CN202890015U - Paris polyphylla seedling rapid breeding device by using natural energy - Google Patents

Abstract

The utility model relates to a paris polyphylla seedling rapid breeding device by using natural energy and belongs to the technical field of plant breeding. First rapid germination treatment is conducted to paris polyphylla seeds, after germination of the paris polyphylla seeds, the paris polyphylla seeds enters a environmental cabinet and a first-level light assisting strong seedling stage breeding treatment of a room temperature environment is conducted. During the period from the light assisting strong seedling stage breeding treatment to first-year damping off, a second-level light assisting strong seedling stage breeding treatment of an analog outdoor environment is conducted in the environmental cabinet. The paris polyphylla seedling rapid breeding device by using natural energy is based on the plant growth microenvironment control technology and combined with sugar-free cultivating micropropagation technology. On the premise of providing suitable environmental factors, such as light, temperature, humidity, carbon dioxide, nutrient elements, the problems that germination period of paris polyphylla seeds is long, seedling growth is weak, the rate of survival of plant transplanting is low and the period of growing into a seedling is long.

Description

Utilize the Paris polyphylla seedling quickly breeding device of natural energy

Technical field

The utility model relates to a kind of device of planting technical field, specifically a kind of Paris polyphylla seedling quickly breeding device that utilizes natural energy.

Background technology

Paris polyphylla (PARIDISRHIZOMA) is the dry rhizome of liliaceous plant Yunnan Rhizoma Paridis Parispolyphylla Smith var.yunnanensis (Franch.) Hand.-Mazz. or paris polyphylla Paris polyphylla Smith var.chinesesis (Franch) Hara.Paris polyphylla is the important source material in Yunnan Baiyao and the drug matching.The demand because long-term basic dependence wild resource is maintained market, the natural resources of Paris polyphylla is extremely rare, and market demand is but increasing year by year.But the Paris polyphylla seed nature sprouting cycle is long, germination rate is low, and the seed germination seedling needs 2-3, and root growth is slow, and being used as medicine from emerging to gathering needs the 4-6 year, and this biological property is restricting again the development of artificial planting.

At present the Paris polyphylla main method of growing seedlings mainly contains that the rhizome segment is grown seedlings and two kinds of methods of seed seedling-raising.Nursery stage is short although the rhizome segment is grown seedlings, and the seedling cost is higher, and appreciation rate is low; In the Paris polyphylla seed seedling-raising, because the physiological property of Paris polyphylla seed embryo after-ripening, although appreciation rate is high, cultivation period is long, poor growth.Be called nursery stage to the stage that enters before the field planting after seed sprouts, be subject to the biological property of Paris polyphylla, the seedling early growth that sprouts is very slow, and generally cultivating becomes the production that rhizome weight 8-10 restrains and need 3-4 with seedling.

Find through the retrieval to prior art: Chinese patent literature CN101248727, open day 20080827, put down in writing a kind of " method of artificial three-segment cultivating Paris Chinensis ", this technology comprises one-level kind seedling, secondary kind seedling, the cultivation of commodity Paris polyphylla and field management three parts, but this technology was cultivated the one-level seedling weight of reaching through 3 years and is only reached " rhizome weight 2 grams ", and need to be through the one-level seedling, two stages of secondary kind seedling are reached the cultivation of producing with seedling, the one-level seedling of this technology simultaneously, each needs 3 year nurturing period the secondary seedling, finishing the required time of growing seedlings is 6 years, and the time is longer.

Chinese patent literature CN101461327, open day 20090624, put down in writing a kind of " method of Yunnan Paris polyphylla fast breeding technique and hardening, plantation ", this technology comprises screening high-quality individual plant system, sterilization, group training: hardening is to concern that group training seed plants the key of survival rate height, utilize trace element to carry out Yunnan Paris polyphylla hardening, make the hardening survival rate reach 80%, reach 80% thereby guarantee to plant survival rate; Hardening is after placing first the medium that adds vitamin and plant hormone to cultivate the regeneration seedling, to add trace element again and cultivate again transplanting; Implantation methods is to pass through the seedling replanting of hardening in the prescription soil incubation bag of sterilization, when treating that the terminal bud that newly grows grows up to blade, can transplant the field and carry out pest control, but this technology is the Plant Tissue Breeding mode seedling of Paris polyphylla, for vegetative propagation mode and growth coefficient be 5-6 doubly, can cultivate 3 batches of group training seedlings in 1 year, plant such as flameray gerbera (growth coefficient 14 with respect to common group training seedling, cultivation cycle 30 days) culture efficiency is much lower, therefore, actual number of seedling amount depends on the collection quantity of explant, and the collection of explant, detoxification but is that a success rate is low, the work that labour intensity is large, experienced operator's every day, accessible explant sample was no more than 100 parts usually, and such as need large-scale production, large batch of explant raw material become again the restrictive factor that seedling is produced.Even above-mentioned restraining factors do not exist, and the explant that collects is sterilized successfully available fully, and each workman is annual to be calculated by 300 days duty cycles, and the Paris polyphylla seedling that can form is no more than 90,000 strains, by the described hardening survival rate 80% of this technology, the gained seedling is no more than 7.2 ten thousand strains.If count explant detoxification loss 50%, then seedling output is no more than 3.6 ten thousand strains for each person every year.

In sum, present stage is badly in need of a kind of practicable, Paris polyphylla seedling technique for quickly cultivating cheaply.

The utility model content

The utility model is for the prior art above shortcomings, a kind of Paris polyphylla seedling quickly breeding device that utilizes natural energy is provided, take plant growth micro environment control technology as the basis, cultivate the micro-propagation technique means in conjunction with sugar-free, provide for the Paris polyphylla seed at nursery stage under the prerequisite of the envirment factors such as suitable illumination, temperature, humidity, carbonic acid gas, nutritive element, overcome long, the problem such as seedling development is fragile, and the survival rate of plantlet of transplant is low, the seedling cycle is long of Paris polyphylla seed germination cycle.

The utility model relates to a kind of Paris polyphylla seedling quickly breeding device that utilizes natural energy, comprise: the natural energy dynamical system, the automatic monitoring control system, nutrient solution atomizing spraying system, electric field generation device, fixing device and spherical adjustable LED lamp system, wherein: natural energy dynamical system output electric energy is to the automatic monitoring control system, the test side of automatic monitoring control system be arranged in the growth room and power output end respectively with nutrient solution atomizing spraying system, electric field generation device links to each other with spherical adjustable LED lamp system, fixing device is fixedly installed on center in the growth room, and light screening material is arranged at the outside, growth room.

Described natural energy dynamical system comprises: rectifier, stepup transformer, inverter, controller and the accumulator of wind blade, solar panel and successively series connection, wherein: the output of wind blade and solar panel links to each other with the input of rectifier respectively, the control end of rectifier and inverter links to each other with controller, the output of inverter links to each other with accumulator, accumulator output end and inverter join, the output of inverter and automatic monitoring control system are joined, according to providing AC power or direct-current power supply for the automatic monitoring control system.The power supply that is provided by inverter is to the automatic monitoring control system.

Described automatic monitoring control system comprises: be arranged in the growth room temperature monitor as the test side, the humidity detection instrument, the gas concentration lwevel monitor, illuminance monitor and be attached thereto the central controller that connects, wherein: the power input of central controller links to each other with the natural energy dynamical system, growth room's internal temperature information that central controller collects according to the test side, humidity information, the corresponding output control instruction of gas concentration lwevel information and illumination information is to nutrient solution atomizing spraying system, electric field generation device and spherical adjustable LED lamp system.

Described electric field generation device comprises: gauze and electrode generator, wherein: gauze is arranged at the fixing device outside and links to each other with the electrode generator, the both positive and negative polarity output of electrode generator joins with double layer of metal silk screen as top crown and bottom crown respectively, the voltage-regulation control end of electrode generator links to each other with the output of automatic monitoring control system, the power supply of electrode generator is supplied with dc source by the automatic monitoring control system, the electrode generator can be regulated voltage at the both positive and negative polarity output, adjustable range is :+10V/m～+ 100000V/m.

Described fixing device is the panel of inverted v-shaped structure, gather on this fixing device and be used for field planting interface and the L font passage of plant cultivating, wherein: the field planting interface is vertically to arrange, and the two ends of penetration type L font passage link to each other with the inboard of field planting interface and panel respectively.

Described spherical adjustable LED lamp system is arranged at the top of growth room and links to each other with the automatic monitoring control system, this spherical adjustable LED lamp system is the circular spherical body structure of the upper LED lamp that gathers in surface, the LED lamp adopts redness, blue, three kinds of lamp sources of daylight, and according to the required redness of Paris polyphylla seedling early growth, blueness, daylight source ratio, the control instruction by the automatic monitoring control system realizes the lamp source quantity of opening and photochromic adjusting.

The utility model relates to the optimization breeding method of said system, may further comprise the steps:

Step 1, seed quick-speed germination are processed: sprout under isoperibol after pretreated peeling Paris polyphylla seed is mixed with the grains of sand, need electric field environment to cooperate in the germination process.

Described preliminary treatment refers to: the Paris polyphylla seed that will gather shells to be placed in the clear water to soak and was separated into kind of a skin, pulp and seed by washing by rubbing with the hands in 8-12 hour, leaves standstill suspend kind of skin and pulp fraction of the upper strata of inclining and namely obtains to remove the peel the Paris polyphylla seed.

The described grains of sand refer to: medium sand for building, modulus of fineness are 3.0-2.3, and average grain diameter is 0.5-0.35mm, and its consumption is peeling Paris polyphylla seed and fine sand in mass ratio 1: 4-1: 5.

Described mixing refers to: cover 4-6cm constant temperature storage layer at Paris polyphylla seed top after will removing the peel Paris polyphylla seed and fine sand and poach, it is rear without water droplet for holding with a firm grip to add the water degree.

Sprout under the described isoperibol and refer to: in fixing device, realize storing 60-90 days under the 20-22 ℃ of environment by the control of automatic monitoring control system.

Described electric field environment refers to: realize that by gauze positive space electric-field intensity is 0～100000V/m, under electric field action, intraseminal free-radical contents is increased, thereby make the increase of biomembranous property, the increased activity of enzyme, advance face and make seed sprout ahead of time, grow and accelerate, and cause the raising of later stage yield and quality.

Step 2, enter in fixing device behind the Paris polyphylla seed germination, the collaborative phase in strong sprout of one-level illumination combination, carbonic acid gas of carrying out room temperature environment by the control of automatic monitoring control system cultivates and processes;

Described room temperature environment refers to: humidity is 65-95% under the 20-25 ℃ of environment;

Described environmental control room nutrition supply is the n-p-k element ratio by N: P: K=1: 1: 1.

The described collaborative phase in strong sprout cultivates to process and refers to: cooperate to add gas concentration lwevel 800-1000ppm associated treatment under one-level illumination combination condition, cultivation period is 60 days.

Described illumination refers to: total light intensity 1000-1200Lux, and the combination irradiation of the daylight of 8 hours/day photophases, LED ruddiness and LED blue light is to satisfy the Paris polyphylla seedling in the illumination demand of the light saturation point of phase in strong sprout;

Described combination irradiation refers to: each several part light intensity ratio is daylight: LED ruddiness: LED blue light=1: 5: 4, the Lux of unit;

Step 3, the collaborative phase in strong sprout of illumination, carbonic acid gas cultivate fall seedling to First Year after processing before, in the automatic monitoring control system, simulate the secondary light of outdoor environment by illuminance monitor and the control of gas concentration lwevel monitor data proportioning and process according to combination, the collaborative fast culture of carbonic acid gas;

Described simulation outdoor environment refers to: humidity is 40-90% under the 10-30 ℃ of environment;

Described environmental control room nutrition supply is the n-p-k element ratio by N: P: K=3: 2: 2.

Described collaborative fast culture is processed and referred to: add gas concentration lwevel 1300-1500 associated treatment in secondary light according to cooperating under the combination condition, cultivation cycle is 10-16 month.

Described secondary light refers to according to auxiliary: total light intensity 1800-2000Lux, and the combination irradiation of the daylight of 10 hours/day photophases, LED ruddiness and LED blue light is to satisfy the Paris polyphylla seedling in the illumination demand of the light compensation point of phase in strong sprout;

Described combination irradiation refers to: each several part light intensity ratio is daylight: LED ruddiness: LED blue light=1: 4: 5, the Lux of unit;

The wavelength of above-mentioned LED ruddiness is 640-660nm, and the wavelength of LED blue light is 430-450nm.

The utility model is by the adjusting of temperature, humidity, culture matrix, make the Paris polyphylla seed finish the embryo after-ripening process and fast-germination sprouts, the rational allocation by envirment factors such as illumination, temperature, humidity, environment gas concentration lwevel, nutritive element supplies again, improve the survival rate of Paris polyphylla seedling fostering phase, shorten the Paris polyphylla seedling seedling cycle.

The utility model has obvious improvement than prior art, the utility model uses spherical adjustable LED lamp system to cooperate to fall " V " shape fixing device to use first, can simulating round the clock, light intensity changes, can adapt to " happiness is cloudy " plant cultivation, while using electric field generating means simulating nature circle field effect, thereby but Effective Raise plant natural environment adaptive faculty and survival rate.In addition, owing to adopted " V " shape fixing device, avoided plant generation " root waterlogging " situation, made the plant root have good water penetration, overcome culture medium ponding in the plant cultivating process, hardened and the mashed root and the damage by disease and insect problem that cause.

In addition, the utility model by improving presprouting of seeds temperature, nutritive element proportioning, artificial light source application and cultivate in carbonic acid gas as operational meanss such as auxiliary carbon sources, the sexual propagation mode that realization is carried out seed was cultivated once-seedling forming in 12-18 month, and the rhizome fresh weight can reach the 8-10 gram.

Simultaneously, the utility model has been simplified the step that the Paris polyphylla Seed inducement is sprouted, Paris polyphylla seed germination rate and survival rate have been improved, greatly shortened the Paris polyphylla seedling production cycle, reduced the seedling production cost, for the regeneration of Yunnan Paris polyphylla resource, guarantee the Paris polyphylla traditional Chinese medicine market supply, satisfy pharmacy corporation to the Paris polyphylla raw materials requirement, realize that regeneration and the sustainable utilization of resource provide effective method.

Description of drawings

Fig. 1 is the utility model structural representation;

Fig. 2 is the fixing device schematic diagram;

Among the figure: (a) be end view; (b) be cutaway view; (c) be stereogram;

Fig. 3 is that embodiment uses schematic diagram;

Fig. 4 is the local enlarged diagram of Fig. 3;

Fig. 5 is electrode generator schematic diagram;

Among the figure: natural energy dynamical system 1, automatic monitoring control system 2, nutrient solution atomizing spraying system 3, electric field generation device 4, fixing device 5, spherical adjustable LED lamp system 6, growth room 7, light screening material 8, wind blade 9, solar panel 10, rectifier 11, stepup transformer 12, inverter 13, controller 14, accumulator 15, central controller 16, temperature monitor 17a, humidity detection instrument 17b, gas concentration lwevel monitor 17c, illuminance monitor 17d, gauze 18, electrode generator 19, field planting interface 20, L font passage 21, top crown a and bottom crown b.

Embodiment

The below elaborates to embodiment of the present utility model; present embodiment is implemented under take technical solutions of the utility model as prerequisite; provided detailed embodiment and concrete operating process, but protection domain of the present utility model is not limited to following embodiment.

As shown in Figure 1, the Paris polyphylla seedling quickly breeding device that utilizes natural energy that adopts for present embodiment, comprise: natural energy dynamical system 1, automatic monitoring control system 2, nutrient solution atomizing spraying system 3, electric field generation device 4, fixing device 5 and spherical adjustable LED lamp system 6, wherein: natural energy dynamical system 1 output electric energy is to automatic monitoring control system 2, the test side of automatic monitoring control system 2 be arranged in the growth room 7 and power output end respectively with nutrient solution atomizing spraying system 3, electric field generation device 4 links to each other with spherical adjustable LED lamp system 6, fixing device 5 is fixedly installed on 7 interior centers, growth room, and light screening material 8 is arranged at 7 outsides, growth room.

Because the growing environment of Paris polyphylla is about 500～3000 meters of height above sea level, the Yunnan Paris polyphylla generally in the middle regions of the Yunnan Province, the eastern regions of the Yunnan Province and Northeast Yunnan, China, the western regions of the Yunnan Province and Northwest Yunnan be comparatively suitable, have inconvenient traffic, be the remote sylvan life growth in region.And present embodiment main energy sources in running is electric energy, therefore the natural energy dynamical system 1 of this device (comprises wind energy and solar energy) take natural energy as power and produces electric energy, described natural energy dynamical system 1 comprises: wind blade 9, solar panel 10 and the rectifier 11 of connecting successively, stepup transformer 12, inverter 13, controller 14 and accumulator 15, wherein: the output of wind blade 9 and solar panel 10 links to each other with the input of rectifier 11 respectively, the control end of rectifier 11 and inverter 13 links to each other with controller 14, the output of inverter 13 links to each other with accumulator 15, accumulator 15 output DC sources are to automatic monitoring control system 2, and the rotating speed test side of wind blade 9 links to each other with controller 14.This system regularly detects the rotating speed of wind blade 9 by controller 14, when wind speed 1.5～2m/s, generate electricity by starting rectifier 11 switching overs to wind blade 9, when wind speed exceed or during less than aforementioned range then with solar panel 10 as the electric energy acquisition system, will be in the daytime electrical power storage in accumulator 15, advantages such as having reduced investment, save the energy, environmental protection, service time are long; The more important thing is owing to simple to operate, the convenient management of present embodiment, so present embodiment is fit to the dispersion area uses such as Paris polyphylla plantation family, vast mountain area, Yunnan.

Described automatic monitoring control system 2 comprises: be arranged at the 7 interior temperature monitor 17a as the test side of growth room, humidity detection instrument 17b, gas concentration lwevel monitor 17c, illuminance monitor 17d and be attached thereto the central controller 16 that connects, wherein: the power input of central controller 16 links to each other with natural energy dynamical system 1, growth room's 7 internal temperature information that central controller 16 collects according to the test side, humidity information, the corresponding output control instruction of gas concentration lwevel information and illumination information is to nutrient solution atomizing spraying system 3, electric field generation device 4 and spherical adjustable LED lamp system 6.

Described electric field generation device 4 comprises: gauze 18 and electrode generator 19, wherein: gauze 18 is arranged at fixing device 5 outsides and links to each other with electrode generator 19, the both positive and negative polarity output of electrode generator 19 joins with double layer of metal silk screen as top crown a and bottom crown b respectively, the voltage-regulation control end of electrode generator 19 links to each other with the output of automatic monitoring control system 2, and the power supply of electrode generator 19 is by automatic monitoring control system 2 supply powers.

As shown in Figure 5, described electrode generator 19 comprises: regulating circuit, console and rectification circuit, filter circuit, multi-resonant circuit, high frequency transformer, voltage doubling rectifing circuit and the high voltage source (output) that connects of being connected, wherein: regulating circuit links to each other with the control end of multi-resonant circuit and voltage doubling rectifing circuit respectively and exports the boosting rectifier control instruction, console is connected between high voltage source and the top crown a and with the output of automatic monitoring control system 2 and links to each other, and the input of rectification circuit links to each other with automatic monitoring control system 2.

Produce forward space electric field by electric field generation device 4, can effectively accelerate plant to absorption and the conversion of carbonic acid gas, improve the photosynthetic efficiency of Paris polyphylla seedling, facilitation is played in the growth of Paris polyphylla seedling.Simultaneously, the forward space electric field that using electric field generating means 4 is produced combines with the gas concentration lwevel of capacity, can significantly improve the growth rate of Paris polyphylla seedling.Proportion relation between electric field and the gas concentration lwevel is realized by automatic monitoring control system 2.

Gas concentration lwevel in the Paris polyphylla seedling fostering process and electric-field intensity proportion relation

Because the voltage-regulation control end of electrode generator 19 links to each other with the output of automatic monitoring control system 2, when the gas concentration lwevel monitor 17c of automatic monitoring control system 2 according to gas concentration lwevel data feedback information, voltage to electrode generator 19 is regulated, to realize the variation of forward space electric-field intensity.

Described light screening material 8 adopts opaque material light, hard to make, and forms and external environment relative close type space structure, so that each system unit implementation environment factor control manipulation.

Described fixing device 5 is the panel of inverted v-shaped structure, gather on this fixing device 5 and be used for field planting interface 20 and the L font passage 21 of plant cultivating, wherein: field planting interface 20 is vertically to arrange, and the two ends of penetration type L font passage 21 link to each other with the inboard of field planting interface 20 and panel respectively.

Be equipped with the peat of pH6.0-7.0 in the described field planting interface 20 or in following ratio, peat: vermiculite: the mixed culture medium of perlite=2: 1: 1.By with in the L font passage 21 of Paris polyphylla planting seedlings on panel, can keep Paris polyphylla seedling root to have good water penetration, the mashed root and the damage by disease and insect problem that overcome in the Paris polyphylla seedling tradition planting process owing to the easy ponding of soil, harden and cause.

Because Paris polyphylla is perennial shallow root crop, poor growth, root system is few but longer, and root growth is avoided ponding.Described nutrient solution atomizing spraying system 3 is arranged at the panel inside bottom of fixing device 5 and links to each other with automatic monitoring control system 2, according to the Real-time Monitoring Data that the humidity detection instrument provides, the Paris polyphylla root is implemented the nutrient solution atomizing spray.When the humidity detection instrument detected root humidity and is lower than 95%, automatic monitoring control system 2 can start 3 pairs of Paris polyphylla roots of nutrient solution atomizing spraying systems and implement the nutrient solution atomizing and spray; Nutrient solution atomizing injecting time depends on the humidity feedback data of humidity detection instrument, when the humidity detection instrument detected root humidity and reaches 100%, the nutrient solution atomizing that automatic monitoring control system 2 can stop 3 pairs of Paris polyphylla roots of nutrient solution atomizing spraying system sprayed.This system can be the Paris polyphylla seedling early growth the most suitable root humidity environment is provided, and this is the key factor that determines that can the Paris polyphylla seedling normal growth.

Described spherical adjustable LED lamp system 6 is arranged at the top of growth room 7 and links to each other with automatic monitoring control system 2, this spherical adjustable LED lamp system 6 is the circular spherical body structure of the upper LED lamp that gathers in surface, the LED lamp adopts redness, blue, three kinds of lamp sources of daylight, and according to the required redness of Paris polyphylla seedling early growth, blueness, daylight source ratio, the control instruction by automatic monitoring control system 2 realizes the lamp source quantity of opening and photochromic adjusting.

This device is realized Paris polyphylla optimization cultivation in the following manner:

The first step, seed quick-speed germination

Embodiment 1.1

1) seed peeling: get 10 kilograms in band shell Paris polyphylla seed, shell, contain in the 50L container and add 3 times of water soakings 10 hours, manually wash by rubbing with the hands, red kind skin, pulp are separated with seed, then mixed liquor is left standstill 15 minutes, the upper strata of inclining suspend kind of skin and pulp fraction are deposited in the white of container bottom or faint yellow seed and dry in the shade under cleaning room temperature 15-20 ℃.

2) vernalization: 1 kilogram in the seed that getting dries in the shade obtains and 4 kilograms of fine sands are mixed thoroughly, add water to the rear degree without water droplet of holding with a firm grip, insert in the plant micro environment control chamber, adjust 4 ℃ of 30d-20 ℃ of 30d of temperature control and replace the lamination processing, not yet began in 105 days to sprout, bud ratio bud ratio 78.2% in the time of 63.7%, 135 day in the time of 120 days.

Embodiment 1.2

1) seed peeling: get 10 kilograms in band shell Paris polyphylla seed, shell, contain in the 50L container and add 3 times of water soakings 10 hours, manually wash by rubbing with the hands, red kind skin, pulp are separated with seed, then mixed liquor is left standstill 15 minutes, the upper strata of inclining suspend kind of skin and pulp fraction are deposited in the white of container bottom or faint yellow seed and dry in the shade under cleaning room temperature 15-20 ℃.

2) vernalization: 1 kilogram in the seed that getting dries in the shade obtains and 4 kilograms of fine sands are mixed thoroughly, add water to the rear degree without water droplet of holding with a firm grip, insert in the plant micro environment control chamber, adjust 9-12 ℃ of insulation storage of temperature control, 45 days not yet begin to sprout, bud ratio 11.4% in the time of 60 days, bud ratio bud ratio bud ratio 50.3% in the time of 48.6%, 105 day in the time of 35.1%, 90 day in the time of 75 days, bud ratio bud ratio 50.8% in the time of 50.7%, 135 day in the time of 120 days.

Embodiment 1.3

1) seed peeling: get 10 kilograms in band shell Paris polyphylla seed, shell, contain in the 50L container and add 3 times of water soakings 10 hours, manually wash by rubbing with the hands, red kind skin, pulp are separated with seed, then mixed liquor is left standstill 15 minutes, the upper strata of inclining suspend kind of skin and pulp fraction are deposited in the white of container bottom or faint yellow seed and dry in the shade under cleaning room temperature 15-20 ℃.

2) vernalization: 1 kilogram in the seed that getting dries in the shade obtains and 4 kilograms of fine sands are mixed thoroughly, add water to the rear degree without water droplet of holding with a firm grip, insert in the plant micro environment control chamber, adjust 15-18 ℃ of insulation storage of temperature control, 45 days not yet begin to sprout, bud ratio 33.7% in the time of 60 days, bud ratio bud ratio bud ratio 74.6% in the time of 72.1%, 105 day in the time of 62.5%, 90 day in the time of 75 days, bud ratio bud ratio 76.4% in the time of 76.3%, 135 day in the time of 120 days.

Embodiment 1.4

1) seed peeling: get 10 kilograms in band shell Paris polyphylla seed, shell, contain in the 50L container and add 3 times of water soakings 10 hours, manually wash by rubbing with the hands, red kind skin, pulp are separated with seed, then mixed liquor is left standstill 15 minutes, the upper strata of inclining suspend kind of skin and pulp fraction are deposited in the white of container bottom or faint yellow seed and dry in the shade under cleaning room temperature 15-20 ℃.

2) vernalization: 1 kilogram in the seed that getting dries in the shade obtains and 4 kilograms of fine sands are mixed thoroughly, add water to the rear degree without water droplet of holding with a firm grip, insert in the plant micro environment control chamber, adjust 25-27 ℃ of insulation storage of temperature control, 45 days not yet begin to sprout, bud ratio 13.8% in the time of 60 days, bud ratio bud ratio bud ratio 55.4% in the time of 53.2%, 105 day in the time of 39.6%, 90 day in the time of 75 days, bud ratio bud ratio 57.7% in the time of 57.1%, 135 day in the time of 120 days.

Second step, Paris polyphylla seedling phase in strong sprout cultivate

Embodiment 2.1

The seed that sprouts is transplanted and is entered the phytotron seedbed, and by spacing 2cm dense planting, light quality is fluorescent lamp, light intensity 1000Lux, photoperiod 8h, gas concentration lwevel 850ppm, 20 ℃ of temperature, relative moisture 70-90%, the nutritive element nitrogen phosphoris and potassium fertilizer ratio is pressed N: P: K=1: 1: 1, culture period 50d, plant height 3.7cm, leaf area 1.21cm2, complete stool gross dry weight 0.023g, survival rate 83.5%.

Embodiment 2.2

The seed that sprouts is transplanted and is entered the phytotron seedbed, and by spacing 2cm dense planting, light quality is red-light LED, light intensity 1000Lux, photoperiod 8h, gas concentration lwevel 850ppm, 20 ℃ of temperature, relative moisture 70-90%, the nutritive element nitrogen phosphoris and potassium fertilizer ratio is pressed N: P: K=1: 1: 1, culture period 50d, plant height 3.2cm, leaf area 1.18cm2, complete stool gross dry weight 0.022g, survival rate 78.1%.

Embodiment 2.3

The seed that sprouts is transplanted and is entered the phytotron seedbed, and by spacing 2cm dense planting, light quality is blue-ray LED, light intensity 1000Lux, photoperiod 8h, gas concentration lwevel 850ppm, 20 ℃ of temperature, relative moisture 70-90%, the nutritive element nitrogen phosphoris and potassium fertilizer ratio is pressed N: P: K=1: 1: 1, culture period 50d, plant height 2.6cm, leaf area 1.12cm2, complete stool gross dry weight 0.018g, survival rate 62.3%.

Embodiment 2.4

The seed that sprouts is transplanted and is entered the phytotron seedbed, and by spacing 2cm dense planting, light quality is daylight: LED ruddiness: LED blue light=1: 1: 1, light intensity 1000Lux, photoperiod 8h, gas concentration lwevel 850ppm, 20 ℃ of temperature, relative moisture 70-90%, the nutritive element nitrogen phosphoris and potassium fertilizer ratio is pressed N: P: K=1: 1: 1, culture period 50d, plant height 4.5cm, leaf area 1.41cm2, complete stool gross dry weight 0.029g, survival rate 84.2%.

Embodiment 2.5

The seed that sprouts is transplanted and is entered the phytotron seedbed, and by spacing 2cm dense planting, light quality is daylight: LED ruddiness: LED blue light=2: 9: 9, light intensity 1000Lux, photoperiod 8h, gas concentration lwevel 850ppm, 20 ℃ of temperature, relative moisture 70-90%, the nutritive element nitrogen phosphoris and potassium fertilizer ratio is pressed N: P: K=1: 1: 1, culture period 50d, plant height 6.8cm, leaf area 1.85cm2, complete stool gross dry weight 0.035g, survival rate 93.8%.

Embodiment 2.6

The seed that sprouts is transplanted and is entered the phytotron seedbed, and by spacing 2cm dense planting, light quality is daylight: LED ruddiness: LED blue light=8: 1: 1, light intensity 1000Lux, photoperiod 8h, gas concentration lwevel 850ppm, 20 ℃ of temperature, relative moisture 70-90%, the nutritive element nitrogen phosphoris and potassium fertilizer ratio is pressed N: P: K=1: 1: 1, culture period 50d, plant height 3.8cm, leaf area 1.19cm2, complete stool gross dry weight 0.025g, survival rate 83.3%.

The 3rd step, Paris polyphylla seedling fast culture phase cultivate

Embodiment 3.1

Plant height through the phase in strong sprout is that 2.6cm, leaf area are that 1.12cm2, complete stool gross dry weight are the Paris polyphylla seedling continuation cultivation of 0.018g, light quality is fluorescent lamp, light intensity 2500Lux, photoperiod 8h, gas concentration lwevel 2500ppm, 20 ℃ of temperature, relative moisture 70-90%, the nutritive element nitrogen phosphoris and potassium fertilizer ratio is pressed N: P: K=3: 2: 2, culture period 300d, Paris polyphylla root fresh weight 2.23g, survival rate 94.5%.

Embodiment 3.2

Plant height through the phase in strong sprout is that 6.8cm, leaf area are that 1.85cm2, complete stool gross dry weight are the Paris polyphylla seedling continuation cultivation of 0.035g, light quality is fluorescent lamp, light intensity 2000Lux, photoperiod 8h, gas concentration lwevel 1500ppm, 20 ℃ of temperature, relative moisture 70-90%, the nutritive element nitrogen phosphoris and potassium fertilizer ratio is pressed N: P: K=3: 2: 2, culture period 300d, Paris polyphylla root fresh weight 2.53g, survival rate 95.5%.

Embodiment 3.3

Plant height through the phase in strong sprout is that 6.8cm, leaf area are that 1.85cm2, complete stool gross dry weight are the Paris polyphylla seedling continuation cultivation of 0.035g, light quality is fluorescent lamp, light intensity 2500Lux, photoperiod 8h, gas concentration lwevel 3000ppm, 20 ℃ of temperature, relative moisture 70-90%, the nutritive element nitrogen phosphoris and potassium fertilizer ratio is pressed N: P: K=3: 2: 2, culture period 300d, Paris polyphylla root fresh weight 2.99g, survival rate 94.3%.

Embodiment 3.4

Plant height through the phase in strong sprout is that 6.8cm, leaf area are that 1.85cm2, complete stool gross dry weight are the Paris polyphylla seedling continuation cultivation of 0.035g, light quality is fluorescent lamp, light intensity 3500Lux, photoperiod 8h, gas concentration lwevel 3000ppm, 20 ℃ of temperature, relative moisture 70-90%, the nutritive element nitrogen phosphoris and potassium fertilizer ratio is pressed N: P: K=3: 2: 2, culture period 300d, Paris polyphylla root fresh weight 2.58g, survival rate 94.6%.

Embodiment 3.5

Plant height through the phase in strong sprout is that 6.8cm, leaf area are that 1.85cm2, complete stool gross dry weight are the Paris polyphylla seedling continuation cultivation of 0.035g, light quality is daylight: LED ruddiness: LED blue light=1: 1: 1, light intensity 1500Lux, photoperiod 8h, gas concentration lwevel 2500ppm, 20 ℃ of temperature, relative moisture 70-90%, the nutritive element nitrogen phosphoris and potassium fertilizer ratio is pressed N: P: K=3: 2: 2, culture period 300d, Paris polyphylla root fresh weight 8.12g, survival rate 94.2%.

Embodiment 3.6

Plant height through the phase in strong sprout is that 6.8cm, leaf area are that 1.85cm2, complete stool gross dry weight are the Paris polyphylla seedling continuation cultivation of 0.035g, light quality is daylight: LED ruddiness: LED blue light=1: 1: 1, light intensity 2500Lux, photoperiod 8h, gas concentration lwevel 2500ppm, 20 ℃ of temperature, relative moisture 70-90%, the nutritive element nitrogen phosphoris and potassium fertilizer ratio is pressed N: P: K=3: 2: 2, culture period 300d, Paris polyphylla root fresh weight 9.31g, survival rate 94.5%.

Embodiment 3.7

Plant height through the phase in strong sprout is that 6.8cm, leaf area are that 1.85cm2, complete stool gross dry weight are the Paris polyphylla seedling continuation cultivation of 0.035g, light quality is daylight: LED ruddiness: LED blue light=1: 1: 1, light intensity 3500Lux, photoperiod 8h, gas concentration lwevel 2500ppm, 20 ℃ of temperature, relative moisture 70-90%, the nutritive element nitrogen phosphoris and potassium fertilizer ratio is pressed N: P: K=3: 2: 2, culture period 300d, Paris polyphylla root fresh weight 8.35g, survival rate 94.6%.

Embodiment 3.8

Plant height through the phase in strong sprout is that 6.8cm, leaf area are that 1.85cm2, complete stool gross dry weight are the Paris polyphylla seedling continuation cultivation of 0.035g, light quality is daylight: LED ruddiness: LED blue light=1: 1: 1, light intensity 2500Lux, photoperiod 8h, gas concentration lwevel 1000ppm, 20 ℃ of temperature, relative moisture 70-90%, the nutritive element nitrogen phosphoris and potassium fertilizer ratio is pressed N: P: K=3: 2: 2, culture period 300d, Paris polyphylla root fresh weight 4.59g, survival rate 93.2%.

Embodiment 3.9

Plant height through the phase in strong sprout is that 6.8cm, leaf area are that 1.85cm2, complete stool gross dry weight are the Paris polyphylla seedling continuation cultivation of 0.035g, light quality is daylight: LED ruddiness: LED blue light=1: 1: 1, light intensity 2500Lux, photoperiod 8h, gas concentration lwevel 3000ppm, 20 ℃ of temperature, relative moisture 70-90%, the nutritive element nitrogen phosphoris and potassium fertilizer ratio is pressed N: P: K=3: 2: 2, culture period 300d, Paris polyphylla root fresh weight 9.2g, survival rate 94.2%.

Comprehensive culture technique contrast:

Embodiment 4

1) seed peeling: get 10 kilograms in band shell Paris polyphylla seed, shell, contain in the 50L container and add 3 times of water soakings 10 hours, manually wash by rubbing with the hands, red kind skin, pulp are separated with seed, then mixed liquor is left standstill 15 minutes, the upper strata of inclining suspend kind of skin and pulp fraction are deposited in the white of container bottom or faint yellow seed and dry in the shade under cleaning room temperature 15-20 ℃.

2) vernalization: 1 kilogram in the seed that getting dries in the shade obtains and 4 kilograms of fine sands are mixed thoroughly, add water to the rear degree without water droplet of holding with a firm grip, insert in the plant micro environment control chamber, adjust 15-18 ℃ of insulation storage of temperature control 90 days.

3) strong seedling culture: the seed that sprouts is transplanted and is entered the phytotron seedbed, by spacing 2cm dense planting, light quality is daylight: LED ruddiness: LED blue light=1: 5: 4, light intensity 1000Lux, photoperiod 8h, gas concentration lwevel 1000ppm, 10～30 ℃ of temperature, relative moisture 65-95%, the nutritive element nitrogen phosphoris and potassium fertilizer ratio is pressed N: P: K=1: 1: 1, electric-field intensity+50000v/m, culture period 50d.

4) fast culture: light quality is daylight: LED ruddiness: LED blue light=1: 4: 5, light intensity 2000Lux, photoperiod 10h, gas concentration lwevel 1500ppm, 10～30 ℃ of temperature, relative moisture 40-90%, the nutritive element nitrogen phosphoris and potassium fertilizer ratio is pressed N: P: K=3: 2: 2, and electric-field intensity+50000v/m, culture period 300d, Paris polyphylla root fresh weight 9.31g, survival rate 70.7%.

Embodiment 5

1) seed peeling: get 10 kilograms in band shell Paris polyphylla seed, shell, contain in the 50L container and add 3 times of water soakings 10 hours, manually wash by rubbing with the hands, red kind skin, pulp are separated with seed, then mixed liquor is left standstill 15 minutes, the upper strata of inclining suspend kind of skin and pulp fraction are deposited in the white of container bottom or faint yellow seed and dry in the shade under cleaning room temperature 15-20 ℃.

2) vernalization: 1 kilogram in the seed that getting dries in the shade obtains and 4 kilograms of fine sands are mixed thoroughly, add water to the rear degree without water droplet of holding with a firm grip, insert in the plant micro environment control chamber, adjust 25-27 ℃ of insulation storage of temperature control 90 days.

3) strong seedling culture: the seed that sprouts is transplanted and is entered the phytotron seedbed, by spacing 2cm dense planting, light quality is daylight: LED ruddiness: LED blue light=9: 1: 1, light intensity 1000Lux, photoperiod 10h, gas concentration lwevel 2000ppm, 25 ℃ of temperature, relative moisture 65-95%, the nutritive element nitrogen phosphoris and potassium fertilizer ratio is pressed N: P: K=1: 1: 1, electric-field intensity+80000v/m, culture period 50d.

4) fast culture: light quality is daylight, light intensity 2000Lux, photoperiod 12h, gas concentration lwevel 3000ppm, 25 ℃ of temperature, relative moisture 40-90%, the nutritive element nitrogen phosphoris and potassium fertilizer ratio is pressed N: P: K=3: 2: 2, and electric-field intensity+80000v/m, culture period 300d, Paris polyphylla root fresh weight 3.72g, survival rate 45.1%.

Further verify by above-mentioned embodiment, under sexual reproduction technique, after present embodiment is implemented, can produce average 130,15 months 70.7% planting percents of seed by the adult Paris polyphylla of every strain and calculate, every strain Paris polyphylla can be grown seedlings more than 90 strains in per 15 months, and the maternal nursery of the Paris polyphylla of tangled vegetation 20000 strain/mus can provide seedling 1,440,000 strains every mu of every year, reaching the production scale of producing ten million strain seedling supply only needs 7 mu of maternal nursery to get final product, simple to operate, extensive management, production efficiency is high.

Claims (5)

1. Paris polyphylla seedling quickly breeding device that utilizes natural energy, it is characterized in that, comprise: the natural energy dynamical system, the automatic monitoring control system, nutrient solution atomizing spraying system, electric field generation device, fixing device and spherical adjustable LED lamp system, wherein: natural energy dynamical system output electric energy is to the automatic monitoring control system, the test side of automatic monitoring control system be arranged in the growth room and power output end respectively with nutrient solution atomizing spraying system, electric field generation device links to each other with spherical adjustable LED lamp system, fixing device is fixedly installed on center in the growth room, and light screening material is arranged at the outside, growth room;

Described electric field generation device comprises: gauze and electrode generator, wherein: gauze is arranged at the fixing device outside and links to each other with the electrode generator, the both positive and negative polarity output of electrode generator joins with double layer of metal silk screen as top crown and bottom crown respectively, the voltage-regulation control end of electrode generator links to each other with the output of automatic monitoring control system, and the power supply of electrode generator is supplied with dc source by the automatic monitoring control system;

Described spherical adjustable LED lamp system is arranged at the top of growth room and links to each other with the automatic monitoring control system, this spherical adjustable LED lamp system is the circular spherical body structure of the upper LED lamp that gathers in surface, the LED lamp adopts redness, blue, three kinds of lamp sources of daylight, and according to the required redness of Paris polyphylla seedling early growth, blueness, daylight source ratio, the control instruction by the automatic monitoring control system realizes the lamp source quantity of opening and photochromic adjusting.

2. the Paris polyphylla seedling quickly breeding device that utilizes natural energy according to claim 1, it is characterized in that, described natural energy dynamical system comprises: wind blade, solar panel and the rectifier of connecting successively, stepup transformer, inverter, controller and accumulator, wherein: the output of wind blade and solar panel links to each other with the input of rectifier respectively, the control end of rectifier and inverter links to each other with controller, the output of inverter links to each other with accumulator, accumulator output DC source is to the automatic monitoring control system, and the rotating speed test side of wind blade links to each other with controller.

3. the Paris polyphylla seedling quickly breeding device that utilizes natural energy according to claim 1, it is characterized in that, described automatic monitoring control system comprises: be arranged in the growth room temperature monitor as the test side, the humidity detection instrument, the gas concentration lwevel monitor, illuminance monitor and be attached thereto the central controller that connects, wherein: the power input of central controller links to each other with the natural energy dynamical system, growth room's internal temperature information that central controller collects according to the test side, humidity information, the corresponding output control instruction of gas concentration lwevel information and illumination information is to nutrient solution atomizing spraying system, electric field generation device and spherical adjustable LED lamp system.

4. the Paris polyphylla seedling quickly breeding device that utilizes natural energy according to claim 1, it is characterized in that, described fixing device is the panel of inverted v-shaped structure, gather on this fixing device and be used for field planting interface and the L font passage of plant cultivating, wherein: the field planting interface is vertically to arrange, and the two ends of penetration type L font passage link to each other with the inboard of field planting interface and panel respectively.

5. the Paris polyphylla seedling quickly breeding device that utilizes natural energy according to claim 1, it is characterized in that, described electrode generator comprises: regulating circuit, console be connected the rectification circuit that connects, filter circuit, multi-resonant circuit, high frequency transformer, voltage doubling rectifing circuit and high voltage source, wherein: regulating circuit links to each other with the control end of multi-resonant circuit and voltage doubling rectifing circuit respectively and exports the boosting rectifier control instruction, console is connected between high voltage source and the top crown and with the output of automatic monitoring control system and links to each other, and the input of rectification circuit links to each other with the automatic monitoring control system.

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