CN103288563A

CN103288563A - Preparation method of special tea tree compound microorganism fertilizer for improving soil and product of special tea tree compound microorganism fertilizer

Info

Publication number: CN103288563A
Application number: CN2013102636411A
Authority: CN
Inventors: 王建伟
Original assignee: CHONGQING TUOYANG TECHNOLOGY Co Ltd
Current assignee: CHONGQING TUOYANG TECHNOLOGY Co Ltd
Priority date: 2013-06-27
Filing date: 2013-06-27
Publication date: 2013-09-11
Anticipated expiration: 2033-06-27
Also published as: CN103288563B

Abstract

The invention discloses a preparation method of a special tea tree compound microorganism fertilizer for improving soil and a product of the special tea tree compound microorganism fertilizer. The preparation method comprises the following steps of: adding thermophilic sporotrichum mycete, aspergillus niger and brown sugar after deodorizing fresh chicken manure and dairy cow manure; carrying out fermentation twice onto crushed straws, distilled grain, corn powder and monopotassium phosphate, and drying in the air to obtain a preparation I; carrying out fermentation twice onto bean pulps, wheat bran, calcium powder, brown sugar, bacillus megatherium, bacillus subtilis, lactic acid bacteria and ferrous sulfate, and drying in the air to obtain a preparation II; mixing the preparation I with the preparation II, adding bacillus megatherium, bacillus subtilis, aspergillus niger, streptomycete, terrestrial cyanobacteria, photosynthetic bacteria and dinoflagellate; adding the chemical fertilizer needed for the growth of the tea tree to obtain the special-purpose tea tree compound microorganism fertilizer. The prepared product contains survival beneficial microorganisms, and can be used for improving the soil aggregated structure and other indexes and improving the content of tea polyphenol of tea leaves.

Description

Preparation method of a kind of tea tree specific complex microorganism fertilizer of improving the soil and products thereof

Technical field

The invention belongs to agriculture field, be specifically related to a kind of preparation method of tea tree specific complex microorganism fertilizer of improving the soil, also relate to product obtained by this method.

Background technology

Flourish along with the rural area The Third Industry, the raiser in rural area is more and more, when the raiser increases, cultures ight soil also in continuous increase.Wherein contain many nutritive substances of not digested and assimilated, as the robust fibre in the ruminating animal ight soil, the nitrogen in pig, the chicken manure, the calcium equal size in the batterylaying ight soil is all higher, and the very big potentiality of utilizing are arranged.These ight soil will seriously take and contaminated soil, water body if can not get handling timely and effectively, produce foul gas and cause severe contamination.Traditional dejecta treatment method be with ight soil directly as fertilizer, but complicated organism, macromolecular cpd are can't be by cell walls and the cytolemma of root hair cell, so plant can not well be absorbed; Therefore organic fertilizer discharges to soil, must complicated organism be resolved into simple composition by soil microorganisms, or ionization could absorb; Must convert ammonia-state nitrogen (NH to as nitrogenous fertilizer ⁴⁺) and nitric nitrogen (NO ^3-), phosphate fertilizer must convert phosphate radical (PO4 to ^3-), potash fertilizer must convert potassium ion (K to ⁺) crop could absorb.And existing fertilizer mainly utilizes microorganism that the macromole in the organic fertilizer is decomposed into small molecules, but the back beneficial microorganism that is manured into soil can not continue breeding, therefore can not fundamentally improve because execute partially, singly execute, heavy dressing chemical fertilizer, cause soil acidity or alkalinity to change, organic content reduces, soil compaction is serious, water conservation, protects fertile, ventilation property extreme difference, problem such as beneficial organism flora minimizing in the soil.And the different growth phases of tea tree are to the demand difference of nutrition, and wherein to the absorption maximum of nitrogen, existing chemical fertilizer and fertilizer all can not finely satisfy the required nutrition of tealeaves different steps.The present invention is exactly in order to realize the balance supply of various nutrients, to satisfy the needs of growth of tea plant, improves fertilizer utilization ratio, and beneficial microorganism can symbiotic co-existence behind the incorporation of fertilizerin the soil simultaneously, improves the microecological balance of soil.

Summary of the invention

In view of this, one of purpose of the present invention is to provide a kind of preparation method of tea tree specific complex microorganism fertilizer of improving the soil, the preparation method is simple, be convenient to suitability for industrialized production, the fertilizer pH value that makes is that 7.0-7.4, ventilative preserve moisture and fertility ability are good, can keep microecological balance after being manured into soil.

For achieving the above object, technical scheme is:

The preparation method of the tea tree specific complex microorganism fertilizer of improving the soil comprises the steps:

A. with fresh chicken manure and the cattle manure photosynthetic bacteria by sprinkling 2000-4000 per ton hundred million units, be illumination 12-24 hour deodorizing under the 8000-12000LUX condition in intensity of illumination, get deodorizing chicken manure and deodorizing cattle manure;

B. get deodorizing chicken manure 500-600 part, deodorizing cattle manure 250-300 part, thermophilic side born of the same parents mould 0.4-0.6 part, black-koji mould 0.4-0.6 part, brown sugar 3-5 part by weight, stalk 110-130 part, vinasse 100-120 part, Semen Maydis powder 15-20 part and potassium primary phosphate 3-8 part after pulverizing, stirred the back 50-60 ℃ of condition bottom fermentation 7-10 days, after the turning again 50-60 ℃ of condition bottom fermentation 2-3 days, then air-dry to the moisture weight ratio be 35-40%, through screening, magnetic separation gets the preparation I;

C. get dregs of beans 70-90 part, wheat bran 90-110 part, calcium powder 100-120 part, brown sugar 2-6 part, bacillus megaterium 0.4-0.6 part, subtilis 0.4-0.6 part, milk-acid bacteria 0.4-0.6 part and ferrous sulfate 4-6 part by weight, under 50-60 ℃ of condition, fermented 2-3 days after stirring, after the turning again at 50-60 ℃ of bottom fermentation 2-3 days, then air-dry to the moisture weight percent be 35-40%, through screening, magnetic separation gets the preparation II;

D. get step B gained preparation I 45-48 part, step C gained preparation II 29-32 part by weight, add bacillus megaterium 0.4-0.6 part, subtilis 0.4-0.6 part, black-koji mould 0.4-0.6 part, streptomycete 0.4-0.6 part, Lu Sheng cyanobacteria 0.4-0.6 part, photosynthetic bacteria 0.4-0.6 part and dinoflagellate 1.5-2.5 part then by weight, 25-30 ℃ of condition bottom fermentation 2-3 days, again with tunning under 25-30 ℃ of condition air-dry to the moisture weight percent be 15-20%, get the survival and reproduction base-material of microorganism;

E. get survival and reproduction base-material 77-80 part of step D gained microorganism by weight, add 20-23 part chemical fertilizer then by weight, stir the back and pulverize the particle of making 2-8mm, get tea tree specific complex microorganism fertilizer; Described chemical fertilizer is made up of sal epsom 15-20 part, ammonium fertilizer 15-25 part, amide nitrogen fertilizer 55-65 part, Vanadium Pentoxide in FLAKES 25-35 part, zinc sulfate 8-15 part, ferrous sulfate 3-6 part, potassium primary phosphate 3-6 part, Tai-Ace S 150 15-20 part and potassium oxide 45-55 part by weight.

The preparation technology that the present invention prepares the preparation I as shown in Figure 1, specifically be to utilize the deodorizing chicken manure, the deodorizing cattle manure, stalk, brown sugar etc. are raw material, for fermentation provides organic, sulfuration ammonia, food fibre, glucose, carbon source or nitrogenous sources such as protein, and when fermentation, add potassium primary phosphate and regulate the pH value to be fit to the growth of thermophilic side born of the same parents mould and black-koji mould, in the process of growth macromolecular substance is degraded to small-molecule substance, leavening temperature control is at 50-60 ℃, can kill roundworm egg and intestinal bacteria in the ight soil with this understanding, can utilize heavy metal ion by microorganism in the fermenting process and by exchange state and soluble state degraded heavy metal, the quality of organic matter mark is greater than 30% in the preparation I that makes, nitrogen phosphorus potassium massfraction is greater than 5%, crude protein quality mark is greater than 5%, the As massfraction is less than 0.0002%, the Cd massfraction is less than 0.0005%, the Pd massfraction is less than 0.003%, the Cr massfraction is less than 0.0005%, the Hg massfraction is less than 0.00005%.

The preparation technology that the present invention prepares the preparation II as shown in Figure 2, specifically be to utilize dregs of beans, wheat bran and brown sugar are carbon source or nitrogenous source, and interpolation bacillus megaterium, subtilis and milk-acid bacteria are fermented, also add ferrous sulfate simultaneously and regulate the pH value to be fit to thalli growth, quality of organic matter percentage ratio is greater than 30% in the preparation II that makes, nitrogen phosphorus potassium massfraction is greater than 6%, crude protein quality mark is greater than 8%, the amino acid masses mark is greater than 5%, the saccharifying enzyme massfraction is greater than 3%, the As massfraction is less than 0.0001%, the Cd massfraction is less than 0.0001%, the Pd massfraction is less than 0.0005%, the Cr massfraction is less than 0.0002%, the Hg massfraction is less than 0.00002% material.

The survival and reproduction base-material of microorganism will be made after preparation I and the mixed fermentation of preparation II, its preparation technology as shown in Figure 3, the survival and reproduction base-material that makes microorganism contains rich nutrient substances and beneficial microorganism, beneficial microorganism energy symbiotic co-existence, can utilize the nutritive substance in the preparation to continue breeding after being manured into soil, suppress the pathogenic bacteria growth, keep microecological balance in the soil; The polyuronide of above-mentioned beneficial microorganism secretion can form soil granular with gluings such as clay mineral and iron, plumbous oxyhydroxide and soil ulmin, make the soil total porosity in 50-54%, aeration porosity about 20-25%.

The present invention also mixes the survival and reproduction base-material of microorganism with chemical fertilizer, can satisfy the tea tree different growth periods to the demand of nutrition, thereby improves the content of tea-polyphenol.

Preferably, described step B for get 550 parts of deodorizing chicken manures, 280 parts of deodorizing cattle manures, 0.5 part in thermophilic side born of the same parents mould, 0.5 part of black-koji mould, 4 parts in brown sugar by weight, 5 parts of 18 parts of 110 parts in 120 parts of stalks, vinasse, Semen Maydis powder after pulverizing and potassium primary phosphates, stirred the back 55 ℃ of condition bottom fermentations 9 days, after the turning again 55 ℃ of condition bottom fermentations 3 days, then air-dry to the moisture weight ratio be 38%, through screening, magnetic separation gets the preparation I.

Preferably, described step C is for getting 5 parts in 80 parts of dregs of beans, 100 parts in wheat bran, 110 parts of calcium powders, 4 parts in brown sugar, 0.5 part of bacillus megaterium, 0.5 part of subtilis, 0.5 part of milk-acid bacteria and ferrous sulfate by weight, under 55 ℃ of conditions, fermented 3 days after stirring, after the turning again 55 ℃ of bottom fermentations 3 days, then air-dry to the moisture weight percent be 38%, through screening, magnetic separation gets the preparation II.

Preferably, described step D is for getting 46 parts of step B gained preparation I, 30 parts of step C gained preparation II by weight, add 2 parts of 0.5 part of bacillus megaterium, 0.5 part of subtilis, 0.5 part of black-koji mould, 0.5 part of streptomycete, 0.5 part of Lu Sheng cyanobacteria, 0.5 part of photosynthetic bacteria and dinoflagellates then by weight, 28 ℃ of condition bottom fermentations 3 days, again with tunning under 28 ℃ of conditions air-dry to the moisture weight percent be 18%, get the survival and reproduction base-material of microorganism.

Preferably, described step e is to get 79 parts of the survival and reproduction base-materials of step D gained microorganism by weight, adds 22 parts of chemical fertilizer then, stirs the back and pulverizes the particle of making 3mm, gets tea tree specific complex microorganism fertilizer; Described chemical fertilizer is made up of for 50 parts 118 parts in sal epsom, 20 parts of ammonium fertilizers, 60 parts of amide nitrogen fertilizers, 30 parts of Vanadium Pentoxide in FLAKESs, 12 parts in zinc sulfate, 4 parts in ferrous sulfate, 4 parts of potassium primary phosphates, 18 parts in Tai-Ace S 150 and potassium oxide by weight.

Preferably, in the described steps A, the moisture weight percent of described chicken manure is 70%, and the moisture weight percent of described cattle manure is 70%.

Preferably, among the described step B, the concentration of described thermophilic side born of the same parents mould is greater than 200,000,000 units/gram, and the concentration of described black-koji mould is greater than 200,000,000 units/gram.

Preferably, among the described step C, the concentration of described bacillus megaterium is greater than 200,000,000 units/gram, and the concentration of described subtilis is greater than 200,000,000 units/gram, and the concentration of described milk-acid bacteria is greater than 200,000,000 units/gram.

Preferably, among the described step D, the concentration of described bacillus megaterium is greater than 200,000,000 units/gram, the concentration of described subtilis is greater than 200,000,000 units/gram, the concentration of described black-koji mould is greater than 200,000,000 units/gram, the concentration of described streptomycete is greater than 200,000,000 units/gram, and the concentration of described Lu Sheng cyanobacteria is greater than 200,000,000 units/gram, and the concentration of described photosynthetic bacteria is greater than 200,000,000 units/gram.

Two of purpose of the present invention is to provide the tea tree specific complex that is made by aforesaid method microorganism fertilizer, and technical scheme is:

The tea tree specific complex microorganism fertilizer that utilizes described preparation method to make.

Beneficial effect of the present invention is: the preparation method of tea tree specific complex microorganism fertilizer disclosed by the invention, and its preparation method is simple, can turn waste into wealth, and the product that makes contains the beneficial microorganism of survival, and contains the nutritive substance of growth of tea plant; Beneficial microbe colony in the product can fixed nitrogen after be manured into soil survival and breeding, phosphorus decomposing, potassium decomposing, discharges CO as the tricalcium phosphate with indissoluble in the soil by respiration ₂, reduce edatope pH value and be converted into soluble phosphate, thereby improve the solvability of tricalcium phosphate, improve the effective rate of utilization of soil phosphorus, finally improve plant to the absorption of phosphorus; Beneficial microorganism in the product also can discharge H ₂S and tertiary iron phosphate effect generate soluble phosphate, improve the effective rate of utilization of soil phosphorus equally; Also utilize the streptomycete in the product that nitrate reduction is nitrite simultaneously, movable amylase, the aspartic protease of producing of black-koji mould regulated soil pH value; The mould decomposition of cellulose of thermophilic side born of the same parents, generation saccharifying enzyme, the balance Soil structure; These beneficial microorganisms can also reduce the content of heavy metal ion by electrically charged surface with nonspecific mode combination and Adsorption of Heavy Metal Ions, can reduce heavy metal toxicity and activity in microbiological oxidation simultaneously or the reduction process; And organochlorine carried out hydration reaction, form nontoxic organic compounds containing nitrogen; Can improve soil aggregate after using the tea tree specific complex microorganism fertilizer that the present invention makes, increase illuminating area; The activity of microorganism can reduce the soil day and night temperature, thereby reaches water conservation, protects fertile function, improves soil conductivity, is conducive to the tea tree plant root and stretches, and finally improves the tealeaves polyphenol content.

Description of drawings

In order to make purpose of the present invention, technical scheme and beneficial effect clearer, the invention provides following accompanying drawing:

Fig. 1 is the process flow sheet of preparation I.

Fig. 2 is the process flow sheet of preparation II.

The process flow sheet of Fig. 3 tea tree specific complex microorganism fertilizer.

Embodiment

Below in conjunction with accompanying drawing, the preferred embodiments of the present invention are described in detail.The experimental technique of unreceipted actual conditions among the embodiment is usually according to normal condition or the condition of advising according to manufacturer.

Embodiment 1

A. with fresh chicken manure and the cattle manure photosynthetic bacteria by sprinkling per ton 2,000 hundred million units, be that illumination was carried out deodorizing in 24 hours under the 8000LUX condition in intensity of illumination, get deodorizing chicken manure and deodorizing cattle manure;

B. get 500 parts of deodorizing chicken manures, 250 parts of deodorizing cattle manures, 0.4 part in thermophilic side born of the same parents mould, 0.4 part of black-koji mould, 3 parts in brown sugar by weight, 3 parts of 15 parts of 100 parts in 110 parts of stalks, vinasse, Semen Maydis powder after pulverizing and potassium primary phosphates, stirred the back 50 ℃ of condition bottom fermentations 7 days, after the turning again 50 ℃ of condition bottom fermentations 2 days, then air-dry to the moisture weight ratio be 35%, through screening, magnetic separation gets the preparation I;

C. get 4 parts in 70 parts of dregs of beans, 90 parts in wheat bran, 100 parts of calcium powders, 2 parts in brown sugar, 0.4 part of bacillus megaterium, 0.4 part of subtilis, 0.4 part of milk-acid bacteria and ferrous sulfate by weight, under 50 ℃ of conditions, fermented 2 days after stirring, after the turning again 50 ℃ of bottom fermentations 2 days, then air-dry to the moisture weight percent be 35%, through screening, magnetic separation gets the preparation II;

D. get 45 parts of step B gained preparation I, 29 parts of step C gained preparation II by weight, add 1.5 parts of 0.4 part of bacillus megaterium, 0.4 part of subtilis, 0.4 part of black-koji mould, 0.4 part of streptomycete, 0.4 part of Lu Sheng cyanobacteria, photosynthetic bacteria 0.4-part and dinoflagellates then by weight, 25 ℃ of condition bottom fermentations 2 days, again with tunning under 25 ℃ of conditions air-dry to the moisture weight percent be 15%, get the survival and reproduction base-material of microorganism;

E. get 80 parts of the survival and reproduction base-materials of step D gained microorganism by weight, add 20 parts of chemical fertilizer then by weight, stir the back and pulverize the particle of making 2mm, get tea tree specific complex microorganism fertilizer; Described chemical fertilizer is made up of for 45 parts 15 parts in sal epsom, 15 parts of ammonium fertilizers, 55 parts of amide nitrogen fertilizers, 25 parts of Vanadium Pentoxide in FLAKESs, 8 parts in zinc sulfate, 3 parts in ferrous sulfate, 3 parts of potassium primary phosphates, 15 parts in Tai-Ace S 150 and potassium oxide by weight.

Embodiment 2

A. with fresh chicken manure and the cattle manure photosynthetic bacteria by sprinkling per ton 4,000 hundred million units, be that illumination was carried out deodorizing in 12 hours under the 12000LUX condition in intensity of illumination, get deodorizing chicken manure and deodorizing cattle manure;

B. get 600 parts of deodorizing chicken manures, 300 parts of deodorizing cattle manures, 0.6 part in thermophilic side born of the same parents mould, 0.6 part of black-koji mould, 5 parts in brown sugar by weight, 8 parts of 20 parts of 120 parts in 130 parts of stalks, vinasse, Semen Maydis powder after pulverizing and potassium primary phosphates, stirred the back 60 ℃ of condition bottom fermentations 10 days, after the turning again 60 ℃ of condition bottom fermentations 3 days, then air-dry to the moisture weight ratio be 40%, through screening, magnetic separation gets the preparation I;

C. get 6 parts in 90 parts of dregs of beans, 110 parts in wheat bran, 120 parts of calcium powders, 6 parts in brown sugar, 0.6 part of bacillus megaterium, 0.6 part of subtilis, 0.6 part of milk-acid bacteria and ferrous sulfate by weight, under 60 ℃ of conditions, fermented 3 days after stirring, after the turning again 60 ℃ of bottom fermentations 3 days, then air-dry to the moisture weight percent be 40%, through screening, magnetic separation gets the preparation II;

D. get 48 parts of step B gained preparation I, 32 parts of step C gained preparation II by weight, add 2.5 parts of 0.6 part of bacillus megaterium, 0.6 part of subtilis, 0.6 part of black-koji mould, 0.6 part of streptomycete, 0.6 part of Lu Sheng cyanobacteria, 0.6 part of photosynthetic bacteria and dinoflagellates then by weight, 30 ℃ of condition bottom fermentations 3 days, again with tunning under 30 ℃ of conditions air-dry to the moisture weight percent be 20%, get the survival and reproduction base-material of microorganism;

E. get 80 parts of the survival and reproduction base-materials of step D gained microorganism by weight, add 23 parts of chemical fertilizer then by weight, stir the back and pulverize the particle of making 8mm, get tea tree specific complex microorganism fertilizer; Described chemical fertilizer is made up of for 55 parts 20 parts in sal epsom, 25 parts of ammonium fertilizers, 65 parts of amide nitrogen fertilizers, 35 parts of Vanadium Pentoxide in FLAKESs, 15 parts in zinc sulfate, 6 parts in ferrous sulfate, 6 parts of potassium primary phosphates, 20 parts in Tai-Ace S 150 and potassium oxide by weight.

Embodiment 3

The preparation method of the tealeaves specific complex microorganism fertilizer of improving the soil comprises the steps:

A. with fresh chicken manure and the cattle manure photosynthetic bacteria by sprinkling per ton 3,000 hundred million units, be that illumination was carried out deodorizing in 18 hours under the 10000LUX condition in intensity of illumination, get deodorizing chicken manure and deodorizing cattle manure;

B. get 550 parts of deodorizing chicken manures, 280 parts of deodorizing cattle manures, 0.5 part in thermophilic side born of the same parents mould, 0.5 part of black-koji mould, 4 parts in brown sugar by weight, 5 parts of 18 parts of 110 parts in 120 parts of stalks, vinasse, Semen Maydis powder after pulverizing and potassium primary phosphates, stirred the back 55 ℃ of condition bottom fermentations 9 days, after the turning again 55 ℃ of condition bottom fermentations 3 days, then air-dry to the moisture weight ratio be 38%, through screening, magnetic separation gets the preparation I;

C. get 5 parts in 80 parts of dregs of beans, 100 parts in wheat bran, 110 parts of calcium powders, 4 parts in brown sugar, 0.5 part of bacillus megaterium, 0.5 part of subtilis, 0.5 part of milk-acid bacteria and ferrous sulfate by weight, under 55 ℃ of conditions, fermented 3 days after stirring, after the turning again 55 ℃ of bottom fermentations 3 days, then air-dry to the moisture weight percent be 38%, through screening, magnetic separation gets the preparation II;

D. for getting 46 parts of step B gained preparation I, 30 parts of step C gained preparation II by weight, add 2 parts of 0.5 part of bacillus megaterium, 0.5 part of subtilis, 0.5 part of black-koji mould, 0.5 part of streptomycete, 0.5 part of Lu Sheng cyanobacteria, 0.5 part of photosynthetic bacteria and dinoflagellates then by weight, 28 ℃ of condition bottom fermentations 3 days, again with tunning under 28 ℃ of conditions air-dry to the moisture weight percent be 18%, get the survival and reproduction base-material of microorganism.

E. get 79 parts of the survival and reproduction base-materials of step D gained microorganism by weight, add 22 parts of chemical fertilizer then by weight, stir the back and pulverize the particle of making 3mm, get tea tree specific complex microorganism fertilizer; Described chemical fertilizer is made up of for 50 parts 118 parts in sal epsom, 20 parts of ammonium fertilizers, 60 parts of amide nitrogen fertilizers, 30 parts of Vanadium Pentoxide in FLAKESs, 12 parts in zinc sulfate, 4 parts in ferrous sulfate, 4 parts of potassium primary phosphates, 18 parts in Tai-Ace S 150 and potassium oxide by weight.

The moisture weight percent of smelly chicken manure is 70% in above-described embodiment, and the moisture weight percent of cattle manure is 70%, but also can use chicken manure and the cattle manure of other moisture contents; Among the step B; The concentration of thermophilic side born of the same parents mould and black-koji mould is greater than 200,000,000 units/gram; In like manner among the step C concentration of bacillus megaterium, subtilis and milk-acid bacteria greater than 200,000,000 units/gram; Bacillus megaterium among the step D, subtilis, black-koji mould, streptomycete, the concentration of Lu Sheng cyanobacteria and photosynthetic bacteria is greater than 200,000,000 units/gram, and its concentration is crossed to hang down and will be prolonged fermentation time.

Application Example 1

Test is located at mouth of a river village, Yongchuan District Qing Feng town 2 societies, and the test tea tree breed is 3 years Fuding white tea trees, is the purple sandy soil for test soil, height above sea level 557M, test soil fertility is medium, and the pH value is 6.9, irrigation conditions is arranged, and experimental plot 5 * 5 * 3 is established test and was averaged in 2 years.

Fertilizing method: according to the commitment principle of equal value, experimental group 1,2 and 3 is used the tea tree specific complex microorganism fertilizer of embodiment 1-3 preparation respectively, uses 60kg for every mu; It is the composite fertilizer of 15-5-5 that control group 1 is used nitrogen phosphorus potassium mass ratio, uses 35kg for every mu; Control group 2 every mu use 20 kg urea, 50 kilograms of calcium superphosphate; Simultaneously not apply fertilizer, to do out of crop blank, measure Chinese cabbage output then, and adopt potassium bichromate titrimetric method to measure soil organic matter content, potentiometry is measured soil pH value, the microbes biomass carbon measuring method is measured soil microorganisms and utilized core cutter method to calculate soil total porosity and soil capillary porosity, and the result is as shown in table 1.

Table 1, tea tree specific complex microorganism fertilizer result

Annotate: 7 samplings of S shape are adopted in soil sample

As shown in Table 1, the tealeaves polyphenol content is improved after using tea tree specific complex microorganism fertilizer of the present invention, and soil aggregate, all improve as soil total porosity and soil capillary porosity, soil organic matter content, soil microbial biomass carbon and soil pH value also have raising simultaneously, and organic matter becomes positive correlation with microorganism active, the soil total porosity becomes positive correlation with absorbancy, oxygen density, absorbancy becomes positive correlation with microbial biomass carbon, amount nitrogen, and capillary porosity becomes positive correlation with water conservation, water-permeable and electric conductivity.Therefore the tea tree specific complex microorganism fertilizer of the present invention's preparation has the effect of improving soil aggregate and other indexs, can be widely used in tea tree planting.

The comparative example 1

The Chinese patent that tea tree specific complex microorganism fertilizer and the publication number of embodiment of the invention 1-3 preparation is CN101186530A compares test.Test is located at mouth of a river village, Yongchuan District Qing Feng town 2 societies, and the test tea tree breed is 3 years Fuding white tea trees, is the purple sandy soil for test soil, height above sea level 557M, test soil fertility is medium, and the pH value is 6.9, irrigation conditions is arranged, and experimental plot 5 * 5 * 3 is established test and was averaged in 2 years.

Fertilizing method: according to the commitment principle of equal value, experimental group 1,2 and 3 is used the tea tree specific complex microorganism fertilizer of embodiment 1-3 preparation respectively, uses 60 kilograms for every mu; It is the disclosed fertilizer of CN101186530A that control group is used publication number, uses 60 kilograms for every mu; Not apply fertilizer, to do out of crop blank, measure corresponding index according to the method for Application Example 1 then simultaneously, the result is as shown in table 2.

Table 2, tea tree specific complex microorganism fertilizer and fowl dung fermentation fertilizer comparing result

As shown in Table 2, use the polyphenol content of the tea tree specific complex microorganism fertilizer of the present invention's preparation and compare with comparative group 1, content has improved about 5.5%, and organic matter obviously increases, soil total porosity and capillary porosity increase, and therefore can be more conducive to water conservation, insulation and electric conductivity.Microbial biomass carbon also obviously increases simultaneously, its reason may be that this fertilizer contains the required nutrition of thalli growth, can in fertilizer, survive after the fermentation, therefore can utilize nutritive substance continued growth in the fertilizer after being manured into soil, the improved effect of soil being better than publication number is the disclosed fertilizer of CN101186530A.

The content of chromium, cadmium, arsenic, mercury and plumbous heavy metal element in the soil behind the employing aas determination tea tree specific complex microorganism fertilizer on probation, the result is as shown in table 3.

Table 3, use heavy metal content result behind tea tree specific complex microorganism fertilizer and the fowl dung fermentation fertilizer

Fertilizer	Chromium (mgkg ^-1）	Cadmium (mgkg ^-1）	Arsenic (mgkg ^-1）	Mercury (mgkg ^-1）	Plumbous (mgkg ^-1）
						Experimental group 1	44.86	0.39	11.97	0.10	48.05
Experimental group 2	45.13	0.39	12.22	0.11	47.17
						Experimental group 3	44.77	0.38	11.65	0.10	47.63
Control group	46.30	0.40	13.27	0.11	51.11

As shown in Table 3, use the tea tree specific complex microorganism fertilizer of the present invention preparation after, heavy metal content is lower, its effect is better than the disclosed fowl dung fermentation fertilizer of CN101186530A.

Explanation is at last, above preferred embodiment is only unrestricted in order to technical scheme of the present invention to be described, although the present invention is described in detail by above preferred embodiment, but those skilled in the art are to be understood that, can make various changes to it in the form and details, and not depart from claims of the present invention institute restricted portion.

Claims

1. the preparation method of the tea tree specific complex microorganism fertilizer of improving the soil is characterized in that, comprises the steps:

C. get dregs of beans 70-90 part, wheat bran 90-110 part, calcium powder 100-120 part, brown sugar 2-6 part, bacillus megaterium 0.4-0.6 part, subtilis 0.4-0.6 part, milk-acid bacteria 0.4-0.6 part and ferrous sulfate 4-6 part by weight, stirred the back 50-60 ℃ of condition bottom fermentation 2-3 days, after the turning again at 50-60 ℃ of bottom fermentation 2-3 days, then air-dry to the moisture weight percent be 35-40%, through screening, magnetic separation gets the preparation II;

2. preparation method according to claim 1, it is characterized in that: described step B for get 550 parts of deodorizing chicken manures, 280 parts of deodorizing cattle manures, 0.5 part in thermophilic side born of the same parents mould, 0.5 part of black-koji mould, 4 parts in brown sugar by weight, 5 parts of 18 parts of 110 parts in 120 parts of stalks, vinasse, Semen Maydis powder after pulverizing and potassium primary phosphates, stirred the back 55 ℃ of condition bottom fermentations 9 days, after the turning again 55 ℃ of condition bottom fermentations 3 days, then air-dry to the moisture weight ratio be 38%, through screening, magnetic separation gets the preparation I.

3. preparation method according to claim 1, it is characterized in that: described step C is for getting 5 parts in 80 parts of dregs of beans, 100 parts in wheat bran, 110 parts of calcium powders, 4 parts in brown sugar, 0.5 part of bacillus megaterium, 0.5 part of subtilis, 0.5 part of milk-acid bacteria and ferrous sulfate by weight, under 55 ℃ of conditions, fermented 3 days after stirring, after the turning again 55 ℃ of bottom fermentations 3 days, then air-dry to the moisture weight percent be 38%, through screening, magnetic separation gets the preparation II.

4. preparation method according to claim 1, it is characterized in that: described step D is for getting 46 parts of step B gained preparation I, 30 parts of step C gained preparation II by weight, add 2 parts of 0.5 part of bacillus megaterium, 0.5 part of subtilis, 0.5 part of black-koji mould, 0.5 part of streptomycete, 0.5 part of Lu Sheng cyanobacteria, 0.5 part of photosynthetic bacteria and dinoflagellates then, 28 ℃ of condition bottom fermentations 3 days, again with tunning under 28 ℃ of conditions air-dry to the moisture weight percent be 18%, get the survival and reproduction base-material of microorganism.

5. preparation method according to claim 1, it is characterized in that: described step e is to get 79 parts of the survival and reproduction base-materials of step D gained microorganism by weight, add 22 parts of chemical fertilizer then by weight, stir the back and pulverize the particle of making 3mm, get tea tree specific complex microorganism fertilizer; Described chemical fertilizer is made up of for 50 parts 118 parts in sal epsom, 20 parts of ammonium fertilizers, 60 parts of amide nitrogen fertilizers, 30 parts of Vanadium Pentoxide in FLAKESs, 12 parts in zinc sulfate, 4 parts in ferrous sulfate, 4 parts of potassium primary phosphates, 18 parts in Tai-Ace S 150 and potassium oxide by weight.

6. preparation method according to claim 1, it is characterized in that: in the described steps A, the moisture weight percent of described chicken manure is 70%, and the moisture weight percent of described cattle manure is 70%.

7. preparation method according to claim 1, it is characterized in that: among the described step B, the concentration of described thermophilic side born of the same parents mould is greater than 200,000,000 units/gram, and the concentration of described black-koji mould is greater than 200,000,000 units/gram.

8. preparation method according to claim 1, it is characterized in that: among the described step C, the concentration of described bacillus megaterium is greater than 200,000,000 units/gram, and the concentration of described subtilis is greater than 200,000,000 units/gram, and the concentration of described milk-acid bacteria is greater than 200,000,000 units/gram.

9. preparation method according to claim 1, it is characterized in that: among the described step D, the concentration of described bacillus megaterium is greater than 200,000,000 units/gram, the concentration of described subtilis is greater than 200,000,000 units/gram, the concentration of described black-koji mould is greater than 200,000,000 units/gram, the concentration of described streptomycete is greater than 200,000,000 units/gram, and the concentration of described Lu Sheng cyanobacteria is greater than 200,000,000 units/gram, and the concentration of described photosynthetic bacteria is greater than 200,000,000 units/gram.

10. the tea tree specific complex microorganism fertilizer that utilizes each described preparation method of claim 1-9 to make.