CN107996165B - Industrialized cutting method for rhododendron and cutting arched shed - Google Patents

Abstract

The invention belongs to the technical field of flower cultivation, and particularly relates to an industrialized cutting method for rhododendron and a cutting arched shed. Aiming at the problem that cuttage of rhododendron requires special substrate and growth environment and the survival rate is low if the cuttage is controlled badly, the technical scheme of the invention is as follows: [1] preparing a substrate: mixing sawdust and turfy soil to serve as a matrix, filling the matrix into a black plastic nutrition pot, watering, spraying a disinfectant, and building an arched shed on the upper part of a compartment formed by the black plastic nutrition pot; [2] and (3) cutting treatment: cutting the current-year semi-lignified rhododendron twigs as cutting slips, and disinfecting the cut cutting slips; [3] cuttage: vertically inserting the processed cutting slips into a substrate, leaving 1-2cm of cutting slips exposed out of the ground, and ensuring that the blades are exposed out of the ground; [4] managing after cuttage: after cuttage, spraying water to the substrate immediately to keep moist, maintaining a suitable environment, and sterilizing regularly. The invention also provides an arched shed for implementing the cutting method. The method is suitable for the industrialized cultivation of rhododendron.

Description

Industrialized cutting method for rhododendron and cutting arched shed

Technical Field

The invention belongs to the technical field of flower cultivation, and particularly relates to an industrialized cutting method for rhododendron and a cutting arched shed.

Background

The rhododendron propagation can be carried out by methods such as cuttage, grafting, layering, plant division, sowing and the like, wherein the cuttage has the advantages of convenient operation and capability of keeping the same gene and preventing degeneration, and is the most used propagation method.

However, the cutting of rhododendron requires special substrate and growing environment, and if the cutting is not well combined with the substrate, the cutting is difficult to root. And in the seedling raising process, the section of the cutting slip is in direct contact with the substrate, so that the cutting slip is easily infected with germs and suffers from insect pests if the disinfection work is not performed. Therefore, the survival rate of rhododendron propagation in a cutting mode is low, which brings difficulty to large-scale cutting cultivation of rhododendron and influences the economic benefit of rhododendron cultivation.

Disclosure of Invention

Aiming at the problem that the cuttage of rhododendron has special requirements on a substrate and a growth environment and the survival rate is possibly low if the cuttage is controlled badly, the invention provides an industrialized rhododendron cuttage method, which aims to solve the following problems: can realize the high-density industrialized cutting propagation of rhododendron under the condition that the substrate and the environmental conditions are strictly controllable.

Another object of the present invention is to provide a cutting arched shed for implementing the above-mentioned industrialized cutting method for rhododendron.

The technical scheme adopted by the invention is as follows:

an industrialized cutting method of rhododendron comprises the following steps:

[1] preparing a substrate: mixing the sawdust and the turfy soil according to the volume ratio of 2: 1 to 1: 1 to be used as a matrix, filling the matrix into black plastic nutrition pots, regularly arranging the black plastic nutrition pots into compartments, watering and spraying a disinfectant, and building an arched shed on the upper parts of the compartments formed by the black plastic nutrition pots;

[2] and (3) cutting treatment: cutting the current-year semi-lignified rhododendron twigs as cutting slips, wherein the length of the cutting slips is 5-7cm, only 2-3 leaves on the upper part are left, and disinfecting the cut cutting slips;

[3] cuttage: vertically inserting the well-treated cutting slips into the black plastic nutrition pot filled with the matrix in the step (1), and leaving 1-2cm of cutting slips exposed out of the ground and ensuring that the blades are exposed out of the ground;

[4] managing after cuttage: after cuttage, immediately spraying water to the substrate to keep moist, keeping the temperature in the arched shed at 18-25 ℃, keeping the air humidity above 80%, and spraying the disinfectant for 1 time every 7 days until the cutting shoots root.

After the technical scheme is adopted, because the black plastic nutrition pots with uniform specifications are used, a large number of black plastic nutrition pots can be arranged into compartments, and 1-4 cuttings can be inserted into each black plastic nutrition pot, so that the cutting propagation of the rhododendron in high density can be realized in a small area. An arch shed is built above the compartments formed by arranging the black plastic nutrition bowls, so that the temperature and the humidity can be controlled quantitatively and strictly and the disinfection can be carried out regularly, the environment which is most beneficial to the roots of the rhododendron and the peanut is maintained all the time, meanwhile, the virus propagation is inhibited, the diseases are prevented, and the rooting rate after the cuttage is very high. In addition, the direct totally-enclosed cuttage management of the arched shed has the advantages of simple and convenient operation, labor cost reduction and convenience for industrial production. Because the proper environmental conditions are controlled, the high rooting rate can be achieved without using a rooting agent to soak the cutting slips, and the production cost is lower. In addition, the sawn wood ash is an industrial waste material, is utilized as a waste material, and has the characteristics of low cost, convenient purchase and the like.

Preferably, the disinfectant in the steps [1] and [4] is 800 times of chlorothalonil wettable powder, namely, a solution prepared from the chlorothalonil wettable powder and water according to the mass ratio of 1: 800.

Preferably, the step [2] of disinfecting the cutting is to soak the cut cutting in 2 mass percent thiophanate methyl for 15 min.

In the preferred scheme, the soil and the cutting slips have single disinfectant component but good effect, and have the advantages of simplifying the process of preparing the disinfectant and reducing the cost.

Preferably, the substrate in the step [1] also comprises wormcast, and the volume ratio of the wormcast to the turfy soil is 2: 1 to 1: 1.

The wormcast is a product formed after the earthworms eat the pig manure, the wormcast is rich in organic matters, and the wormcast is used as a fertilizer, so that the use amount of fertilizers such as turfy soil, organic fertilizers and the like can be reduced. The use of the wormcast can widen the resource utilization rate of the wormcast, reduce the environmental pollution, protect the ecological environment, realize the recycling of natural resources and low-carbon circulation, and reduce the production cost, thereby increasing the economic benefit.

Preferably, the black plastic nutrition pot is a black plastic nutrition pot with the specification of 10 × 12 or 14 × 16, and the black plastic nutrition pot with the specification can meet the requirement of cutting slips rooting of rhododendron and is small enough to perform a large amount of cutting propagation in a small area.

A cuttage arched shed for implementing an industrialized cuttage method for azalea comprises a shed body, a plurality of shelves and a plurality of black plastic nutrition bowls are arranged in a space defined by the shed body, the black plastic nutrition bowls are arranged into a plurality of compartments and are arranged on each layer of the shelves and on the ground, a passageway with the width of 0.8-1.2m is arranged between the shelves and between the compartments formed by the black plastic nutrition bowls, and a water pipe is arranged on the inner surface of the shed body.

After the technical scheme is adopted, the cutting propagation of the rhododendron in high density in an arched shed with limited area is realized by arranging the racks and arranging the black plastic nutrition bowls which are arranged into compartments on each layer of the racks. The electric heating temperature control mode that current arched shed adopted usually carries out comparatively efficient heating to the part, and can not reach even temperature control effect to the arched shed of this kind of multilayer design, is unfavorable for improving the rooting rate of rhododendron cuttage. The water pipes are uniformly distributed on the shed body, and heat exchange can be carried out between the hot water and the air in the arched shed, so that the temperature in the arched shed can be controlled. Compared with local electric heating, the hot water pipe heating has the advantage of enabling the temperature to be more uniform.

Preferably, the water pipe comprises a cold water pipe and a hot water pipe, and the middle part of the cold water pipe is provided with a spraying device. The spraying device can spray water mist or pesticide as required, so that the humidity control and pesticide application are more convenient.

Preferably, each black plastics nutrition alms bowl top has hung moisturizing device, and moisturizing device includes the water pitcher, and the water pitcher top is provided with the couple, and the other filler that is provided with of couple, water pitcher bottom are provided with out the hydroecium, and the water pitcher passes through threaded connection with a hydroecium. The water replenishing device is characterized in that the water outlet head can be replaced, and the water replenishing mode and speed of the substrate under the cutting can be controlled by adjusting the structure and specification of the opening of the water outlet head.

Further preferably, the water tanks above the black plastic nutrition bowls forming the same compartment are communicated with each other. The advantage of this preferred scheme is that only need to use a filler can add water to the water pitcher of black plastics nutritive cube top in same railway carriage or compartment.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. a large number of black plastic nutrition bowls with uniform specifications can be arranged into compartments, and 1-4 cuttings can be inserted into each black plastic nutrition bowl, so that the cutting propagation of rhododendron in high density can be realized in a small area.

2. The arched shed is built, so that the temperature and the humidity can be strictly controlled quantitatively and the disinfection is carried out regularly, the environment which is most beneficial to the roots of the rhododendron and the peanut is always maintained, the virus propagation is inhibited, the diseases are prevented, and the rooting rate after cuttage is very high.

3. The direct totally-enclosed cutting management of the arched shed has the advantages of simple and convenient operation, labor cost reduction and convenience for industrial production.

4. The cutting technology often uses a rooting agent, and the invention can achieve high rooting rate without using the rooting agent to soak the cutting slips due to the control of proper environmental conditions, thereby ensuring lower production cost.

5. The sawn timber ash is an industrial waste material, is utilized as a waste material, and has the characteristics of low cost, convenient purchase and the like.

6. The cutting slips are the annual semi-lignified branches of the female parent, and the survival rate of the adopted cutting is high.

7. The soil and cutting slips disinfectant has single component but good effect, and has the advantages of simplifying the process of preparing the disinfectant and reducing the cost.

8. The use of the wormcast can widen the resource utilization rate of the wormcast, reduce the environmental pollution, protect the ecological environment, realize the recycling of natural resources and low-carbon circulation, and reduce the production cost, thereby increasing the economic benefit.

9. The selected black plastic nutrition pot can meet the requirement of cutting slips rooting of the rhododendron, is small enough and can be used for cutting propagation in a large amount in a small area.

10. The cutting propagation of the rhododendron is realized in a high density in an arched shed with a limited area by arranging the shelves and arranging black plastic nutrition bowls arranged into compartments on each layer of the shelves.

11. The electric heating temperature control mode that current arched shed adopted usually carries out comparatively efficient heating to the part, and can not reach even temperature control effect to the arched shed of this kind of multilayer design, is unfavorable for improving the rooting rate of rhododendron cuttage. The water pipes are uniformly distributed on the shed body, and heat exchange can be carried out between the hot water and the air in the arched shed, so that the temperature in the arched shed can be controlled. Compared with local electric heating, the hot water pipe heating has the advantage of enabling the temperature to be more uniform.

12. The spraying device can spray water mist or pesticide as required, so that the humidity control and pesticide application are more convenient.

13. The water outlet head of the water supplementing device can be replaced, and the water supplementing mode and speed of the substrate under the cutting can be controlled by adjusting the structure and specification of the opening of the water outlet head.

14. Only one water filling port is needed to be used for adding water into the water tank above the black plastic nutrition pot in the same compartment.

Drawings

The invention will now be described, by way of example, with reference to the accompanying drawings, in which:

FIG. 1 is a front view of a cutting shed in accordance with example 1 of the present invention;

FIG. 2 is a schematic structural view of a water replenishing apparatus according to embodiment 1 of the present invention;

FIG. 3 is a front view of a cutting shed in accordance with embodiment 2 of the present invention;

FIG. 4 is a side view of a cutting shed in accordance with embodiment 2 of the present invention;

fig. 5 is a schematic structural view of a water replenishing device in embodiment 2 of the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The present invention will be described in detail with reference to fig. 1 to 5.

Example 1

An industrialized cutting method of rhododendron comprises the following steps:

[1] preparing a substrate: mixing sawdust and turfy soil according to the volume ratio of 2: 1 to serve as a matrix, filling the matrix into a black plastic nutrition pot, wherein the black plastic nutrition pot is cylindrical and has the diameter of 10cm and the height of 12cm, regularly arranging the black plastic nutrition pot into compartments, watering and spraying the compartments, then disinfecting the compartments by using 800 times of chlorothalonil wettable powder, and building an arched shed on the upper parts of the compartments formed by the black plastic nutrition pot;

[2] and (3) cutting treatment: cutting the current-year semi-lignified rhododendron twigs which grow vigorously and have no diseases and insect pests as cutting slips, keeping the length of the cutting slips at 5-7cm, only keeping 2-3 leaves at the upper part, and soaking the cut cutting slips in 2 mass percent of thiophanate methyl for 15 min;

[3] cuttage: vertically inserting the well-treated cutting slips into the black plastic nutrition pot filled with the matrix in the step (1), and leaving 1-2cm of cutting slips exposed out of the ground and ensuring that the blades are exposed out of the ground;

[4] managing after cuttage: spraying and watering the substrate thoroughly after cuttage to ensure the microclimate in the arched shed to be stable, controlling the temperature to be 18-25 ℃ and the air humidity to be more than 80 percent, and guiding the cutting to root without other management, wherein the rooting time is about 50 days, and the rooting rate can reach more than 98 percent.

A cuttage arched shed for implementing the azalea industrialization cuttage method comprises a shed body 1, a plurality of shelves 6 and a plurality of black plastic nutrition bowls 5 are arranged in a space enclosed by the shed body 1, the black plastic nutrition bowls 5 are arranged into a plurality of compartments and arranged on each layer of the shelves 6 and on the ground, passageways with the width of 0.8m are arranged between the shelves 6 and between the compartments formed by the black plastic nutrition bowls 5, and water pipes 2 are arranged on the inner surface of the shed body 1. The water pipe 2 comprises a cold water pipe and a hot water pipe, and the middle part of the cold water pipe is provided with a spraying device 3. A water replenishing device 4 is hung above each black plastic nutrition pot 5, the water replenishing device 4 comprises a water tank 41, a hook 44 is arranged at the top of the water tank 41, a water filling port 43 is arranged beside the hook 44, a water outlet head 42 is arranged at the bottom of the water tank 41, and the water tank 41 is in threaded connection with the water outlet head 42.

When management after cuttage is carried out, the temperature in the arch shed is controlled through hot water in the hot water pipe, the humidity of air is maintained through regularly spraying water by the spraying device 3, the spraying device 3 can also be used for spraying pesticides or disinfectants, and water can be slowly added into the water tank 41 to enable the water outlet head 42 to slowly add water to the matrix in the black plastic nutrition pot 5 in a dropwise mode when watering is needed.

Example 2

An industrialized cutting method of rhododendron comprises the following steps:

[1] preparing a substrate: mixing wormcast, sawdust and turfy soil according to the volume ratio of 2: 1 to serve as a matrix, filling the matrix into a black plastic nutrition pot, wherein the black plastic nutrition pot is cylindrical and has the diameter of 14cm and the height of 16cm, regularly arranging the black plastic nutrition pot into compartments, watering and spraying the compartments, then disinfecting the compartments by using 800 times of liquid of chlorothalonil wettable powder, and building an arched shed on the upper parts of the compartments formed by the black plastic nutrition pot;

[2] and (3) cutting treatment: cutting the current-year semi-lignified rhododendron twigs which grow vigorously and have no diseases and insect pests as cutting slips, keeping the length of the cutting slips at 5-7cm, only keeping 2-3 leaves at the upper part, and soaking the cut cutting slips in 2 mass percent of thiophanate methyl for 15 min;

[3] cuttage: vertically inserting the well-treated cutting slips into the black plastic nutrition pot filled with the matrix in the step (1), and leaving 1-2cm of cutting slips exposed out of the ground and ensuring that the blades are exposed out of the ground;

[4] managing after cuttage: spraying and watering the substrate thoroughly after cuttage to ensure the microclimate in the arched shed to be stable, controlling the temperature to be 18-25 ℃ and the air humidity to be more than 80 percent, and guiding the cutting to root without other management, wherein the rooting time is about 50 days, and the rooting rate can reach more than 98 percent.

A cuttage arched shed for implementing the azalea industrialization cuttage method comprises a shed body 1, a plurality of shelves 6 and a plurality of black plastic nutrition bowls 5 are arranged in a space enclosed by the shed body 1, the black plastic nutrition bowls 5 are arranged into a plurality of compartments and arranged on each layer of the shelves 6 and on the ground, passageways with the width of 1.2m are arranged between the shelves 6 and between the compartments formed by the black plastic nutrition bowls 5, and water pipes 2 are arranged on the inner surface of the shed body 1. The water pipe 2 comprises a cold water pipe and a hot water pipe, and the middle part of the cold water pipe is provided with a spraying device 3. A water replenishing device 4 is hung above each black plastic nutrition pot 5, the water replenishing device 4 comprises a water tank 41, a hook 44 is arranged at the top of the water tank 41, a water filling port 43 is arranged beside the hook 44, a water outlet head 42 is arranged at the bottom of the water tank 41, and the water tank 41 is in threaded connection with the water outlet head 42. The water tanks 41 above the black plastic nutrition bowls 5 which form the same compartment are communicated with each other.

In the embodiment, the water tanks 41 above the black plastic nutrition bowls 5 in the same compartment are communicated with each other, so that the water supplementing requirement of the black plastic nutrition bowls 5 in the same compartment can be met only by adding water to one water adding port 43 every time.

The above-mentioned embodiments only express the specific embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for those skilled in the art, without departing from the technical idea of the present application, several changes and modifications can be made, which are all within the protection scope of the present application.

Claims (5)

1. An industrialized cutting method for rhododendrons is characterized by comprising the following steps:

[1] preparing a substrate: mixing the sawdust and the turfy soil according to the volume ratio of 2: 1 to 1: 1 to be used as a matrix, filling the matrix into black plastic nutrition pots, regularly arranging the black plastic nutrition pots into compartments, watering and spraying a disinfectant, and building an arched shed on the upper parts of the compartments formed by the black plastic nutrition pots;

[2] and (3) cutting treatment: cutting the current-year semi-lignified rhododendron twigs as cutting slips, wherein the length of the cutting slips is 5-7cm, only 2-3 leaves on the upper part are left, and disinfecting the cut cutting slips;

[3] cuttage: vertically inserting the well-treated cutting slips into the black plastic nutrition pot filled with the matrix in the step (1), and leaving 1-2cm of cutting slips exposed out of the ground and ensuring that the blades are exposed out of the ground;

[4] managing after cuttage: after cuttage, immediately spraying water to the substrate to keep moist, keeping the temperature in the arched shed at 18-25 ℃, keeping the air humidity above 80%, and spraying a disinfectant for 1 time every 7 days until the cutting shoots root;

the substrate in the step (1) also comprises wormcast, the volume ratio of the wormcast to the turfy soil is 2: 1 to 1: 1,

the specification of the black plastic nutrition pot is 10 × 12 or 14 × 16.

2. The industrialized cutting method of rhododendron according to claim 1, characterized in that: the disinfectant in the steps [1] and [4] is 800 times of chlorothalonil wettable powder.

3. The industrialized cutting method of rhododendron according to claim 1, characterized in that: and (3) the process of disinfecting the cutting slips in the step (2) is to soak the cut cutting slips in thiophanate methyl with the mass percentage concentration of 2% for 15 min.

4. A cutting arched shed for implementing the azalea industrialized cutting method according to claim 1, characterized in that: the greenhouse comprises a greenhouse body (1), wherein a plurality of frames (6) and a plurality of black plastic nutrition bowls (5) are arranged in a space enclosed by the greenhouse body (1), the black plastic nutrition bowls (5) are arranged into a plurality of compartments and are arranged on each layer of the frames (6) and on the ground, passageways with the width of 0.8-1.2m are arranged between the frames (6) and between the compartments formed by the black plastic nutrition bowls (5), and water pipes (2) are arranged on the inner surface of the greenhouse body (1); the water pipe (2) comprises a cold water pipe and a hot water pipe, and the middle part of the cold water pipe is provided with a spraying device (3);

and a water replenishing device (4) is hung above each black plastic nutrition pot (5), the water replenishing device (4) comprises a water tank (41), a hook (44) is arranged at the top of the water tank (41), a water filling port (43) is arranged beside the hook (44), a water outlet head (42) is arranged at the bottom of the water tank (41), and the water tank (42) is connected with the water outlet head (42) through threads.

5. A cutting arched shed for implementing an industrialized cutting method for rhododendron according to claim 4, characterized in that: the water tanks (41) above the black plastic nutrition bowls (5) forming the same compartment are communicated with each other.

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