CN110463561A - Arbor transplantation method - Google Patents

Abstract

The invention discloses a kind of arbor transplantation method, arbor transplantation method is the following steps are included: S1, arbor are excavated；S2, preparation culture soil；S3, package culture soil；S4, arbor plant；Wherein, culture solution includes the component of following mass fraction: 13-18 parts of taking root liquid；25-30 parts of dodecyl benzyl dimethyl ammonium chloride；20-25 parts of chloropyuril；2-(4- chlorophenoxy) 10-13 parts of niacinamide, have and arbor root is promoted preferably to absorb moisture and nutriment, is preferably grown to be conducive to arbor, so that the higher advantage of the survival rate of arbor.

Description

Arbor transplantation method

Technical field

The present invention relates to garden landscape trees implantation technique fields, more specifically, it relates to a kind of arbor transplantation method.

Background technique

Arbor refers to trunk tall trees wood, independent trunk occurs by root, trunk and tree crown have obvious differentiation.Arbor Being implanted in landscape engineering is a basic operation, is mainly used for a kind of protectiveness transplanting carried out to forming trees.

In order to make arbor play afforestation effect as early as possible and keep original graceful posture, when transplanting arbor generally not to Qiao The branches and leaves of wood are deeplyd prune, but since arbor generally has certain age of tree, and tree body is generally taller and bigger, the steaming of branches and leaves It is also bigger to rise area, meanwhile, arbor is since with certain age of tree, the power of regeneration of root system can also decline, thus be easy to make The root regeneration that must be damaged is slow, so that new root generating ability is weaker, to be easy so that the rising area of branches and leaves is far more than root system Absorption area, and then be easy, so that transplanting arbor survival rate reduces, therefore, still there is improvement so that arbor is dead due to dehydration Space.

Summary of the invention

In view of the deficiencies of the prior art, the present invention intends to provide a kind of arbor transplantation method, has and improve The advantages of transplanting the survival rate of arbor.

To achieve the above object, the present invention provides the following technical scheme that

A kind of arbor transplantation method, comprising the following steps:

S1, arbor are excavated: arbor is dug out from soil；

S2, preparation culture soil: culture soil is mixed to form using soil and culture solution；

S3, package culture soil: it is placed in resulting culture soil is prepared in the step S2 in wrap film, and by arbor The soil of root is cleaned out, and is then wrapped up the root of arbor using wrap film, so that the root of arbor is placed in culture soil In, and wrap film is tightened to form soil ball；

S4, arbor plant: excavating plantation hole according to design drawing, then transports arbor to plant position, and by arbor Lifting unclamps wrap film and prepares resulting culture soil for the sky of soil ball and plantation hole inner wall using step S2 into plantation hole Gap fills up compacting, that is, completes the transplanting of arbor；

Wherein, the culture solution includes the component of following mass fraction:

13-18 parts of taking root liquid；

25-30 parts of dodecyl benzyl dimethyl ammonium chloride；

20-25 parts of chloropyuril；

10-13 parts of niacinamide of 2- (4- chlorophenoxy).

By adopting the above technical scheme, by using taking root liquid, dodecyl benzyl dimethyl ammonium chloride, chloropyuril and 2- (4- chlorophenoxy) niacinamide coordinated is conducive to the rootability for enhancing arbor, so that the water absorbing capacity of arbor root is more By force, so that being conducive to arbor root preferably absorbs moisture, the water absorption for advantageously reducing arbor is difficult to deposit less than evaporation capacity Situation living is conducive to improve the survival rate after arbor transplanting；

By using taking root liquid, dodecyl benzyl dimethyl ammonium chloride, chloropyuril and 2- (4- chlorophenoxy) niacinamide It is used in compounding, also helps the damaged portion for repairing arbor root, so that the healing ability of arbor root enhances, meanwhile, also It carries out disinfection sterilization conducive to the damaged portion to arbor root, is conducive to the growth for inhibiting bacterium, so that the damage of arbor root Position is more not readily susceptible to infect, so that the water absorbing capacity of root is more not readily susceptible to influence, and then is conducive to subtract The water absorption of few arbor is difficult to the case where surviving less than evaporation capacity, is conducive to improve the survival rate after arbor transplanting.

The present invention is further arranged to: in the step S1, before arbor is excavated, first being soaked soil.

By adopting the above technical scheme, by first soaking soil before excavating arbor, be conducive to improve soil Fluffy degree, so that arbor is easier to be mined out, so that the dredge operation of arbor is easier.

The present invention is further arranged to: in the step S2, the mass ratio of soil and culture solution in culture soil is 4- 6:1。

By adopting the above technical scheme, by controlling the mixed proportion of soil and culture solution, be conducive to nutrient solution and preferably seep Through soil earth is simultaneously uniformly distributed in soil, to be conducive to the nutritional ingredient that arbor root preferably absorbs culture soil, favorably Damaged portion in arbor root is preferably repaired, so that the absorbability of arbor root is more not readily susceptible to shadow It rings, the water absorption for advantageously reducing arbor is less than evaporation capacity and arbor is made to be difficult to the case where surviving, and is conducive to improve arbor shifting Survival rate after plant.

The present invention is further arranged to: in the step S3, the diameter of soil ball is 8-10 times of the diameter of arbor, soil ball Height is the 2/3 of soil ball diameter.

By adopting the above technical scheme, by controlling the size of soil ball, be conducive to arbor root and preferably drawn from compost Nutriment and moisture are taken, meanwhile, be conducive to compost and more completely wrap up arbor root, so that it is more preferable to be conducive to arbor root Ground is contacted with compost, so that the repair ability of root is stronger, so that the water absorbing capacity of arbor root is more not susceptible to To influence, the water absorption for advantageously reducing arbor is less than evaporation capacity and arbor is made to be difficult to the case where surviving, and is conducive to improve tall Survival rate after wood transplanting.

The present invention is further arranged to: in the step S4, before arbor transport, first being repaired to the branches and leaves of arbor It cuts, and coats bactericidal liquid in the knife-edge part of trimming.

By adopting the above technical scheme, by first trimming, advantageously reducing to the branches and leaves of arbor before arbor is transported The rising area of arbor, so that the water evaporation quantity of arbor is advantageously reduced, so that arbor is easier to survive, favorably In the survival rate for improving arbor；Bactericidal liquid is coated by the knife-edge part in trimming, so that the knife-edge part of trimming is not readily susceptible to feel Dye, to be conducive to improve the survival rate of arbor.

The present invention is further arranged to: the culture solution further includes the component of following mass fraction:

1-3 parts of citric acid；

0.5-1 parts of diphenyl phosphate.

By adopting the above technical scheme, it is used in compounding by the way that citric acid is added with diphenyl phosphate, may advantageously facilitate arbor root Absorption of the portion to nutriment and moisture, so that the water absorption for advantageously reducing arbor is less than the evaporation capacity of arbor and is difficult to survive The case where, and then be conducive to improve the survival rate of arbor；Meanwhile diphenyl phosphate also helps the permeability of enhancing citric acid, So that citric acid is conducive to citric acid and is easier to infiltrate into arbor root while being easier uniformly penetrating into soil, thus Be conducive to enhance the water absorbing capacity of arbor root, be difficult to survive less than evaporation capacity so that arbor is more not easy to occur water absorption The case where, and then be conducive to improve the survival rate of arbor.

The present invention is further arranged to: the culture solution further includes the component of following mass fraction:

Acetyl group-lysyl-prolyl -0.1-0.3 parts of valine amide.

By adopting the above technical scheme, by the way that acetyl group-lysyl-prolyl-valine amide is added, be conducive to enhance arbor Rootability, meanwhile, may advantageously facilitate the water suction of arbor root, so that arbor, which is more not easy to occur water absorption, is less than evaporation It measures and is difficult to the case where surviving, and then be conducive to improve the survival rate of arbor.

The present invention is further arranged to: the culture solution further includes the component of following mass fraction:

0.3-0.5 parts of diethyl aminoethyl hexanoate.

By adopting the above technical scheme, by the way that diethyl aminoethyl hexanoate is added, it may advantageously facilitate the growth of arbor, so that the energy of taking root of arbor Power and growth ability are stronger, to may advantageously facilitate the water suction of arbor root, so that arbor is more not easy water absorption occur It is difficult to the case where surviving less than evaporation capacity, and then is conducive to improve the survival rate of arbor.

The present invention is further arranged to: the culture solution further includes the component of following mass fraction:

3-5 parts of amino acid.

By adopting the above technical scheme, by the way that amino acid is added, be conducive to culture soil and preferably provide battalion for Tree growth Substance is supported, thus may advantageously facilitate the growth of arbor, meanwhile, be conducive to the survival rate for improving arbor.

In conclusion the invention has the following advantages:

1. by using taking root liquid, dodecyl benzyl dimethyl ammonium chloride, chloropyuril and 2- (4- chlorophenoxy) nicotinoyl Amine coordinated is conducive to the rootability for enhancing arbor, is conducive to arbor root and preferably absorbs moisture, advantageously reduce Qiao The water absorption of wood is difficult to the case where surviving less than evaporation capacity, is conducive to improve the survival rate after arbor transplanting；

2. by using taking root liquid, dodecyl benzyl dimethyl ammonium chloride, chloropyuril and 2- (4- chlorophenoxy) nicotinoyl Amine is used in compounding, and the damaged portion for repairing arbor root is also helped, so that the damage location of arbor root is more not susceptible to To infection, so that the water absorbing capacity of root is more not readily susceptible to influence, the water absorption of arbor is advantageously reduced less than evaporation capacity And it is difficult to the case where surviving, be conducive to improve the survival rate after arbor transplanting；

3. being conducive to nutrient solution preferably permeable soil by the mixed proportion of control soil and culture solution and being uniformly distributed In soil, is conducive to the nutritional ingredient that arbor root preferably absorbs culture soil, is conducive to the damaged portion of arbor root It is preferably repaired, the water absorption for advantageously reducing arbor is less than evaporation capacity and arbor is made to be difficult to the case where surviving, and is conducive to Survival rate after improving arbor transplanting.

Detailed description of the invention

Fig. 1 is the process flow diagram of arbor transplantation method in the present invention.

Specific embodiment

With reference to the accompanying drawings and embodiments, invention is further described in detail.

In following embodiment, bactericidal liquid uses the article No. of Jinan Long Shengjia hat Machinery Co., Ltd. for the bactericidal liquid of S0091.

In following embodiment, taking root liquid uses the article No. of Ke Linong light carbon energy research and development Co., Ltd in Qingdao for rswx's Taking root liquid.

In following embodiment, dodecyl benzyl dimethyl ammonium chloride uses the goods of Hubei Yuancheng Saichuang Technology Co., Ltd. Number be y715 dodecyl benzyl dimethyl ammonium chloride.

In following embodiment, chloropyuril use the article No. of Zhengzhou Xin Lian biochemical technology Co., Ltd for 8229184216 chlorine Pyrrole urea.

In following embodiment, 2- (4- chlorophenoxy) niacinamide use the article No. of Beijing lark prestige Science and Technology Ltd. for 2- (4- chlorophenoxy) niacinamide of OR21709.

In following embodiment, citric acid use Rugao City day at the article No. of Chemical Co., Ltd. for 021 citric acid.

In following embodiment, diphenyl phosphate uses the diphenyl phosphate of Shanghai Lian Shuo Biotechnology Co., Ltd.

In following embodiment, acetyl group-lysyl-prolyl-valine amide uses the limited public affairs of Nanjing peptide industry biotechnology The article No. of department is acetyl group-lysyl-prolyl-valine amide of NJTY-9860.

In following embodiment, diethyl aminoethyl hexanoate uses the article No. of Shanghai Jin Sui Biotechnology Co., Ltd for the amine of J43418-25g Fresh ester.

In following embodiment, amino acid uses the amino acid of Jinan cleer sea Chemical Co., Ltd..

Embodiment 1

A kind of arbor transplantation method, comprising the following steps:

S1, arbor are excavated, specific as follows:

The excavations position of selected arbor and the excavation position for marking arbor, and arbor excavate position and arbor trunk away from From 5 times not less than arbor diameter, in the present embodiment, the excavation position of arbor is arbor diameter at a distance from arbor trunk 7 times, then along mark position by arbor excavate get up.

S2, preparation culture soil, specific as follows:

First soil is put into container, culture solution is then poured into soil, wherein the mass ratio of soil and culture solution is 3:1。

S3, package culture soil, specific as follows:

Resulting culture soil will be prepared in step S2 be placed in and be used to wrap up the plastic foil of arbor, then by arbor root Soil be rinsed with water completely, then the root of arbor is wrapped up with plastic foil, so that the root of arbor is completely disposed at compost In earth, and straw rope is used to tighten plastic foil opening to form soil ball, wherein the diameter of soil ball is 7 times of the diameter of arbor, soil ball Height be soil ball diameter 1/2.

S4, arbor plant, specific as follows:

The position of plantation hole is marked according to design drawing and excavates plantation hole along mark position, then transports arbor to cultivation Position is planted, and arbor is lifted into plantation hole, while soil ball is stood in plantation hole, straw rope is then unclamped and to wrap up Film scatters, then prepares resulting culture soil using step S2 and compacting is filled up in the gap of soil ball and plantation hole inner wall, that is, completes The transplanting of arbor.

Wherein, culture solution includes following components:

Taking root liquid 13kg；Dodecyl benzyl dimethyl ammonium chloride 30kg；Chloropyuril 20kg；2- (4- chlorophenoxy) nicotinoyl Amine 13kg.

Culture solution the preparation method is as follows:

It in the stirred tank of 100L, under normal temperature condition, is stirred with the revolving speed of 300r/min, is added takes root while stirring Liquid 13kg, dodecyl benzyl dimethyl ammonium chloride 30kg, chloropyuril 20kg, 2- (4- chlorophenoxy) niacinamide 13kg, stirring Uniformly to get culture solution.

Embodiment 2

The difference from embodiment 1 is that:

Culture solution includes following components:

Taking root liquid 18kg；Dodecyl benzyl dimethyl ammonium chloride 25kg；Chloropyuril 22.5kg；2- (4- chlorophenoxy) cigarette Amide 11.5kg.

Culture solution the preparation method is as follows:

It in the stirred tank of 100L, under normal temperature condition, is stirred with the revolving speed of 300r/min, is added takes root while stirring Liquid 18kg, dodecyl benzyl dimethyl ammonium chloride 25kg, chloropyuril 22.5kg, 2- (4- chlorophenoxy) niacinamide 11.5kg, It stirs evenly to get culture solution.

Embodiment 3

The difference from embodiment 1 is that:

Culture solution includes following components:

Taking root liquid 15.5kg；Dodecyl benzyl dimethyl ammonium chloride 27.5kg；Chloropyuril 25kg；2- (4- chlorophenoxy) Niacinamide 10kg.

Culture solution the preparation method is as follows:

It in the stirred tank of 100L, under normal temperature condition, is stirred with the revolving speed of 300r/min, is added takes root while stirring Liquid 15.5kg, dodecyl benzyl dimethyl ammonium chloride 27.5kg, chloropyuril 25kg, 2- (4- chlorophenoxy) niacinamide 10kg, It stirs evenly to get culture solution.

Embodiment 4

The difference from embodiment 1 is that:

Culture solution includes following components:

Taking root liquid 16kg；Dodecyl benzyl dimethyl ammonium chloride 26kg；Chloropyuril 24kg；2- (4- chlorophenoxy) nicotinoyl Amine 12kg.

Culture solution the preparation method is as follows:

It in the stirred tank of 100L, under normal temperature condition, is stirred with the revolving speed of 300r/min, is added takes root while stirring Liquid 16kg, dodecyl benzyl dimethyl ammonium chloride 26kg, chloropyuril 24kg, 2- (4- chlorophenoxy) niacinamide 12kg, stirring Uniformly to get culture solution.

Embodiment 5

Difference with embodiment 4 is:

In step sl, it before excavating arbor, first pours water into soil, so that soil is completely wet.

In step s 2, the mass ratio of soil and culture solution is 4:1.

In step s3, the diameter of soil ball is 8 times of the diameter of arbor, and the height of soil ball is the 2/3 of soil ball diameter.

In step s 4, before arbor transport, first the branches and leaves on arbor are trimmed, and in the trimming edge of a knife of branches and leaves Bactericidal liquid is smeared at place, then the branches and leaves of arbor are tied up to reduce the extension degree of arbor branches and leaves, so that the transport of arbor accounts for Ground area reduces；After arbor lifts again and enters plantation hole, the binding to the branches and leaves of arbor is unclamped again, so that arbor is again extensive The degree of multiple full extension.

Embodiment 6

Difference with embodiment 5 is:

In step s 2, the mass ratio of soil and culture solution is 5:1.

In step s3, the diameter of soil ball is 9 times of the diameter of arbor, and the height of soil ball is the 2/3 of soil ball diameter.

Embodiment 7

Difference with embodiment 5 is:

In step s 2, the mass ratio of soil and culture solution is 6:1.

In step s3, the diameter of soil ball is 10 times of the diameter of arbor, and the height of soil ball is the 2/3 of soil ball diameter.

Embodiment 8

Difference with embodiment 5 is:

In step s 2, the mass ratio of soil and culture solution is 5.5:1.

In step s3, the diameter of soil ball is 8.5 times of the diameter of arbor, and the height of soil ball is the 2/3 of soil ball diameter.

Embodiment 9

Difference with embodiment 8 is:

Culture solution further includes following components:

Citric acid 1kg；Diphenyl phosphate 1kg.

Wherein, citric acid and diphenyl phosphate, which are added together with other components, stirs evenly into stirred tank to be formed Culture solution.

Embodiment 10

Difference with embodiment 8 is:

Culture solution further includes following components:

Citric acid 3kg；Diphenyl phosphate 0.5kg.

Wherein, citric acid and diphenyl phosphate, which are added together with other components, stirs evenly into stirred tank to be formed Culture solution.

Embodiment 11

Difference with embodiment 8 is:

Culture solution further includes following components:

Diphenyl phosphate 0.5kg.

Wherein, diphenyl phosphate, which is added into stirred tank together with other components, stirs evenly to form culture solution.

Embodiment 12

Difference with embodiment 8 is:

Culture solution further includes following components:

Citric acid 3kg.

Wherein, citric acid, which is added into stirred tank together with other components, stirs evenly to form culture solution.

Embodiment 13

Difference with embodiment 8 is:

Culture solution further includes following components:

Citric acid 3kg；Diphenyl phosphate 1kg；Acetyl group-lysyl-prolyl-valine amide 0.2kg；Diethyl aminoethyl hexanoate 0.3kg；Amino acid 3kg.

Wherein, the above component is added together with other components and is stirred evenly into stirred tank to form culture solution.

Embodiment 14

Difference with embodiment 8 is:

Culture solution further includes following components:

Citric acid 2kg；Diphenyl phosphate 0.5kg；Acetyl group-lysyl-prolyl-valine amide 0.1kg；Diethyl aminoethyl hexanoate 0.4kg；Amino acid 4kg.

Wherein, the above component is added together with other components and is stirred evenly into stirred tank to form culture solution.

Embodiment 15

Difference with embodiment 8 is:

Culture solution further includes following components:

Citric acid 1kg；Diphenyl phosphate 0.75kg；Acetyl group-lysyl-prolyl-valine amide 0.3kg；Diethyl aminoethyl hexanoate 0.5kg；Amino acid 5kg.

Wherein, the above component is added together with other components and is stirred evenly into stirred tank to form culture solution.

Embodiment 16

Difference with embodiment 8 is:

Culture solution further includes following components:

Citric acid 1.5kg；Diphenyl phosphate 0.9kg；Acetyl group-lysyl-prolyl-valine amide 0.15kg；Amine is fresh Ester 0.35kg；Amino acid 4.5kg.

Wherein, the above component is added together with other components and is stirred evenly into stirred tank to form culture solution.

Comparative example 1

Difference with embodiment 16 is: lacking component taking root liquid in culture solution.

Comparative example 2

Difference with embodiment 16 is: lacking component dodecyl benzyl dimethyl ammonium chloride in culture solution.

Comparative example 3

Difference with embodiment 16 is: lacking component chloropyuril in culture solution.

Comparative example 4

Difference with embodiment 16 is: lacking a group 2- (4- chlorophenoxy) niacinamide in culture solution.

Experiment 1

Transplant the arbor of the identical age of tree using the transplantation method of above embodiments and comparative example, and each embodiment and The method of comparative example transplants 50 arbors, records that arbor also survives after transplanting 1 year in above embodiments and comparative example Number ().

The detection data tested above is shown in Table 1.

Table 1

It can be obtained according to the data comparison of embodiment 1-4 in table 1, by controlling the dosage of culture solution each component, be conducive to promote Moisture and nutriment are absorbed preferably into arbor preferably to grow, to be conducive to improve the survival rate of arbor.

Can be obtained according to the data comparison of embodiment 4 in table 1 and embodiment 5, by increase first by soil wetting operation with And increases trimming leaf and coat the operation of bactericidal liquid in trimming knife-edge part, and by controlling soil and culture in culture soil The mass ratio of liquid and the diameter and height for controlling soil ball, are conducive to arbor and absorb moisture and nutriment preferably with more preferable Ground growth, to be conducive to improve the survival rate of arbor.

It can be obtained according to the data comparison of embodiment 5-8 in table 1, pass through the matter of soil and culture solution in control culture soil The diameter and height of amount ratio and control soil ball, be conducive to culture soil preferably wraps arbor root completely, to be conducive to Arbor preferably absorbs nutritional ingredient and moisture in culture soil, and then is conducive to arbor and preferably grows, so that arbor Survival rate improve.

It can be obtained according to the data comparison of embodiment 8-10 in table 1, by the way that citric acid and diphenyl phosphate is added, be conducive to Promote arbor preferably to absorb moisture and nutriment, preferably grown to be conducive to arbor, and then is conducive to improve tall The survival rate of wood.

It can be obtained according to the data comparison of embodiment 10-12 in table 1, only be matched when citric acid cooperates with mutually with diphenyl phosphate When conjunction, the effect for promoting arbor preferably to absorb moisture and nutriment can be just better played, so that the survival rate of arbor It is higher, lack any component, has been easy to have an impact the survival rate of arbor.

It can be obtained according to embodiment 8 in table 1 and the data comparison of embodiment 13-15, by the way that citric acid, phosphoric acid hexichol is added Ester, acetyl group-lysyl-prolyl-valine amide, diethyl aminoethyl hexanoate and amino acid, may advantageously facilitate arbor root and preferably inhale Moisture and nutriment are received, is preferably grown to be conducive to arbor, so that the survival rate of arbor is higher.

It can be obtained according to the data comparison of embodiment 13-16 in table 1, by controlling the dosage of each component, may advantageously facilitate Qiao The wooden root preferably absorbs moisture and nutriment, preferably grows to be conducive to arbor, so that the survival rate of arbor is more It is high.

It can be obtained according to embodiment 16 in table 1 and the data comparison of comparative example 1-4, only when taking root liquid, dimethyl When base benzyl ammonium chloride, chloropyuril and the mutual coordinated of 2- (4- chlorophenoxy) niacinamide, promotion can be just better played The effect of arbor root absorption moisture and nutriment is preferably grown to be conducive to arbor, so that the survival rate of arbor It is higher.

This specific embodiment is only explanation of the invention, is not limitation of the present invention, those skilled in the art Member can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but as long as at this All by the protection of Patent Law in the scope of the claims of invention.

Claims (9)

1. a kind of arbor transplantation method, it is characterized in that: the following steps are included:

S1, arbor are excavated: arbor is dug out from soil；

S2, preparation culture soil: culture soil is mixed to form using soil and culture solution；

S3, package culture soil: it is placed in resulting culture soil is prepared in the step S2 in wrap film, and by arbor root Soil clean out, then the root of arbor is wrapped up using wrap film so that the root of arbor is placed in culture soil, and Wrap film is tightened to form soil ball；

S4, arbor plant: excavating plantation hole according to design drawing, then transports arbor to plant position, and arbor is lifted Into plantation hole, unclamps wrap film and resulting culture soil is prepared using step S2 and fill out soil ball and the gap of plantation hole inner wall Full compacting, that is, complete the transplanting of arbor；

Wherein, the culture solution includes the component of following mass fraction:

13-18 parts of taking root liquid；

25-30 parts of dodecyl benzyl dimethyl ammonium chloride；

20-25 parts of chloropyuril；

2-(4- chlorophenoxy) 10-13 parts of niacinamide.

2. arbor transplantation method according to claim 1, it is characterized in that: arbor is excavated it in the step S1 Before, first soil is soaked.

3. arbor transplantation method according to claim 1, it is characterized in that: in the step S2, the soil in culture soil Mass ratio with culture solution is 4-6:1.

4. arbor transplantation method according to claim 1, it is characterized in that: the diameter of soil ball is arbor in the step S3 8-10 times of diameter, the height of soil ball is the 2/3 of soil ball diameter.

5. arbor transplantation method according to claim 1, it is characterized in that: in the step S4, before arbor transport, first The branches and leaves of arbor are trimmed, and coat bactericidal liquid in the knife-edge part of trimming.

6. -5 any arbor transplantation method according to claim 1, it is characterized in that: the culture solution further includes following quality The component of number:

1-3 parts of citric acid；

0.5-1 parts of diphenyl phosphate.

7. -5 any arbor transplantation method according to claim 1, it is characterized in that: the culture solution further includes following quality The component of number:

Acetyl group-lysyl-prolyl -0.1-0.3 parts of valine amide.

8. -5 any arbor transplantation method according to claim 1, it is characterized in that: the culture solution further includes following quality The component of number:

0.3-0.5 parts of diethyl aminoethyl hexanoate.

9. -5 any arbor transplantation method according to claim 1, it is characterized in that: the culture solution further includes following quality The component of number:

3-5 parts of amino acid.