial classification: choose agricultural microorganism bacterium according to purposes and as composite bacteria after determining the relative proportion of each bacterial classification, described agricultural microorganism bacterium comprise in vinelandii, root nodule bacterium, genus bacillus, yeast, milk-acid bacteria, actinomycetes or fungi more than one;

2, liquid fermenting: by each agricultural microorganism bacterium of choosing according to respective culture medium prescription, by liquid fermenting, enlarged culturing obtains each microbial inoculum;

3, solid fermentation: drop into 60% Crop Residues, 20% soyflour or Semen Maydis powder, 10% molasses water solution and 10% composite bacteria liquid in solid-state fermentation tank successively, the solid fermentation of 48-72 hour is carried out after having fed intake, described composite bacteria liquid be step 2 by each microbial inoculum mixing gained after liquid fermenting, wherein the ratio of each bacterium liquid is the determined ratio of step 1;

4, discharging: after solid fermentation, discharging after detecting, the material moisture of discharging controls between 25-35%;

5, pack: tank under material, immediately pack and vacuumize.

Further, in described composite bacteria, the ratio of each bacterial classification is: vinelandii 30%-40%, root nodule bacterium 20%-30%, genus bacillus 30%-60%, yeast 20%-40%, milk-acid bacteria 20%-30%, actinomycetes 10%-20%, fungi 5%-10%.

Further, described Crop Residues is rice bran, the grain of rice or defatted rice bran.

Further, in described molasses water solution, molasses and water ratio are 1:3.

Further, in described step 3, in solid-state fermentation tank, each state modulator is: temperature is between 30-40 DEG C, and initial water sub-control is built in 30%-50%, and air quantity ratio controls between 0.2-0.5, and solid mixing speed controls at 2-5 rev/min.

Further, in described step 3, during solid fermentation, detected the parameter index of the moisture of material, pH value of water solution, OD600 value, enumeration every 4 hours.

Further, in described step 1, the ratio of choosing is that 40% genus bacillus, 40% yeast, 20% milk-acid bacteria are as the composite bacteria for livestock and poultry cultivation.

Further, in described step 2, genus bacillus adopts subtilis, its culture medium prescription: glucose 2%, starch 0.5%, yeast extract paste 1%, peptone 1%, potassium primary phosphate 0.2g%, dipotassium hydrogen phosphate 0.2%, sodium-chlor 0.5%, manganous sulfate 0.1%; PH value modulation 6.80-7.2, culture temperature controls at 31 DEG C, ferments 48 hours;

Described yeast adopts pichia spp, its culture medium prescription: glucose 2%, sucrose 1%, peptone 1%, yeast extract paste 1%, potassium primary phosphate 0.25%, dipotassium hydrogen phosphate 0.25%; PH nature, culture temperature controls at 29 DEG C, ferments 48 hours;

Described milk-acid bacteria adopts Lactobacterium acidophilum, its culture medium prescription: glucose 4%, sucrose 2%, peptone 1%, potassium primary phosphate 0.25%, dipotassium hydrogen phosphate 0.25%, corn steep liquor 1%, manganous sulfate 0.1%, magnesium sulfate 0.1%; PH controls between 6.5-6.8, culture temperature control 34 DEG C, fermentation 48 hours.

Further, in described step 3,60% rice bran and 20% soyflour is dropped in solid-state fermentation tank, through 130 DEG C, 0.1Mpa steam high-voltage sterilizing 30min, be cooled to after room temperature until it, then drop into 10% molasses water, be 121 DEG C and pressure through excess temperature be the high-temperature sterilization of 0.1Mpa, sterilizing continues 20-30min, is cooled to room temperature, then drops into 10% composite bacteria liquid again.

Further, in described step 3, after having fed intake, setting culture temperature in solid-state fermentation tank controls at 36 DEG C, initial water sub-control is built in 35%, and mixing control is at 4 revs/min, and first 24 hours stuffy, start after 24 hours to ventilate, ventilating ratio controls 0.35, starts logical hot blast after 60 hours, and temperature is set in 120 DEG C, when material moisture is down to 30%, stop logical hot blast and discharging; Under material, tank carries out vacuum packaging, living bacteria count >=1 wherein × 109cfu/g.

Further, in described step 1, choose vinelandii, root nodule bacterium, actinomycetes, bacillus megaterium as the composite bacteria for agricultural planting.

Further, in described step 1, choose Bacillus licheniformis, milk-acid bacteria, yeast, actinomycetes, fungi are composite bacteria for agricultural wastes biological compost.

The present invention has following advantage:

1, with the composite microbial bacteria of solid-liquid Combined culture agricultural use, cost-saving, raise the efficiency;

2, by different Crop Residues Appropriate application, can be turned waste into wealth;

3, by liquid culture, each bacterial classification is expanded rapidly early stage, different microbial bacterias is placed on same fermentor cultivation by the later stage, bacterial classification co-cultivation and mutual survival and mutually collaboratively to do under equivalent environment, improve the compatible degree between bacterial classification, not only improve living bacteria count and strengthen composite bacteria function simultaneously.

Embodiment

The preparation method of agricultural composite bacteria of the present invention, comprises the following steps:

1, bacterial classification is chosen: choose agricultural microorganism bacterium according to purposes and as composite bacteria after determining the ratio of each bacterial classification, in described composite bacteria, the ratio of each bacterial classification is: vinelandii 30%-40%, root nodule bacterium 20%-30%, genus bacillus 30%-60%, yeast 20%-40%, milk-acid bacteria 20%-30%, actinomycetes 10%-20%, fungi 5%-10%.

3, solid fermentation: drop into 60% Crop Residues, 20% soyflour or Semen Maydis powder, 10% molasses water solution and 10% composite bacteria liquid in solid-state fermentation tank, the solid fermentation of 48-72 hour is carried out after having fed intake, described Crop Residues is rice bran, the grain of rice or defatted rice bran, in described molasses water solution, molasses and water ratio are 1:3, described composite bacteria liquid be step 2 by each microbial inoculum mixing gained after liquid fermenting, wherein the ratio of each bacterium liquid is the determined ratio of step 1; In solid-state fermentation tank, each state modulator is: temperature is between 30-40 DEG C, and initial water sub-control is built in 30%-50%, and air quantity ratio controls between 0.2-0.5, and solid mixing speed controls at 2-5 rev/min; Detected the parameter index of the moisture of material, pH value of water solution, OD600 value, enumeration every 4 hours during solid fermentation;

5, pack: tank under material, immediately pack and vacuumize.

Embodiment 1

1, ratio of choosing is that 40% genus bacillus, 40% yeast, 20% milk-acid bacteria are as the composite bacteria for livestock and poultry cultivation.

2, by each agricultural microorganism bacterium of choosing according to respective culture medium prescription, by liquid fermenting, enlarged culturing obtains each microbial inoculum;

Described genus bacillus adopts subtilis, its culture medium prescription: glucose 2%, starch 0.5%, yeast extract paste 1%, peptone 1%, potassium primary phosphate 0.2g%, dipotassium hydrogen phosphate 0.2%, sodium-chlor 0.5%, manganous sulfate 0.1%; PH value modulation 6.80-7.2, culture temperature controls at 31 DEG C, ferments 48 hours;

3, in solid-state fermentation tank, drop into 60% rice bran and 20% soyflour, through 130 DEG C, 0.1Mpa steam high-voltage sterilizing 30min, be cooled to after room temperature until it, drop into 10% molasses water again, be 121 DEG C and pressure through excess temperature be the high-temperature sterilization of 0.1Mpa, sterilizing continues 20-30min, is cooled to room temperature, then drops into 10% composite bacteria liquid again;

After having fed intake, setting culture temperature in solid-state fermentation tank controls at 36 DEG C, initial water sub-control is built in 35%, and mixing control is at 4 revs/min, and first 24 hours stuffy, start after 24 hours to ventilate, ventilating ratio controls 0.35, starts logical hot blast after 60 hours, and temperature is set in 120 DEG C, when material moisture is down to 30%, stop logical hot blast.

4, tank under detection → discharging → material.

5, vacuum packaging → finished product, living bacteria count >=1 wherein × 109cfu/g.

Embody rule: the composite bacteria that above-mentioned production is good be applied on raising pigs, test piglet after 7 days from wean, piglet quantity is 30, and weight in average is 7kg, and the test period is 42 days.

Table 1 process of the test contrasts

Table 2 comparison of test results

As can be seen from data and the result of table 1 and table 2, use the piggy of biological compound fungi, not only dead quantity is few, also has obvious appearance investigation simultaneously, simultaneously than control group weightening finish 15.56%.Other economic benefit of later stage quality-improving also having meat etc.

Embodiment 2

Step 1, chooses vinelandii, root nodule bacterium, actinomycetes, bacillus megaterium as the composite bacteria for agricultural planting, other preparation process reference examples 1.

Embodiment 3

Step 1, chooses Bacillus licheniformis, milk-acid bacteria, yeast, actinomycetes, fungi is composite bacteria for agricultural wastes biological compost, other preparation process reference examples 1.

Embodiment 1 is most preferred embodiment of the present invention.

The present invention has following advantage:

Above to invention has been exemplary description; obvious specific implementation of the present invention is not subject to the restrictions described above; as long as have employed the improvement of the various unsubstantialities that method of the present invention is conceived and technical scheme is carried out; or design of the present invention and technical scheme directly applied to other occasion, all within protection scope of the present invention without to improve.

Claims

1. a preparation method for agricultural composite bacteria, is characterized in that, comprises the following steps:

5, pack: tank under material, immediately pack and vacuumize.

2. the preparation method of agricultural composite bacteria according to claim 1, it is characterized in that, in described composite bacteria, the ratio of each bacterial classification is: vinelandii 30%-40%, root nodule bacterium 20%-30%, genus bacillus 30%-60%, yeast 20%-40%, milk-acid bacteria 20%-30%, actinomycetes 10%-20%, fungi 5%-10%.

3. the preparation method of the preparation method of agricultural composite bacteria according to claim 1 and 2, it is characterized in that, in described step 3, in solid-state fermentation tank, each state modulator is: temperature is between 30-40 DEG C, initial water sub-control is built in 30%-50%, air quantity ratio controls between 0.2-0.5, and solid mixing speed controls at 2-5 rev/min.

4. the preparation method of the preparation method of agricultural composite bacteria according to claim 1 and 2, is characterized in that, in described step 3, detects the parameter index of the moisture of material, pH value of water solution, OD600 value, enumeration during solid fermentation every 4 hours.

5. the preparation method of the preparation method of agricultural composite bacteria according to claim 1, is characterized in that, in described step 1, the ratio of choosing is that 40% genus bacillus, 40% yeast, 20% milk-acid bacteria are as the composite bacteria for livestock and poultry cultivation.

6. the preparation method of the preparation method of agricultural composite bacteria according to claim 5, it is characterized in that, in described step 2, genus bacillus adopts subtilis, its culture medium prescription: glucose 2%, starch 0.5%, yeast extract paste 1%, peptone 1%, potassium primary phosphate 0.2g%, dipotassium hydrogen phosphate 0.2%, sodium-chlor 0.5%, manganous sulfate 0.1%; PH value modulation 6.80-7.2, culture temperature controls at 31 DEG C, ferments 48 hours;

7. the preparation method of the preparation method of agricultural composite bacteria according to claim 5, it is characterized in that, in described step 3, in solid-state fermentation tank, drop into 60% rice bran and 20% soyflour, through 130 DEG C, 0.1Mpa steam high-voltage sterilizing 30min, be cooled to after room temperature until it, dropping into 10% molasses water again, be 121 DEG C and pressure is the high-temperature sterilization of 0.1Mpa through excess temperature, and sterilizing continues 20-30min, be cooled to room temperature, then drop into 10% composite bacteria liquid again.

8. the preparation method of the preparation method of agricultural composite bacteria according to claim 1, is characterized in that, in described step 1, chooses vinelandii, root nodule bacterium, actinomycetes, bacillus megaterium as the composite bacteria for agricultural planting.

9. the preparation method of the preparation method of agricultural composite bacteria according to claim 1, is characterized in that, in described step 1, chooses Bacillus licheniformis, milk-acid bacteria, yeast, actinomycetes, fungi are composite bacteria for agricultural wastes biological compost.

10. the preparation method of the agricultural composite bacteria according to claim 1 or 2 or 5 or 6 or 7, it is characterized in that, in described molasses water solution, molasses and water ratio are 1:3.