CN106416506A - Soybean sprout seedling cultivation method - Google Patents

Abstract

The invention provides a soybean sprout seedling cultivation method. The method includes the following steps that firstly, seeds are selected, wherein organic soybean seeds with the germination rate larger than 95% are selected; secondly, the seeds are soaked; thirdly, the seeds processed in the second step are placed in a first nutritional solution and soaked for 18-23 h at 25.5-27 DEG C; fourthly, the seeds soaked in the third step are evenly spread in a biological nutritional medium, germination acceleration is conducted for 1-2 h at normal temperature in a shading mode at 25 DEG C, and the germination accelerating rate reaches 80%; fifthly, unified light culture is conducted on soybean sprout seedlings in a culture region, the temperature is controlled at 25-30 DEG C, water is sprayed 3-4 times every day, humidity is kept larger than 70%, and culture is conducted for 3-4 days, wherein the first nutritional solution is a mixed solution of ginger extraction solution, soybean sprout seedling root and stem extraction solution and deionized water in the ratio of 1:1:5-1:1:10.

Description

Semen sojae atricolor bud seedling vegetable breeding method

Technical field

The present invention relates to a kind of bud seedling vegetable implantation methods, cultivate Semen sojae atricolor sprout particularly to a kind of using biological nutrition substrate The method of dish.

Background technology

With the increase to bud seedling vegetable demand for the people, bud seedling vegetable production development is rapid, in order to improve the biology of bud seedling vegetable Yield and economic flow rate, are now usually used some growth regulators aborning or trace element solution is soaked seed or sprayed. Although a certain degree of regulation and control can be played using plant growth regulator or trace element solution in bud seedling vegetable cultivation The effects such as growth, enrichment mineral element, health care of enhancing bud seedling vegetable, rapid yet with growth, with short production cycle, these Measure also easily causes accumulation in bud seedling vegetable for the chemical substance, thus causing safety and health concerns.

Patent of invention 201410168716.2 discloses bud seedling vegetable numerous nutrition paper manufacture method soon, is mixed using rapeseed cake and EM Close fermentation culture and go out nutritious fermentation liquor, and adsorbed on hydrophilic nonwoven fabrics, make bud seedling vegetable numerous nutrition paper soon；Application No. 201320704046.2 utility model patent, be a kind of plant growing plate of similar corrugated board；Application No. 95107495.4 multi-effect agronomical nutrient paper film then makes multi-effect agronomical nutrient paper film using conventional paper process, is mainly used to take For mulch film；The patent of invention of the Nutritious paper bed for growing rice seedling of Application No. 02142369.5, is the segment process in a kind of utilization papermaking The paper base plate produced simultaneously is made added with compound nutrientss, with the addition of the waste materials such as antibacterial and N P and K；Application No. 201410838199.5 patent of invention then using warm nursery paper soaked in rutin solution post-drying formation nutrition paper for Improve the rutin content in bud seedling vegetable.These patents all by improving the cultivation of bud seedling vegetable to the process of nutrition paper.But do not have A provide plantation substrate and the implantation methods that specifically can improve its yield and nutritional quality for Semen sojae atricolor bud seedling vegetable.

Content of the invention

The present invention is directed to the deficiencies in the prior art it is proposed that a kind of Semen sojae atricolor bud seedling vegetable breeding method, and it is by big bean sprout The plantation technique of Seedling dish improves, so that the Semen sojae atricolor bud seedling vegetable nutritional quality of output is substantially improved.

To achieve these goals and other related purposes, this case provides a kind of Semen sojae atricolor bud seedling vegetable breeding method, its Comprise the following steps：

Step one, seed selection：Choose the organic soy seed of germination percentage ＞ 95%；

Step 2, seed soaking：Soybean seed after selected is eluriated 2～3 times with tap water, is then placed in filling 2～3 times of kinds Soak in the water of sub-volume, cleaned with tap water 2～3 times again after soaking well；

Step 3, the seed processing step 2 are put in the first nutritional solution, soak 18 under the conditions of 25.5～27 DEG C ～23h；

Step 4, the seed soaking through step 3 is uniformly spread in biological nutrition substrate, hide under the conditions of 25 DEG C Light constant temperature accelerating germination 1～2 day, accelerating germination rate reaches 80%；

Step 5, carry out unifying illumination cultivation to Semen sojae atricolor bud seedling vegetable in cultivation area, first carry out low light level illumination 0.5～1 day, light It is less than 70 luxs according to index, then illumination is carried out using high light, light index is 72～78 luxs, temperature control is in 25～30 DEG C, spray water 3～4 times daily, keep humidity to be more than 70%, cultivate 3～4 days, you can；

Wherein, described first nutritional solution is Rhizoma Zingiberis Recens extracting solution, Semen sojae atricolor bud seedling vegetable rhizome extracting solution and deionized water be with 1:1:5～ 1:1:10 mixed liquor.

Preferably, described Semen sojae atricolor bud seedling vegetable breeding method, wherein, the thickness of sowing of step 4 is 2.5～3.5kg/ ㎡.

Preferably, described Semen sojae atricolor bud seedling vegetable breeding method, wherein, carries out the illumination of step 5 using LED light source.

Preferably, described Semen sojae atricolor bud seedling vegetable breeding method, wherein, also adopts oxygen-rich treated in step 5.

Preferably, described Semen sojae atricolor bud seedling vegetable breeding method, wherein, the preparation method of described first nutritional solution is：Take Described new ginger is soaked in 5～10 days in deionized water, and the ratio of new ginger and deionized water is 10g：1mL～25g：2mL, prepared Rhizoma Zingiberis Recens Extracting solution；Wrapped with preservative film after Semen sojae atricolor bud seedling vegetable rhizome is cleaned, put into fridge freshness retaining layer 2～3 hours, take out, with squeezing the juice Machine is smashed, then with clean gauze, the Semen sojae atricolor bud seedling vegetable rhizome smashed is wrapped, and extrudes juice, obtains Semen sojae atricolor bud seedling vegetable rhizome and carry Take liquid；By described Rhizoma Zingiberis Recens extracting solution, Semen sojae atricolor bud seedling vegetable rhizome extracting solution, deionized water with 1:1:5～1:1:10 ratio mixing, obtains To described first nutritional solution.

Preferably, described Semen sojae atricolor bud seedling vegetable breeding method, wherein, the preparation method of described first nutritional solution is：Take New ginger is soaked in 7 days in deionized water, and the ratio of new ginger and deionized water is 12g：1mL, prepared Rhizoma Zingiberis Recens extracting solution；By Semen sojae atricolor sprout Dish rhizome is wrapped with preservative film after cleaning, and puts into fridge freshness retaining layer 2.5 hours, takes out, is smashed with juice extractor, then with clean yarn The Semen sojae atricolor bud seedling vegetable rhizome smashed wrapped by cloth, extrudes juice, obtains Semen sojae atricolor bud seedling vegetable rhizome extracting solution；Described Rhizoma Zingiberis Recens are extracted Liquid, Semen sojae atricolor bud seedling vegetable rhizome extracting solution, deionized water are with 1:1:7 ratio mixing, obtains described first nutritional solution.

Preferably, described Semen sojae atricolor bud seedling vegetable breeding method, wherein, described biological nutrition substrate includes following component (according to the mass fraction)：Sandy soil 60～75%, water-retaining agent 5～10%, water 20～30%.

Preferably, described Semen sojae atricolor bud seedling vegetable breeding method, wherein, to described biology in described step 4 and step 5 The second nutritional solution is sprayed on nutrient matrix surface, comprises microorganism formulation, nitrogen swashs than regulator and strain in described second nutritional solution Agent alive；Described microorganism formulation is one or more of EM probioticss, photosynthetic bacteria, enzymatic microorganism or 301 bacterium；Described nitrogen is than regulation Agent is carbamide；Described Stain activation agent is brown sugar.

Preferably, described Semen sojae atricolor bud seedling vegetable breeding method, wherein, the preparation technology of described second nutritional solution include with Lower step：

Step 1, with 200 kilograms of clean waters, brown sugar is diluted completely, then after microorganism formulation is mixed in mixing thoroughly in water Sealing culture 3～4 days；

Step 2, with 200 kilograms of clean waters, carbamide is diluted completely, then with water-retaining agent, nitrogen is absorbed than adjusting agent solution Solidification is got up；

Step 3, the mixing and stirring that carries out animal wastes, agricultural crop straw material and step 2 product, stir one The product of step one is sprayed on side, and the water content of mixed material is adjusted to 50～60%, wherein, animal wastes 20%, crops Straw material 79%, microorganism formulation 0.1%, carbamide 0.3%, brown sugar 0.4%, water-retaining agent 0.2%；

Step 4, windrow fermentation：Uniform mixed material compost will be mixed get up and covered with plastic film cloth tight, be detested Aerobe fermentation；

Pile-turning during step 5, pile fermentation：Temperature in windrow to be observed during pile fermentation, as material Nei Wenduda To after maintain 4～5 days when 60 DEG C, pile-turning to be carried out；Continuation fermentation is covered tightly with Polypropylence Sheet again after pile-turning；

Step 6, fermentation period：Summer pile fermentation 8～10 days, winter pile fermentation 15～20 days；

Step 7, take step 6 product, add clear water, solid-liquid mass ratio is：1:25～1:After 35 mixing, precipitation, take Clearly, obtain the second nutritional solution.

Preferably, described Semen sojae atricolor bud seedling vegetable breeding method, wherein, described step 4 and step 5 also need to every square Rice biological nutrition stromal surface sprays first nutritional solution of 1000～5000mL.

The present invention compared with prior art, possesses following beneficial effect：Using specifically pollution-free, ecosystem process Plantation Semen sojae atricolor bud seedling vegetable, thus improve yield and the quality of Semen sojae atricolor bud seedling vegetable.

Specific embodiment

Hereinafter embodiments of the present invention are illustrated by particular specific embodiment, those skilled in the art can be by this explanation Content disclosed by book understands other advantages and effect of the present invention easily.

Embodiment 1

A kind of Semen sojae atricolor bud seedling vegetable breeding method, it comprises the following steps：

Step one, seed selection：Choose the organic soy seed of germination percentage ＞ 95%；

Step 2, seed soaking：Soybean seed after selected is eluriated 2～3 times with tap water, is then placed in filling 2～3 times of kinds Soak in the water of sub-volume, cleaned with tap water 2～3 times again after soaking well；

Step 3, the seed processing step 2 are put in the first nutritional solution, soak 18 under the conditions of 25.5～27 DEG C ～23h；

Step 4, the seed soaking through step 3 is uniformly spread in biological nutrition substrate, thickness of sowing is 2.5～ 3.5kg/, shading constant temperature accelerating germination 1～2 day under the conditions of 25 DEG C, accelerating germination rate reaches 80%；

Step 5, carry out unifying illumination cultivation using LED light source to Semen sojae atricolor bud seedling vegetable in cultivation area, first carry out low light level illumination 0.5～1 day, light index was less than 70 luxs, then carries out illumination using high light, and light index is 72～78 luxs, temperature It is controlled in 25～30 DEG C, sprays water 3～4 times daily, keep humidity to be more than 70%, cultivate 3～4 days, you can；

Wherein, described first nutritional solution is Rhizoma Zingiberis Recens extracting solution, Semen sojae atricolor bud seedling vegetable rhizome extracting solution and deionized water be with 1:1:5 Mixed liquor.

Wherein, the preparation method of described first nutritional solution is：Take new ginger to be soaked in 5 days in deionized water, new ginger with go from The ratio of sub- water is 10g：1mL, prepared Rhizoma Zingiberis Recens extracting solution；Wrapped with preservative film after Semen sojae atricolor bud seedling vegetable rhizome is cleaned, put into refrigerator Fresh-keeping layer 2 hours, takes out, is smashed with juice extractor, then with clean gauze, the Semen sojae atricolor bud seedling vegetable rhizome smashed is wrapped, and extrudes juice Liquid, obtains Semen sojae atricolor bud seedling vegetable rhizome extracting solution；By described Rhizoma Zingiberis Recens extracting solution, Semen sojae atricolor bud seedling vegetable rhizome extracting solution, deionized water with 1: 1:5 ratio mixing, obtains described first nutritional solution.

Described biological nutrition substrate includes following component (according to the mass fraction)：Sandy soil 60%, water-retaining agent 10%, water 30%.

Embodiment 2

Operation is with embodiment 1.

The second nutritional solution, described second nutrition is sprayed to described biological nutrition stromal surface in described step 4 and step 5 Microorganism formulation, nitrogen is comprised than regulator and Stain activation agent in liquid；Described microorganism formulation is EM probioticss, photosynthetic bacteria, ferment One or more of plain bacterium or 301 bacterium；Described nitrogen is carbamide than regulator；Described Stain activation agent is brown sugar.

The preparation technology of described second nutritional solution comprises the following steps：

Step 1, with 200 kilograms of clean waters, brown sugar is diluted completely, then after microorganism formulation is mixed in mixing thoroughly in water Sealing culture 3～4 days；

Step 2, with 200 kilograms of clean waters, carbamide is diluted completely, then with water-retaining agent, nitrogen is absorbed than adjusting agent solution Solidification is got up；

Step 3, the mixing and stirring that carries out animal wastes, agricultural crop straw material and step 2 product, stir one The product of step one is sprayed on side, and the water content of mixed material is adjusted to 50～60%, wherein, animal wastes 20%, crops Straw material 79%, microorganism formulation 0.1%, carbamide 0.3%, brown sugar 0.4%, water-retaining agent 0.2%；

Step 4, windrow fermentation：Uniform mixed material compost will be mixed get up and covered with plastic film cloth tight, be detested Aerobe fermentation；

Pile-turning during step 5, pile fermentation：Temperature in windrow to be observed during pile fermentation, as material Nei Wenduda To after maintain 4～5 days when 60 DEG C, pile-turning to be carried out；Continuation fermentation is covered tightly with Polypropylence Sheet again after pile-turning；

Step 6, fermentation period：Summer pile fermentation 8～10 days, winter pile fermentation 15～20 days；

Step 7, take step 6 product, add clear water, solid-liquid mass ratio is：1:25～1:After 35 mixing, precipitation, take Clearly, obtain the second nutritional solution.

Also using oxygen-enriched, Semen sojae atricolor bud seedling vegetable is processed in step 5.

Embodiment 3

Operation is with embodiment 1.

Wherein, the preparation method of described first nutritional solution is：Take new ginger to be soaked in 10 days in deionized water, new ginger with go from The ratio of sub- water is 25g：2mL, prepared Rhizoma Zingiberis Recens extracting solution；Wrapped with preservative film after Semen sojae atricolor bud seedling vegetable rhizome is cleaned, put into refrigerator Fresh-keeping layer 3 hours, takes out, is smashed with juice extractor, then with clean gauze, the Semen sojae atricolor bud seedling vegetable rhizome smashed is wrapped, and extrudes juice Liquid, obtains Semen sojae atricolor bud seedling vegetable rhizome extracting solution；By described Rhizoma Zingiberis Recens extracting solution, Semen sojae atricolor bud seedling vegetable rhizome extracting solution, deionized water with 1: 1:10 ratio mixing, obtains described first nutritional solution.

Described biological nutrition substrate includes following component (according to the mass fraction)：Sandy soil 75%, water-retaining agent 5%, water 20%.

Embodiment 4

Operation is with embodiment 1.

Wherein, the preparation method of described first nutritional solution is：Take new ginger to be soaked in 7 days in deionized water, new ginger with go from The ratio of sub- water is 12g：1mL, prepared Rhizoma Zingiberis Recens extracting solution；Wrapped with preservative film after Semen sojae atricolor bud seedling vegetable rhizome is cleaned, put into refrigerator Fresh-keeping layer 2.5 hours, takes out, is smashed with juice extractor, then with clean gauze, the Semen sojae atricolor bud seedling vegetable rhizome smashed is wrapped, extrusion Juice, obtains Semen sojae atricolor bud seedling vegetable rhizome extracting solution；By described Rhizoma Zingiberis Recens extracting solution, Semen sojae atricolor bud seedling vegetable rhizome extracting solution, deionized water with 1:1:7 ratio mixing, obtains described first nutritional solution.

Described step 4 and step 5 also need to spray the of 1000～5000mL to every square metre of biological nutrition stromal surface One nutritional solution.

Comparative example 1

A kind of Semen sojae atricolor bud seedling vegetable breeding method, it comprises the following steps：

Step one, seed selection：Choose the organic soy seed of germination percentage ＞ 95%；

Step 2, seed soaking：Soybean seed after selected is eluriated 2～3 times with tap water, is then placed in filling 2～3 times of kinds Soak in the water of sub-volume, cleaned with tap water 2～3 times again after soaking well；

Step 3, the seed processing step 2 are put in clear water, soak 18～23h under the conditions of 25.5～27 DEG C；

Step 4, the seed soaking through step 3 is uniformly spread in sandy soil, thickness of sowing is 2.5～3.5kg/ , shading constant temperature accelerating germination 1～2 day under the conditions of 25 DEG C, accelerating germination rate reaches 80%；

Step 5, carry out unifying illumination cultivation using LED light source to Semen sojae atricolor bud seedling vegetable in cultivation area, first carry out low light level illumination 0.5～1 day, light index was less than 70 luxs, then carries out illumination using high light, and light index is 72～78 luxs, temperature It is controlled in 25～30 DEG C, sprays water 3～4 times daily, keep humidity to be more than 70%, cultivate 3～4 days, you can；

Table 1 above-described embodiment Semen sojae atricolor bud seedling vegetable results contrast

Measure vitamin C and adopt 2,6- Dichlorophenol indophenol titrimetry, content of cellulose measures method (Lee using Li Hesheng Symphysis, plant physiology and biochemistry experimental principle and technology [M]. Beijing：Higher Education Publishing House, 2000)

By above-mentioned table 1 data, the seed soaking through nutritional solution, the biological nutrition substrate sprayed are beneficial to big The growth of bean bud seedling vegetable.

Above-described embodiment only principle of the illustrative present invention and its effect, not for the restriction present invention.Any ripe The personage knowing this technology all can carry out modifications and changes without prejudice under the spirit and the scope of the present invention to above-described embodiment.Cause This, those of ordinary skill in the art is complete with institute under technological thought without departing from disclosed spirit such as All equivalent modifications becoming or change, must be covered by the claim of the present invention.

Claims (10)

1. a kind of Semen sojae atricolor bud seedling vegetable breeding method, it comprises the following steps：

Step one, seed selection：Choose the organic soy seed of germination percentage ＞ 95%；

Step 2, seed soaking：Soybean seed after selected is eluriated 2～3 times with tap water, is then placed in filling 2～3 times of seed bodies Soak in long-pending water, cleaned with tap water 2～3 times again after soaking well；

Step 3, the seed processing step 2 are put in the first nutritional solution, under the conditions of 25.5～27 DEG C soak 18～ 23h；

Step 4, the seed soaking through step 3 is uniformly spread in biological nutrition substrate, under the conditions of 25 DEG C, shading is permanent Warm accelerating germination 1～2 day, accelerating germination rate reaches 80%；

Step 5, carry out unifying illumination cultivation to Semen sojae atricolor bud seedling vegetable in cultivation area, first carry out low light level illumination 0.5～1 day, illumination refers to Number is less than 70 luxs, then carries out illumination using high light, and light index is 72～78 luxs, temperature control in 25～30 DEG C, Water spray 3～4 times daily, keep humidity to be more than 70%, cultivate 3～4 days, you can；

Wherein, described first nutritional solution is Rhizoma Zingiberis Recens extracting solution, Semen sojae atricolor bud seedling vegetable rhizome extracting solution and deionized water be with 1:1:5～1:1: 10 mixed liquor.

2. Semen sojae atricolor bud seedling vegetable breeding method according to claim 1 is it is characterised in that the thickness of sowing of step 4 is 2.5 ～3.5kg/.

3. Semen sojae atricolor bud seedling vegetable breeding method according to claim 1 is it is characterised in that carry out step 5 using LED light source Illumination.

4. Semen sojae atricolor bud seedling vegetable breeding method according to claim 1 is it is characterised in that also adopt oxygen-enriched place in step 5 Reason.

5. Semen sojae atricolor bud seedling vegetable breeding method according to claim 1 is it is characterised in that the preparation side of described first nutritional solution Method is：Described new ginger is taken to be soaked in 5～10 days in deionized water, the ratio of new ginger and deionized water is 10g：1mL～25g： 2mL, prepared Rhizoma Zingiberis Recens extracting solution；Wrapped with preservative film after Semen sojae atricolor bud seedling vegetable rhizome is cleaned, put into fridge freshness retaining layer 2～3 hours, take Go out, smashed with juice extractor, then with clean gauze, the Semen sojae atricolor bud seedling vegetable rhizome smashed is wrapped, extrude juice, obtain big bean sprout Seedling dish rhizome extracting solution；By described Rhizoma Zingiberis Recens extracting solution, Semen sojae atricolor bud seedling vegetable rhizome extracting solution, deionized water with 1:1:5～1:1:10 Ratio mixes, and obtains described first nutritional solution.

6. Semen sojae atricolor bud seedling vegetable breeding method according to claim 5 is it is characterised in that the preparation side of described first nutritional solution Method is：New ginger is taken to be soaked in 7 days in deionized water, the ratio of new ginger and deionized water is 12g：1mL, prepared Rhizoma Zingiberis Recens extracting solution；Will Semen sojae atricolor bud seedling vegetable rhizome is wrapped with preservative film after cleaning, and puts into fridge freshness retaining layer 2.5 hours, takes out, is smashed with juice extractor, then use The Semen sojae atricolor bud seedling vegetable rhizome smashed wrapped by clean gauze, extrudes juice, obtains Semen sojae atricolor bud seedling vegetable rhizome extracting solution；Will be described Rhizoma Zingiberis Recens extracting solution, Semen sojae atricolor bud seedling vegetable rhizome extracting solution, deionized water are with 1:1:7 ratio mixing, obtains described first nutritional solution.

7. Semen sojae atricolor bud seedling vegetable breeding method according to claim 1 it is characterised in that described biological nutrition substrate include with Lower composition (according to the mass fraction)：Sandy soil 60～75%, water-retaining agent 5～10%, water 20～30%.

8. Semen sojae atricolor bud seedling vegetable breeding method according to claim 7 it is characterised in that in described step 4 and step 5 to Described biological nutrition stromal surface sprays the second nutritional solution, comprises microorganism formulation, nitrogen compares regulator in described second nutritional solution And Stain activation agent；Described microorganism formulation is one or more of EM probioticss, photosynthetic bacteria, enzymatic microorganism or 301 bacterium；Described Nitrogen is carbamide than regulator；Described Stain activation agent is brown sugar.

9. Semen sojae atricolor bud seedling vegetable breeding method according to claim 8 is it is characterised in that the preparation work of described second nutritional solution Skill comprises the following steps：

Step 1, with 200 kilograms of clean waters, brown sugar is diluted completely, then microorganism formulation is mixed in mix thoroughly in water after sealing Culture 3～4 days；

Step 2, with 200 kilograms of clean waters, carbamide is diluted completely, then with water-retaining agent, nitrogen is absorbed solidification than adjusting agent solution Get up；

Step 3, animal wastes, agricultural crop straw material and step 2 product are carried out mixing and stirring, stir and spray Spill the product of step one, the water content of mixed material is adjusted to 50～60%, wherein, animal wastes 20%, agricultural crop straw Material 79%, microorganism formulation 0.1%, carbamide 0.3%, brown sugar 0.4%, water-retaining agent 0.2%；

Step 4, windrow fermentation：Uniform mixed material compost will be mixed get up and covered with plastic film cloth tight, and carry out anaerobism and send out Ferment；

Pile-turning during step 5, pile fermentation：Temperature in windrow to be observed during pile fermentation, when in material, temperature reaches 60 DEG C when maintain 4～5 days after, pile-turning to be carried out；Continuation fermentation is covered tightly with Polypropylence Sheet again after pile-turning；

Step 6, fermentation period：Summer pile fermentation 8～10 days, winter pile fermentation 15～20 days；

Step 7, take step 6 product, add clear water, solid-liquid mass ratio is：1:25～1:After 35 mixing, precipitation, take supernatant, obtain To the second nutritional solution.

10. Semen sojae atricolor bud seedling vegetable breeding method according to claim 7 it is characterised in that described step 4 and step 5 also First nutritional solution of 1000～5000mL need to be sprayed to every square metre of biological nutrition stromal surface.