CN103964955B - A kind of solid bactericidal yield-increase agent and production method thereof and application - Google Patents
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Abstract
A kind of solid bactericidal yield-increase agent and production method thereof and application, does is the weight part of this bactericidal yield-increase agent raw material Raw medicine: Semen Armeniacae Amarum? 6.0 ~ 8.0 parts, zeatin 3.0 ~ 5.0 parts, molybdenum 1.0 ~ 3.0 parts, 4.0 ~ 6.0 parts, zinc, 3.0 ~ 5.0 parts, magnesium, boron 2.0 ~ 4.0 parts, 1.0 ~ 3.0 parts, phosphorus; Also containing the dispersion agent alkyl sodium sulfonate of 3% weight percent, the xylogen of 3% weight percent and a certain amount of stopping composition in its raw material.This bactericidal yield-increase agent employing plant-origin material is master, chemical agent is auxiliary, composition of raw materials science is investigated, drive disease, high yield effect is lasting, improve the autoimmunity of farm crop simultaneously, good sterilization, diseases prevention can be played to farm crop, cure the disease, the effect of high volume increase, and it is nontoxic, harmless, free from environmental pollution.
Description
Technical field
The present invention relates to a kind of bactericidal yield-increase agent and production method thereof and application, the particularly agent of a kind of solid bactericidal yield-increase and production method thereof and application.
Background technology
At present, plant in process of growth because the factor impacts such as once visited place replanting or air, flowing water, disease and pest can produce various disease, as bacterial wilt, civilian rot, mosaic disease, charcoal subcutaneous ulcer, scab, epidemic disease, fallen leaves, fallen flowers, shedding, dehiscent fruit etc.And although plant itself can produce organized enzyme that is anti-oxidant, anti-ageing and antivirus action naturally; but the plant of a lot of once visited place replanting for many years lacks enough endogenous hormones and the protection of organized enzyme; do not resist infection and the infringement of various germ, so that cause crop production reduction, decrement, the reduction of income.Therefore, can either prevent in the urgent need to developing one, to treat farm crop sick, the bactericidal yield-increase agent of crop yield can be improved again.
Summary of the invention
The object of the invention is: provide the agent of a kind of solid bactericidal yield-increase and production method thereof and application, made solid bactericidal yield-increase agent is used for proportion of crop planting, can play diseases prevention, cure the disease, the effect of high volume increase to farm crop, and nontoxic, harmless.
Object of the present invention can be realized by following technical proposals:
The agent of a kind of solid bactericidal yield-increase, is characterized in that the weight part of its raw material Raw medicine is: Semen Armeniacae Amarum 6.0 ~ 8.0 parts, zeatin 3.0 ~ 5.0 parts, molybdenum 1.0 ~ 3.0 parts, 4.0 ~ 6.0 parts, zinc, 3.0 ~ 5.0 parts, magnesium, boron 2.0 ~ 4.0 parts, 1.0 ~ 3.0 parts, phosphorus; Also containing the dispersion agent alkyl sodium sulfonate of 3% weight percent, the xylogen of 3% weight percent and a certain amount of stopping composition in its raw material.
The weight part of its raw material Raw medicine of the present invention is: Semen Armeniacae Amarum 6.0 parts, zeatin 3.0 parts, molybdenum 1.0 parts, 4.0 parts, zinc, 3.0 parts, magnesium, boron 2.0 parts, 1.0 parts, phosphorus.
The weight part of its raw material Raw medicine of the present invention is: Semen Armeniacae Amarum 6.45 parts, zeatin 3.75 parts, molybdenum 1.40 parts, 4.80 parts, zinc, 3.30 parts, magnesium, boron 2.3 parts, 1.5 parts, phosphorus.
The weight part of its raw material Raw medicine of the present invention is: Semen Armeniacae Amarum 8.0 parts, zeatin 5.0 parts, molybdenum 3.0 parts, 6.0 parts, zinc, 5.0 parts, magnesium, boron 4.0 parts, 3.0 parts, phosphorus.
Synergistic agent also containing 15 ~ 25% weight percents in its raw material of the present invention.
Synergistic agent also containing 20% weight percent in its raw material of the present invention.
Synergistic agent of the present invention is alkylphenol polyoxyethylene phosphoric acid ester (or salt), or naphthalene and sulfonated alkyl naphathalene formaldehyde condensation products, or the mixing of polyoxyethylene ether phosphate (or salt) and naphthalene and sulfonated alkyl naphathalene formaldehyde condensation products arbitrary proportion.
Described stopping composition is monocalcium phosphate, and its consumption is will produce solid bactericidal yield-increase agent product weight 45.5 ~ 55.5%.
A production method for a kind of solid bactericidal yield-increase agent as described in claim 1-4 any one, is characterized in that comprising following processing step:
(1) get bulk drug according to above-mentioned weight part, be ground into the powder of 100 mesh sieves, for subsequent use;
(2) in step (1) gained bulk drug powder, synergistic agent is added, stir, add stopping composition again, stir, finally add dispersion agent alkyl sodium sulfonate and xylogen, obtain mixing raw material powder, synergistic agent content is made to reach 15 ~ 25% of mixing raw material powder weight, dispersion agent alkyl sodium sulfonate and content of lignin reach 3% of mixing raw material powder weight all separately, stopping composition content reaches will produce 45.5 ~ 55.5% of solid bactericidal yield-increase agent product weight, stir, fully mix, then detect, packaging, warehouse-in, namely the agent of described solid bactericidal yield-increase is made.
An application for a kind of solid bactericidal yield-increase agent as described in claim 1-4 any one, is characterized in that: for preventing and treating the following disease of paddy rice, cotton, corn, soybean, vegetables and fruit farm crop:
Black spot, epidemic disease, target spot, angular leaf spot, blight, yellow blight, banded sclerotial blight, charcoal subcutaneous ulcer, fallen leaves, shedding.
Advantage of the present invention is: the solid bactericidal yield-increase agent 1), employing plant-origin material is master, chemical agent is auxiliary, composition of raw materials science is investigated, drive disease, high yield effect is lasting, improve the autoimmunity of farm crop simultaneously, therefore, it is possible to good sterilization, diseases prevention played to farm crop, cure the disease, the effect of high volume increase, and nontoxic, harmless, free from environmental pollution; 2) after the agent of this solid bactericidal yield-increase being used to farm crop, the not sick insect pest of farm crop, and obvious effect of increasing production, can more than 13% ~ 100% be increased production, specifically every mu of units increased in production: wheat 200 ~ 300 jin, corn 200 ~ 400 jin, 200 jin, cotton, fresh kidney beans 8000 ~ 10000 jin, tomato 5000 ~ 6000 jin, 2000 ~ 3000 jin, capsicum, 2000 ~ 3000 jin, garlic, watermelon 2000 jin, peanut 300 jin, 1000 jin, potato.
Embodiment
Solid bactericidal yield-increase of the present invention agent, the weight part of its raw material Raw medicine is: Semen Armeniacae Amarum 6.0 ~ 8.0 parts, zeatin 3.0 ~ 5.0 parts, molybdenum 1.0 ~ 3.0 parts, 4.0 ~ 6.0 parts, zinc, 3.0 ~ 5.0 parts, magnesium, boron 2.0 ~ 4.0 parts, 1.0 ~ 3.0 parts, phosphorus; Also containing the dispersion agent alkyl sodium sulfonate of 3% weight percent, the xylogen of 3% weight percent and a certain amount of stopping composition in its raw material.Synergistic agent also containing 15 ~ 25% weight percents in its raw material, the synergistic agent preferably containing 20% weight percent.Described synergistic agent is alkylphenol polyoxyethylene phosphoric acid ester (or salt), or naphthalene and sulfonated alkyl naphathalene formaldehyde condensation products, or the mixing of polyoxyethylene ether phosphate (or salt) and naphthalene and sulfonated alkyl naphathalene formaldehyde condensation products arbitrary proportion.Described stopping composition is monocalcium phosphate, and its consumption is will produce solid bactericidal yield-increase agent product weight 45.5 ~ 55.5%.
The production method of solid bactericidal yield-increase of the present invention agent, comprises following processing step:
(1) get bulk drug according to above-mentioned weight part, be ground into the powder of 100 mesh sieves, for subsequent use;
(2) in step (1) gained bulk drug powder, synergistic agent is added, stir, add stopping composition again, stir, finally add dispersion agent alkyl sodium sulfonate and xylogen, obtain mixing raw material powder, synergistic agent content is made to reach 15 ~ 25% of mixing raw material powder weight, dispersion agent alkyl sodium sulfonate and content of lignin reach 3% of mixing raw material powder weight all separately, stopping composition content reaches will produce 45.5 ~ 55.5% of solid bactericidal yield-increase agent product weight, stir, fully mix, then detect, packaging, warehouse-in, namely the agent of described solid bactericidal yield-increase is made.
Here is several embodiments of solid bactericidal yield-increase agent raw material Raw medicine weight part of the present invention:
Embodiment 1:
The weight part of its raw material Raw medicine is: Semen Armeniacae Amarum 6.0 parts, zeatin 3.0 parts, molybdenum 1.0 parts, 4.0 parts, zinc, 3.0 parts, magnesium, boron 2.0 parts, 1.0 parts, phosphorus.
Embodiment 2:
The weight part of its raw material Raw medicine is: Semen Armeniacae Amarum 6.45 parts, zeatin 3.75 parts, molybdenum 1.40 parts, 4.80 parts, zinc, 3.30 parts, magnesium, boron 2.3 parts, 1.5 parts, phosphorus.
Embodiment 3:
The weight part of its raw material Raw medicine is: Semen Armeniacae Amarum 8.0 parts, zeatin 5.0 parts, molybdenum 3.0 parts, 6.0 parts, zinc, 5.0 parts, magnesium, boron 4.0 parts, 3.0 parts, phosphorus.
Solid bactericidal yield-increase of the present invention agent can be used for effectively preventing and treating contingent more than 85% fungal disease of paddy rice, cotton, corn, soybean, vegetables and fruit farm crop, as, black spot, epidemic disease, target spot, angular leaf spot, blight, yellow blight, banded sclerotial blight, charcoal subcutaneous ulcer, fallen leaves, shedding etc.There is sterilization, expelling parasite, supplement farm crop desired nutritional material, improve farm crop autoimmunity, diseases prevention, to cure the disease, promote farm crop reproductive growth, make effect of farming object height volume increase.Nontoxic, harmless, person poultry safety.
The application process of solid bactericidal yield-increase of the present invention agent is: kidney bean, string bean, French beans, cowpea in crop flowers first about 7 days, or crop is brought into use when growing to 60 ~ 80 centimeters high, during use, every 20 grams of bactericidal yield-increase agent are watered 30 jin of even spraying, every mu with bactericidal yield-increase agent 40 ~ 60 grams, execute spray continuously 2 ~ 3 times, interval time is 7 days, soybean, mung bean, red bean, grow to about 50 centimeters crop, or before the crop flowers phase 5 ~ 7 days bring into use, during use, every 20 grams of bactericidal yield-increase agent are watered 30 jin of even spraying, with bactericidal yield-increase agent 40 ~ 60 grams, execute spray continuously 2 ~ 3 times for every mu, interval time is 7 days, cotton grows to about 60 centimeters Gao Shi crop and brings into use, and during use, every 20 grams of bactericidal yield-increase agent are watered 30 jin of even spraying, and with bactericidal yield-increase agent 40 grams, execute spray continuously 2 times for every mu, interval time is about 20 days, wheat is brought into use at crop blooming stage (filling stage) for first 10 days, during use, every 20 grams of bactericidal yield-increase agent are watered 30 jin of even spraying, with bactericidal yield-increase agent 20 ~ 40 grams, execute spray continuously 2 times for every mu, execute spray 3 ~ 4 times per season at most continuously, interval time is 10 ~ 15 days, corn starts the 1st time and uses when crop grows 3 ~ 5 leaf, when using for the 1st time, every 20 grams of bactericidal yield-increase agent are watered 15 kilograms of even spraying, every mu with bactericidal yield-increase agent 20 ~ 40 grams, start the 2nd time to use when crop grows 6 ~ 8 leaf, when using for the 2nd time, every 20 grams of bactericidal yield-increase agent are watered 15 kilograms of even spraying, every mu with bactericidal yield-increase agent 40 grams, start the 3rd time to use when crop grows 9 ~ 11 leaf, when using for the 3rd time, every 20 grams of bactericidal yield-increase agent are watered 15 kilograms of even spraying, every mu with bactericidal yield-increase agent 40 grams, the unallowed area of partial condition at least uses 2 times bactericidal yield-increase agent.Attention: the agent of this solid bactericidal yield-increase can be mixed with weedicide, agrochemical, but can not be mixed with hormones product.
The proterties of solid bactericidal yield-increase of the present invention agent is white powder, and pH value is 5 ~ 6.Its sterilization, drive after being ill, high effect of increasing production is extremely remarkable, can be verified by following field test.
(1) solid bactericidal yield-increase of the present invention agent application effect test on summer corn
One, field and trial crops situation is tested:
Test site launches test in so-and-so field of Xi Bao village of Shou Shan temple township, Guanyao County Liu.Test field soil type is light loamy soil, and the soil texture is light earth; Soil nutrient status is: organic 13.6g/kg, full nitrogen 1.21g/kg, available phosphorus 24.6mg/kg, available potassium 109.6mg/kg, pH value 7.6; Preceding crop is wheat; Preceding crop rate of fertilizer application is: mu executes purity nitrogen 16 kilograms, Vanadium Pentoxide in FLAKES 7.5 kilograms, potassium oxide 7.5 kilograms, preceding crop output 584 kilograms.This test, test field plantation summer corn, kind is for dredging single 20.
Two, testing program and method:
From test Stochastic choice 3 communities, field, each plot area 10.00 meters × 6.67 meters=66.70 square metres, each community again stochastic averagina is divided into 4 groups, and a kind of test process is implemented in each community, in each community, often group realizes single test repetition, and this test is established 3 process altogether, repeated for 4 times.
Process 1 is implemented in 1st community: conventional fertilizer application.Mu executes the fertile 45%(N-P of seed
2o
5-K
2o) bulk blended fertilizer (20-10-15) 30 kilograms, wherein containing purity nitrogen 6 kilograms, Vanadium Pentoxide in FLAKES 3 kilograms, potassium oxide 4.5 kilograms, sow after conventional fertilizer application, mu application rate 2.5 kilograms, fertile 30 kilograms, the urea of typhon is imposed after 39 days after ferti-seeding, the prevention and control of plant diseases, pest control and management of watering are implemented according to the conventional measure of plantation summer corn, within 3 months 0 20 days, test summer corn results afterwards.
Process 2 is implemented in 2nd community: conventional fertilizer application+spray the clear water with solid bactericidal yield-increase agent equivalent of the present invention.Conventional fertilizer application field management with process 1, and within 34 days, 44 days after ferti-seeding, respectively spray once with the clear water of solid bactericidal yield-increase agent equivalent of the present invention, within 3 months 0 20 days, test summer corn results afterwards.
Process 3 is implemented in 3rd community: conventional fertilizer application+spray solid bactericidal yield-increase of the present invention agent.Conventional fertilizer application field management is with process 1, and 34 days, 44 days after ferti-seeding respectively spray the agent of a solid bactericidal yield-increase of the present invention, and every mu is watered 30 kilograms, even spraying with solid bactericidal yield-increase agent 40 grams, within 3 months 0 20 days, tests summer corn results afterwards.
Three, test-results:
At the crucial growthdevelopmental stage of summer corn growth, we have carried out biological character investigation to 3 communities of test, find in investigation, spray the 3rd community of solid bactericidal yield-increase of the present invention agent, summer corn crop plant stem slightly increases, and aerial root increases by 1 ~ 2 layer, and leaf look dark green, resistant to lodging, the resistance of disease and pest is obviously strengthened.
In addition different treatment on the impact of summer corn grain number per spike, thousand seed weight and output in table 1, table 2 and table 3.
Table 1. different treatment is on the impact of summer corn grain number per spike
Table 2. different treatment is on the impact of summer corn thousand seed weight
Table 3. different treatment is on the impact of yield of Summer Corn
Test process output (folding per mu yield) cartogram (output unit: kilogram)
From in table 1, process 3 is than process 1 and process 2 grain number per spike showed increased, and compared with process 1, the grain number per spike of process 3 adds 30.92, and compared with process 2, the grain number per spike of process 3 adds 28.97.From in table 2, the thousand seed weight of summer corn increases successful, and process 3 increases by 29.88 grams than the thousand seed weight of process 1, and process 3 increases by 26.95 grams than the thousand seed weight of process 2.From in table 3, process 3 is than process 1 mu volume increase 96.7 kilograms, and stimulation ratio 15.4%, process 3 increases production 88.72 kilograms than process 2 mu, stimulation ratio 13.9%.Visible, after spraying solid bactericidal yield-increase of the present invention agent, effect of increasing production is extremely remarkable.
(2) solid bactericidal yield-increase of the present invention agent application effect test on wheat
One, field and trial crops situation is tested:
Test site launches test in so-and-so field tall in Zhong Magu village, Guantao town, Guanyao County.Test field soil type is light loamy soil, and the soil texture is light earth; Soil nutrient status is: organic 11.8g/kg, full nitrogen 1.03g/kg, available phosphorus 23.7mg/kg, available potassium 108.3mg/kg, pH value 7.8; Preceding crop is corn; Preceding crop rate of fertilizer application is: mu executes purity nitrogen 15 kilograms, Vanadium Pentoxide in FLAKES 11.5 kilograms, potassium oxide 6 kilograms, preceding crop output 503 kilograms.This test, test field plantation wheat, kind is Handan 4564.
Two, testing program and method:
From test Stochastic choice 3 communities, field, each plot area 10.00 meters × 6.67 meters=66.70 square metres, each community again stochastic averagina is divided into 4 groups, and a kind of test process is implemented in each community, in each community, often group realizes single test repetition, and this test is established 3 process altogether, repeated for 4 times.
Process 1 is implemented in 1st community: conventional fertilizer application.Mu executes the fertile 51%(N-P of seed
2o
5-K
2o) bulk blended fertilizer (20-23-8) 50 kilograms, wherein containing purity nitrogen 10 kilograms, Vanadium Pentoxide in FLAKES 11.5 kilograms, potassium oxide 4 kilograms, sow after conventional fertilizer application, mu application rate 11 kilograms, the prevention and control of plant diseases, pest control and management of watering are implemented according to the conventional measure of plantation wheat, test harvesting wheat after 8 months.
Process 2 is implemented in 2nd community: conventional fertilizer application+spray the clear water with solid bactericidal yield-increase agent equivalent of the present invention.Conventional fertilizer application field management is with process 1, and wheat grows to blooming stage (filling stage) and within first 10 days, starts to spray the clear water with solid bactericidal yield-increase agent equivalent of the present invention after ferti-seeding, execute spray continuously 2 times, interval time is 10 ~ 15 days, tests harvesting wheat after 8 months.
Process 3 is implemented in 3rd community: conventional fertilizer application+spray solid bactericidal yield-increase of the present invention agent.Conventional fertilizer application field management is with process 1, and wheat grows to blooming stage (filling stage) and within first 10 days, starts to spray solid bactericidal yield-increase of the present invention agent after ferti-seeding, every mu is watered 30 jin with solid bactericidal yield-increase agent 20 grams, even spraying, execute spray continuously 2 times, interval time is 10 ~ 15 days, tests harvesting wheat after 8 months.
Three, test-results:
At the crucial growthdevelopmental stage of wheat growth, we have carried out biological character investigation to 3 communities of test, find in investigation, spray the 3rd community of solid bactericidal yield-increase of the present invention agent, wheat plant robust growth, blade is plump, leaf look dark green, resistant to lodging, obviously strengthens the resistance of disease and pest.
In addition different treatment on the impact of wheat grains per spike, thousand seed weight and output in table 4, table 5 and table 6.
Table 4. different treatment is on the impact of wheat grains per spike
Table 5. different treatment is on the impact of thousand grain weight of wheat
Table 6. different treatment is on the impact of wheat yield
Test process output statistics table (output unit: kilogram)
From in table 4, process 3 is than process 1 and the grain number per spike showed increased processing 2 wheats, and compared with process 1, the grain number per spike of process 3 adds 2.35, and compared with process 2, the grain number per spike of process 3 adds 2.11.From in table 5, the thousand seed weight of wheat increases successful, and process 3 increases by 3.16 grams than the thousand seed weight of process 1, and process 3 increases by 2.74 grams than the thousand seed weight of process 2.From in table 6, process 3 is than process 1 mu volume increase 79.4 kilograms, and stimulation ratio 16.26%, process 3 increases production 69.8 kilograms than process 2 mu, stimulation ratio 14.02%.Visible, after spraying solid bactericidal yield-increase of the present invention agent, effect of increasing production is extremely remarkable.
(3) solid bactericidal yield-increase of the present invention agent application effect test on vegetables
One, field and trial crops situation is tested:
Test site in Yuanmou County old city township of Yunnan Province, area just outside a city gate town, Jianshui County, Kaiyuan City Ren Zhe village, field, leguminous vegetable crop main producing region, several Yunnan, Jiu Jie village, Tonghai County launch demonstration test.Experimental plot ground area situation is: 4 pieces, demonstration ground, Yuanmou County old city township, area totally 150 mu; 2 pieces, demonstration ground, area just outside a city gate town, Jianshui County, area totally 50 mu; 2 pieces, demonstration ground, Kaiyuan City Ren Zhe village, area totally 50 mu; 2 pieces, demonstration ground, Jiu Jie village, Tonghai County, area totally 50 mu.Between experimental plot, layout is: 4 pieces of Yuanmou County old city township demonstration ground and local peasant household Routine Management 3 pieces comparatively (area totally 90 mu) contrast; 2 pieces of area just outside a city gate town, Jianshui County demonstration ground and local peasant household Routine Management 2 pieces comparatively (area totally 15 mu) contrast; 2 pieces of Kaiyuan City Ren Zhe village demonstration ground and local peasant household Routine Management 2 pieces comparatively (area totally 10 mu) contrast; 2 pieces of Jiu Jie village, Tonghai County demonstration ground and local peasant household Routine Management 2 pieces comparatively (area totally 17 mu) contrast.This test, demonstration plant vegetable variety is pisum sativum, cowpea, string bean.
Two, testing program and method:
Solid bactericidal yield-increase of the present invention agent is used to each demonstration ground vegetable crop, application process is: within first about 7 days, bring into use in crop flowers, during use, every 20 grams of bactericidal yield-increase agent are watered 30 jin of even spraying, every mu with bactericidal yield-increase agent 40 ~ 60 grams, spray method is adopted to spray to crop complete stool, execute spray continuously 2 ~ 3 times, interval time is 7 days, consumption with plant abundant liquid and not dripping be advisable.
Investigation and stimulation ratio method of calculation: respectively experiment and demonstration is investigated with Pod Bearing Percentage comparatively and output in legume crop flowering period and harvesting time, 5 sampling surveys in every block demonstration ground, often some investigation 5 strains, the simple inflorescence number recording every 5 strains bears pods and counts and single plant yield, calculates Pod Bearing Percentage and stimulation ratio.
Three, test-results:
Test-results is in table 7.
Table 7. is respectively demonstrated the volume increase situation of ground, different leguminous crops comparatively
From in table 7, solid bactericidal yield-increase of the present invention agent to the effect of increasing production of string bean between 82.24% ~ 104.39%, to the effect of increasing production of pisum sativum between 84.78% ~ 111.36%, to the effect of increasing production of cowpea between 85.06% ~ 103.29%, effect of increasing production is extremely obvious.
Claims (9)
1. a solid bactericidal yield-increase agent, is characterized in that the weight part of its raw material Raw medicine is: Semen Armeniacae Amarum 6.0 ~ 8.0 parts, zeatin 3.0 ~ 5.0 parts, molybdenum 1.0 ~ 3.0 parts, 4.0 ~ 6.0 parts, zinc, 3.0 ~ 5.0 parts, magnesium, boron 2.0 ~ 4.0 parts, 1.0 ~ 3.0 parts, phosphorus; Also containing the dispersion agent alkyl sodium sulfonate of 3% weight percent, the xylogen of 3% weight percent and a certain amount of stopping composition in its raw material; In addition, the synergistic agent also containing 15 ~ 25% weight percents in its raw material.
2. a kind of solid bactericidal yield-increase according to claim 1 agent, is characterized in that the weight part of its raw material Raw medicine is: Semen Armeniacae Amarum 6.0 parts, zeatin 3.0 parts, molybdenum 1.0 parts, 4.0 parts, zinc, 3.0 parts, magnesium, boron 2.0 parts, 1.0 parts, phosphorus.
3. a kind of solid bactericidal yield-increase according to claim 1 agent, is characterized in that the weight part of its raw material Raw medicine is: Semen Armeniacae Amarum 6.45 parts, zeatin 3.75 parts, molybdenum 1.40 parts, 4.80 parts, zinc, 3.30 parts, magnesium, boron 2.3 parts, 1.5 parts, phosphorus.
4. a kind of solid bactericidal yield-increase according to claim 1 agent, is characterized in that the weight part of its raw material Raw medicine is: Semen Armeniacae Amarum 8.0 parts, zeatin 5.0 parts, molybdenum 3.0 parts, 6.0 parts, zinc, 5.0 parts, magnesium, boron 4.0 parts, 3.0 parts, phosphorus.
5. a kind of solid bactericidal yield-increase agent according to claim 1-4 any one, is characterized in that: the synergistic agent also containing 20% weight percent in its raw material.
6. a kind of solid bactericidal yield-increase agent according to claim 1-4 any one, it is characterized in that: described synergistic agent is alkylphenol polyoxyethylene phosphoric acid ester or salt, or naphthalene and sulfonated alkyl naphathalene formaldehyde condensation products, or the mixing of polyoxyethylene ether phosphate or salt and naphthalene and sulfonated alkyl naphathalene formaldehyde condensation products arbitrary proportion.
7. a kind of solid bactericidal yield-increase according to claim 1 agent, is characterized in that: described stopping composition is monocalcium phosphate, and its consumption is will produce solid bactericidal yield-increase agent product weight 45.5 ~ 55.5%.
8. a production method for a kind of solid bactericidal yield-increase agent as described in claim 1-4 any one, is characterized in that comprising following processing step:
(1) get bulk drug according to above-mentioned weight part, be ground into the powder of 100 mesh sieves, for subsequent use;
(2) in step (1) gained bulk drug powder, synergistic agent is added, stir, add stopping composition again, stir, finally add dispersion agent alkyl sodium sulfonate and xylogen, obtain mixing raw material powder, synergistic agent content is made to reach 15 ~ 25% of mixing raw material powder weight, dispersion agent alkyl sodium sulfonate and content of lignin reach 3% of mixing raw material powder weight all separately, stopping composition content reaches will produce 45.5 ~ 55.5% of solid bactericidal yield-increase agent product weight, stir, fully mix, then detect, packaging, warehouse-in, namely the agent of described solid bactericidal yield-increase is made.
9. an application for a kind of solid bactericidal yield-increase agent as described in claim 1-4 any one, is characterized in that: for preventing and treating the following disease of paddy rice, cotton, corn, soybean, vegetables and fruit farm crop:
Black spot, epidemic disease, target spot, angular leaf spot, blight, yellow blight, banded sclerotial blight, charcoal subcutaneous ulcer, fallen leaves, shedding.
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| CN102491852A (en) * | 2011-11-24 | 2012-06-13 | 赵文平 | Organic fertilizer used for controlling underground pests |
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