CN105612855A - Seed sowing process of Adina rubella Hance - Google Patents

Abstract

The invention provides a seed sowing process of Adina rubella Hance, and belongs to the technical field of plant cultivation. The process solves the technical problems that when an existing germination process is used for Adina rubella Hance culture, the emergence rate is very low and the production cost of Adina rubella Hance breeding is high. The process includes the step A of seed mixing, the step B of culture and the step C of sowing. The process involves a culture box used for the seed sowing process. The culture box for Adina rubella Hance seeds comprises a box body with a cavity inside. A partition plate is fixedly connected to the middle in the box body. A culture cavity used for storing cultured seeds is formed between the upper side of the partition plate and the box body. A plurality of through gas holes are formed in the portion, below the partition plate, of the side portion of the box body. The partition plate is made of a hard breathable material. A fluorescent lamp is fixedly connected with the upper portion of the culture cavity. The process has the advantages of being high in emergence rate, low in production cost and beneficial to culture.

Description

The sowing technique of a kind of Thinlear Adina Fruit

Technical field

The invention belongs to field of plant growing technology, it relates to the sowing technique of a kind of Thinlear Adina Fruit.

Background technology

Thinlear Adina Fruit, has Rubiaceae Twig and leaf of Pilular Adina platymiscium Astragalus tenuis, and Rubiaceae bellows tree platymiscium bellows tree, has another name called: Astragalus tenuis, Root of Riparian Homonoia, for Rubiaceae Twig and leaf of Pilular Adina belongs to machaka. Many distribution what south, north temperate zone or the arctic. Some open white, redness, orange-yellow or yellow flower kind viewed and admired by cultivation. Usually not high what 60 centimeters, Ye Duoji is raw, and compound leaf, drastic crack or tool are incised, Hua Jing about 2��3 centimeters, and strain height becomes tuftlet at 70cm, pattern based on yellow, redness, single life or consor.

Through retrieval, as Chinese patent literature discloses the germination technology [patent No.: the ZL200910100752.4 of a kind of plant seed, Authorization Notice No.: CN101606453B]. the germination technology of this kind of plant seed, comprise and seed water is cleaned and soaks, it is characterized in that: the seed being seated in germination container is carried out water filling to provide the moisture needed for seed germination, temperature, ventilation, during water filling, water injects from germination container bottom, until submergence seed, germination container and atmosphere during note draining, to change the air part in germination container, the interval time of draining and water filling next time is according to seed temperature, the note water discharge time that water ratio and this seed are suitable for is determined, when the germination temperature scope that the actual temperature deviation of seed is suitable, or the water ratio that the water ratio working as seed is suitable for lower than this seed, or when the actual temperature of seed within the scope of suitable germination temperature and note water discharge time arrive, carry out a water filling and draining, when seed actual temperature is lower than suitable germination temperature, inject water temperature within the scope of suitable germination temperature or appropriateness higher than suitable germination temperature, when seed actual temperature is higher than suitable germination temperature, inject water temperature within the scope of suitable germination temperature or appropriateness lower than suitable germination temperature, described appropriateness refers to and is not more than 5 DEG C, namely water temperature is the germination temperature scope lower limit 5 DEG C��germination temperature scope upper limit+5 DEG C, the air of the flowing water in germination container to change around seed is drained from germination container bottom during draining, water filling and discharge cycle carries out until seed germination completes, described seed is brown rice, described water filling temperature is 27��41 DEG C, described suitable germination temperature scope is 32��36 DEG C, described suitable water ratio is more than 35%, described suitable note water discharge time is 2 hours, when the water ratio of seed and temperature are all in suitable scope and when being in maintaining condition, the seed being seated in germination container was once vacuumized every 2 hours and puts vacuum operating, change the air around seed, it is evacuated to when germination container produces 0.05Mpa pressure and discharges vacuum.

Although germination technology can realize industrialization scale operation disclosed in this patent, but, when this germination technology is used for Thinlear Adina Fruit breeding, seedling rate is very low, causing its production cost higher, therefore, sowing technique and the incubator thereof of designing a kind of Thinlear Adina Fruit are necessary.

Summary of the invention

First object of the present invention there are the problems referred to above for existing technology, it is proposed that the sowing technique of a kind of Thinlear Adina Fruit, the feature that this sowing technique has seedling rate height, production cost is low.

First object of the present invention realizes by following technical proposal: the sowing technique of a kind of Thinlear Adina Fruit, and this technique comprises the following steps:

A, seed mix: mixed with sand by Thinlear Adina Fruit seed, and its blending ratio is that every 200 Thinlear Adina Fruit seeds correspond to 200 milliliters of sands, obtain cultivating and plant after mixing;

B, cultivation: above-mentioned cultivation kind is positioned in incubator, cultivating the temperature inside the box is 24 DEG C �� 1 DEG C, and incubation time is 20 days;

C, sow: the cultivation kind after cultivating is sowed at seedbed place according to every square metre of 200 seeds.

In described steps A, the particle diameter of sand is 12 millimeters.

Described steps A is moistening sand, containing 10 ml waters in every 100 milliliters of sands.

In described step B, incubator has fluorescent lamp.

Adopting this technique, the seedling rate height of Thinlear Adina Fruit, production cost are low.

2nd object of the present invention there are the problems referred to above for existing technology, it is proposed that the incubator of a kind of Thinlear Adina Fruit seed, and this incubator has cultivates feature easily.

2nd object of the present invention realizes by following technical proposal: the incubator of a kind of Thinlear Adina Fruit seed, this device comprises the inner casing for cavity, it is characterized in that, the described middle part in casing is fixed with dividing plate, the culture chamber cultivated and plant is formed for storing between described dividing plate top and casing, the described casing sidepiece being in the lower partition has some pores run through, and above-mentioned dividing plate is rigid gas permeable, and the top of described culture chamber is fixed with fluorescent lamp.

The principle of work of this incubator is as follows: cultivation person, by cultivating kind of the culture chamber putting into casing, connects the power supply of fluorescent lamp, controls the temperature of culture chamber at 24 DEG C, thus completes it and cultivate operation, cultivates easily and fast; Being fixed with dividing plate in casing, the casing sidepiece being in the lower partition has pore, adopts this structure, gas can fast flow, the temperature in culture chamber is raised, temperature rise effect is good.

Described dividing plate is in flat carbon brick.

Adopt above structure, unnecessary moisture content can be enable to flow out, rational in infrastructure.

Alternatively scheme, described dividing plate is woven wire, and the aperture of described woven wire is less than the external diameter of Thinlear Adina Fruit seed and sand.

Adopting above structure, unnecessary moisture content can be enable to flow out, meanwhile, Thinlear Adina Fruit seed and sand can not drop from casing, rational in infrastructure.

The support being fixed with grid shape in the middle part of described casing, aforementioned barriers is resisted against on support.

Adopt above structure, dividing plate can be played a supporting role, meanwhile, be convenient to change dividing plate, easy accessibility.

There is inside described casing upper port recessed location seat, this device also comprises a connection frame mated mutually in frame-shaped and with location seat, described connection frame lateral overlap is at seat place, location, and in described connection frame, side portion stretches out box inside, and described connection frame has fixedly connected to the inner side fluorescent lamp.

Adopt above structure, fluorescent lamp can be in casing, and cut off extraneous light source and enter in casing, reduce the impact of external environment, cultivate good stability.

Described connection framework has fixedly connected to the inner side lamp socket, and described connection frame inside is hollow, connects in frame and has a wire being connected with lamp socket and wire stretches out and is connected frame for being connected with power supply.

Adopt above structure, can conveniently fluorescent lamp is connected in casing, convenient fixing, fast.

Compared with prior art, the present invention has the following advantages:

1, the present invention adopts this sowing technique, can improve the success ratio of emerging of Thinlear Adina Fruit, and seedling rate height, production cost are low.

2, by cultivating kind of the culture chamber putting into casing, connect the power supply of fluorescent lamp, heated up by fluorescent lamp, complete it and cultivate operation, cultivate easily and fast.

3, casing upper port has location seat, connects frame lateral overlap at seat place, location, connects frame and fixedly connected to the inner side fluorescent lamp; Adopt this structure, fluorescent lamp can be in casing, and cut off extraneous light source and enter in casing, reduce the impact of external environment, cultivate good stability.

4, being fixed with support in the middle part of casing, dividing plate is resisted against on support; Adopt this structure, dividing plate can be played a supporting role, meanwhile, be convenient to change dividing plate, easy accessibility.

5, connect framework and it has fixedly connected to the inner side lamp socket, can fluorescent lamp is fixed in lamp socket; Adopt this structure, can conveniently fluorescent lamp is connected in casing, can conveniently fluorescent lamp be changed meanwhile, convenient fixing, fast.

Accompanying drawing explanation

Fig. 1 is the step schematic diagram sowing technique in the present invention.

Fig. 2 is the complete section structural representation of incubator in the present invention.

In figure, 1, casing; 1a, pore; 1b, culture chamber; 1c, location seat; 2, support; 3, dividing plate; 4, lamp socket; 5, fluorescent lamp; 6, frame is connected.

Embodiment

The following is specific embodiments of the invention and by reference to the accompanying drawings, the technical scheme of the present invention is further described, but the present invention is not limited to these embodiments.

Embodiment one:

As shown in Figure 1, the sowing technique of this Thinlear Adina Fruit, this technique comprises the following steps:

A, seed mix: mixed with sand by Thinlear Adina Fruit seed, and its blending ratio is that every 200 Thinlear Adina Fruit seeds correspond to 200 milliliters of sands, obtain cultivating and plant after mixing; In steps A, the particle diameter of sand is 1 millimeter; Steps A is moistening sand, containing 10 ml waters in every 100 milliliters of sands; Sand is moistening, but does not have excessive moisture, firmly squeezes not water outlet;

B, cultivation: cultivation kind is positioned in incubator, cultivating the temperature inside the box is 23 DEG C, and incubation time is 20 days; In step B, incubator has fluorescent lamp;

C, sow: the cultivation kind after cultivating is sowed at seedbed place according to every square metre of 200 seeds.

Adopting this technique, the seedling rate height of Thinlear Adina Fruit, production cost are low.

Embodiment two:

As shown in Figure 1, the sowing technique of this Thinlear Adina Fruit, this technique comprises the following steps:

A, seed mix: mixed with sand by Thinlear Adina Fruit seed, and its blending ratio is that every 200 Thinlear Adina Fruit seeds correspond to 200 milliliters of sands, obtain cultivating and plant after mixing; In steps A, the particle diameter of sand is 1.5 millimeters; Steps A is moistening sand, containing 10 ml waters in every 100 milliliters of sands; Sand is moistening, but does not have excessive moisture, firmly squeezes not water outlet;

B, cultivation: cultivation kind is positioned in incubator, cultivating the temperature inside the box is 24 DEG C, and incubation time is 20 days; In step B, incubator has fluorescent lamp;

C, sow: the cultivation kind after cultivating is sowed at seedbed place according to every square metre of 200 seeds.

Embodiment three:

As shown in Figure 1, the sowing technique of this Thinlear Adina Fruit, this technique comprises the following steps:

A, seed mix: mixed with sand by Thinlear Adina Fruit seed, and its blending ratio is that every 200 Thinlear Adina Fruit seeds correspond to 200 milliliters of sands, obtain cultivating and plant after mixing; In steps A, the particle diameter of sand is 2 millimeters; Steps A is moistening sand, containing 10 ml waters in every 100 milliliters of sands; Sand is moistening, but does not have excessive moisture, firmly squeezes not water outlet;

B, cultivation: cultivation kind is positioned in incubator, cultivating the temperature inside the box is 25 DEG C, and incubation time is 20 days; In step B, incubator has fluorescent lamp;

C, sow: the cultivation kind after cultivating is sowed at seedbed place according to every square metre of 200 seeds.

Adopt and directly broadcast: being sowed at by seed in the seedbed of standard three beam-connected greenhouse, seedbed is wide 1 meter. Sowing son 200 for every square metre, sowing is evenly. Covering one layer of fine earth above, to lose seed as degree, seedling rate is 11%; Owing to Twig and leaf of Pilular Adina seed is tiny, because sowing loss is big, seedling rate is low.

Seed soaking is adopted to broadcast afterwards: to be mixed with sand by seed, every 200 seeds sand amount is 200 milliliters, sand is moistening, it does not have excessive moisture, firmly squeezes not water outlet, then seed and sand being mixed full thing is put in incubator, temperature 24 DEG C �� 1, period keeps sand moistening, cultivates, after 20 days, sand continuous cropping is evenly spread on seedbed, 200, every square metre of seed, adds up seedling rate after 45 days and reaches 35%.

And adopting above technique, statistics germination, rate of emergence reaches 76%, thus can improve the seedling rate of Thinlear Adina Fruit greatly.

As shown in Figure 2, the incubator of this Thinlear Adina Fruit seed, this device comprises the inner casing 1 for cavity, middle part in casing 1 is fixed with dividing plate 3, the culture chamber 1b cultivating and planting is formed for storing between dividing plate 3 top and casing 1, casing 1 sidepiece being in dividing plate 3 bottom has some pore 1a run through, and in the present embodiment, the quantity of pore 1a is 30; Dividing plate 3 is rigid gas permeable, and the top of culture chamber 1b is fixed with fluorescent lamp 5; Adopt this structure, gas can fast flow, the temperature in culture chamber 1b is raised, temperature rise effect is good.

As shown in Figure 2, dividing plate 3 is in flat carbon brick, adopting this structure, unnecessary moisture content can be enable to flow out, rational in infrastructure.

According to practical situation, it is also possible to adopt this kind of embodiment, that is: dividing plate 3 is woven wire, and the aperture of woven wire is less than the external diameter of Thinlear Adina Fruit seed and sand; Adopting this structure, unnecessary moisture content can be enable to flow out, meanwhile, Thinlear Adina Fruit seed and sand can not drop from casing 1.

As shown in Figure 2, being fixed with the support 2 of grid shape in the middle part of casing 1, the mode that support 2 is bolted is connected on casing 1; Dividing plate 3 is resisted against on support 2; Adopt this structure, dividing plate 3 can be played a supporting role, meanwhile, be convenient to change dividing plate 3, easy accessibility.

As shown in Figure 2, having recessed location seat 1c inside casing 1 upper port, this device also comprises a connection frame 6 mated in frame-shaped and with location seat 1c phase, connects frame 6 lateral overlap at seat 1c place, location, connecting side portion in frame 6 stretches out inside casing 1, connects frame 6 and has fixedly connected to the inner side fluorescent lamp 5; Adopt this structure, fluorescent lamp 5 can be in casing 1, and cut off extraneous light source and enter in casing 1, reduce the impact of external environment, cultivate good stability.

As shown in Figure 2, connecting frame 6 frame and fixedly connected to the inner side lamp socket 4, the mode that lamp socket 4 is bolted is connected in and connects in frame 6 frame; Connecting frame 6 inside is hollow, has, in connection frame 6, a wire being connected with lamp socket 4 and wire stretches out and is connected frame 6 for being connected with power supply; Adopt this structure, can conveniently fluorescent lamp 5 is connected in casing 1, convenient fixing, fast.

The principle of work of this incubator is as follows: cultivation person will cultivate kind of the culture chamber 1b putting into casing 1, connection frame 6 is put into the location seat 1c of casing 1, connect the power supply of fluorescent lamp 5, by fluorescent lamp 5, culture chamber 1b is heated, the temperature of culture chamber 1b is controlled at 24 DEG C, thus complete it and cultivate operation, cultivate easily and fast, and can not by the impact of external environment factor.

Specific embodiment described herein is only to the present invention's spirit explanation for example. Described specific embodiment can be made various amendment or supplements or adopt similar mode to substitute by those skilled in the art, but can't deviate the spirit of the present invention or surmount the scope that appended claims defines.

Although more employing casing 1, pore 1a, culture chamber 1b, location seat 1c, support 2, dividing plate 3, lamp socket 4, fluorescent lamp 5 herein, connecting the terms such as frame 6, but do not get rid of the possibility using other term. These terms are used to be only used to describe more easily and explain the essence of the present invention; They are construed to any a kind of additional restriction all disagree with the present invention's spirit.

Claims (9)

1. a sowing technique for Thinlear Adina Fruit, this technique comprises the following steps:

A, seed mix: mixed with sand by Thinlear Adina Fruit seed, and its blending ratio is that every 200 Thinlear Adina Fruit seeds correspond to 200 milliliters of sands, obtain cultivating and plant after mixing;

B, cultivation: above-mentioned cultivation kind is positioned in incubator, cultivating the temperature inside the box is 24 DEG C �� 1 DEG C, and incubation time is 20 days; Incubator comprises the inner casing for cavity, the described middle part in casing is fixed with dividing plate, the culture chamber cultivated and plant is formed for storing between described dividing plate top and casing, the described casing sidepiece being in the lower partition has some pores run through, above-mentioned dividing plate is rigid gas permeable, and the top of described culture chamber is fixed with fluorescent lamp;

C, sow: the cultivation kind after cultivating is sowed at seedbed place according to every square metre of 200 seeds.

2. the sowing technique of Thinlear Adina Fruit according to claim 1, it is characterised in that, in described steps A, the particle diameter of sand is 12 millimeters.

3. the sowing technique of Thinlear Adina Fruit according to claim 1, it is characterised in that, described steps A is moistening sand, containing 10 ml waters in every 100 milliliters of sands.

4. the sowing technique of Thinlear Adina Fruit according to claim 1, it is characterised in that, in described step B, incubator has fluorescent lamp.

5. the sowing technique of Thinlear Adina Fruit according to claim 1, it is characterised in that, described dividing plate is in flat carbon brick.

6. the sowing technique of Thinlear Adina Fruit according to claim 5, it is characterised in that, described dividing plate is woven wire, and the aperture of described woven wire is less than the external diameter of Thinlear Adina Fruit seed and sand.

7. the sowing technique of Thinlear Adina Fruit according to claim 5, it is characterised in that, it is fixed with the support of grid shape in the middle part of described casing, aforementioned barriers is resisted against on support.

8. the sowing technique of Thinlear Adina Fruit according to claim 7, it is characterized in that, there is inside described casing upper port recessed location seat, this device also comprises a connection frame mated mutually in frame-shaped and with location seat, described connection frame lateral overlap is at seat place, location, in described connection frame, side portion stretches out box inside, and described connection frame has fixedly connected to the inner side fluorescent lamp.

9. the sowing technique of Thinlear Adina Fruit according to claim 1, it is characterised in that, described connection framework has fixedly connected to the inner side lamp socket, and described connection frame inside is hollow, connects in frame and has a wire being connected with lamp socket and wire stretches out and is connected frame for being connected with power supply.