CN114467671A - High-survival-rate arbor transplanting method - Google Patents

Abstract

The invention discloses a high-survival-rate arbor transplanting method, which comprises the following steps: selecting an arbor to be transplanted and trimming branches of the arbor; digging out the arbor and reserving soil balls with the diameter more than twice the ground diameter of the arbor after 5 days of pruning branches of the arbor; spraying a bactericide and a plant ash leaching solution on the surface of the soil ball; digging a spherical transplanting pit at the transplanting position, and paving a priming soil layer and backfilling soil in the spherical transplanting pit; transplanting arbors into the spherical transplanting pits, and filling nutrient soil layers into the spherical transplanting pits; laying plant ash and soil on the nutrient soil layer, and irrigating and compacting. The high-survival-rate arbor transplanting method can achieve the effects of promoting the root system recovery speed of arbors and improving the arbor transplanting stock rate.

Description

High-survival-rate arbor transplanting method

Technical Field

The invention relates to a tree transplanting method, in particular to a high-survival-rate arbor transplanting method.

Background

The tree transplantation is one of necessary technologies for landscaping, and further highlights the level of landscaping engineers. The trees are transplanted, and the trees are applied to all big cities in the 90 s, and the Zhejiang river zones such as Shanghai are the first time. After the real estate industry has prosperous, tree transplantation is established on a large scale, driven by capital in economic interest.

In the present arbor transplanting process, the arbor generally all has certain age, and the trunk is generally bigger than great, and the transpiration area of branch and leaf is also bigger, and the regeneration capacity of the root system of arbor also can descend, make the root system after the damage resume slowly, new root emergence ability is relatively weak, thereby make the transpiration area of branch and leaf far exceed the absorption area of root system easily, and then make the arbor die because of the dehydration easily, make the problem that the arbor survival rate reduces of transplanting, therefore need improve.

Disclosure of Invention

In view of the defects of the conventional tree transplanting method, the invention provides the tree transplanting method with high survival rate, which can achieve the effects of promoting the root recovery speed of the trees and improving the stock rate of the transplanted trees.

In order to achieve the purpose, the invention adopts the following technical scheme:

a high survival rate arbor transplanting method comprises the following steps:

selecting an arbor to be transplanted and trimming branches of the arbor;

digging out the arbor and reserving soil balls with the diameter more than twice the ground diameter of the arbor after 5 days of pruning branches of the arbor;

spraying a bactericide and a plant ash leaching solution on the surface of the soil ball;

digging a spherical transplanting pit at the transplanting position, and laying a priming soil layer and backfill soil in the spherical transplanting pit;

transplanting arbors into the spherical transplanting pits, and filling nutrient soil layers into the spherical transplanting pits;

laying plant ash and soil on the nutrient soil layer, and irrigating and compacting.

According to one aspect of the invention, the high-survival-rate arbor transplanting method further comprises the steps of watering the transplanted arbor for 3-5 times within 30 days after arbor transplanting is finished, injecting rooting liquid by a root injection method after arbor transplanting is finished, and inputting nutrient solution into the trunk by a trunk dripping method.

According to one aspect of the invention, the high-survival-rate arbor transplanting method further comprises spraying growth hormone to the trunk of the arbor, closing plant stomata and promoting plant dormancy if the current season is a non-transplanting season.

According to one aspect of the invention, the selection of the trees to be transplanted and the pruning of the branches of the trees are specifically as follows: selecting trees without insect pests and diseases and with regular branches and crowns as transplanted trees, trimming off young branches and leaves, external branch leaves, insect pests branches and leaves and stasis branches, and treating the trimmed cuts with a Shushang smearing agent.

According to one aspect of the invention, digging out the arbor and reserving the soil balls with the diameter more than twice of the ground diameter of the arbor after 5 days of pruning the branches of the arbor are as follows: digging out the trunk of the arbor within 5-8 days after pruning the branches of the arbor, and keeping the hemispherical soil balls at the root of the arbor, wherein the diameter of the soil balls is 2-3 times of the ground diameter of the arbor, and the height of the soil balls is 70-80% of the diameter of the soil balls;

according to one aspect of the invention, the digging of the spherical transplantation pit at the transplantation position, and the laying of the priming soil layer and the backfill soil in the spherical transplantation pit are specifically as follows: digging a spherical transplanting pit with the volume larger than that of the soil ball at the transplanting position, and laying a priming soil layer and backfill at the bottom of the spherical transplanting pit, wherein the backfill comprises 10-20% of soil, 30-35% of perlite and 30-35% of humus.

According to one aspect of the invention, the transplanting of the arbor into the spherical transplanting pit, and the filling of the nutrient soil layer in the spherical transplanting pit is specifically as follows: and (3) adopting a crane to implant the arbor into the spherical transplanting pit according to the body type of the arbor, and filling a nutrient soil layer into the spherical transplanting pit until the spherical transplanting pit is filled to 80% of the height after the arbor is transplanted into the spherical transplanting pit.

According to one aspect of the invention, the step of paving plant ash and soil on the nutrient soil layer and the step of irrigating and compacting is to pave a layer of plant ash on the nutrient soil layer, then pave soil and compact all soil layers filled in the spherical transplanting pit by irrigating.

According to one aspect of the invention, the root injection method is that a hole is punched on the root by using a punching machine, and then the rooting agent solution is injected into the tree body through the punched hole; the rooting solution is prepared by mixing the rooting agent according to the weight ratio of 1: 50-80 is dissolved in water.

The implementation of the invention has the advantages that:

the invention discloses an arbor high-survival-rate transplanting method, which comprises the following steps: selecting an arbor to be transplanted and trimming branches of the arbor; digging out the arbor and reserving soil balls with the diameter more than twice the ground diameter of the arbor after 5 days of pruning branches of the arbor; spraying a bactericide and a plant ash leaching solution on the surface of the soil ball; digging a spherical transplanting pit at the transplanting position, and laying a priming soil layer and backfill soil in the spherical transplanting pit; transplanting arbors into the spherical transplanting pits, and filling nutrient soil layers into the spherical transplanting pits; laying plant ash and soil on the nutrient soil layer, and irrigating and compacting. The high-survival-rate arbor transplanting method can achieve the effects of promoting the root system recovery speed of arbors and improving the arbor transplanting stock rate.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic flow chart of an embodiment 1 of a high survival rate arbor transplanting method according to the present invention;

fig. 2 is a schematic flow chart of an embodiment 2 of the high survival rate arbor transplanting method according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

as shown in fig. 1, a high survival rate transplanting method for an arbor, the high survival rate transplanting method for the arbor comprises the following steps:

s1, selecting an arbor to be transplanted and trimming the branches of the arbor;

in this embodiment, the selecting an arbor to be transplanted and trimming branches of the arbor specifically include: selecting trees without insect pests and diseases and with regular branches and crowns as transplanted trees, trimming off young branches and leaves, external branch leaves, insect pests branches and leaves and stasis branches, and treating the trimmed cuts with a Shushang smearing agent.

In the in-service use, select suitable arbor and can guarantee that the state of arbor is good, can reduce the existence of arbor problem branch through the branch of building the arbor, also can reduce the transpiration area of arbor, and then reduce the water loss of arbor, and then promote the transplantation survival rate of arbor, the bruise smearing agent can make the incision heal as early as possible, reduces moisture and scatters and disappears.

In actual use, if the current season is a non-transplanting season, growth hormone is sprayed to the trunk of the arbor, plant stomata are closed, and plant dormancy is promoted.

S2, digging out the arbor and reserving soil balls with the diameter more than twice the ground diameter of the arbor after pruning branches of the arbor for 5 days;

in this embodiment, digging out the arbor and reserving the earth ball with more than twice the diameter of the arbor after pruning the branches of the arbor for 5 days is specifically: digging out the trunk of the arbor within 5-8 days after pruning branches of the arbor, keeping the hemispherical soil balls at the root of the arbor, wherein the diameter of the soil balls is 2-3 times of the diameter of the arbor, the height of the soil balls is 70-80% of the diameter of the soil balls, and the diameter measurement position is 20 centimeters above the ground;

in the in-service use, through the reservation of soil ball, the root system of some arbor of reservation that can be complete guarantees the root system moisture absorbing capacity of arbor, and then improves the survival rate of arbor.

S3, spraying a bactericide and a plant ash leaching solution on the surface of the soil ball;

in the in-service use, spraying germicide and plant ash leachate to the soil ball surface can improve the root system recovery and the new root incidence of arbor, and then improve the moisture root system absorbing area of arbor, and then improved the survival rate of arbor.

S4, digging a spherical transplanting pit at the transplanting position, and laying a priming soil layer and backfill soil in the spherical transplanting pit;

in this embodiment, the digging of the spherical transplantation pit at the transplantation position, and the laying of the priming soil layer and the backfill soil in the spherical transplantation pit specifically include: digging a spherical transplanting pit with the volume larger than that of the soil ball at the transplanting position, and laying a priming soil layer and backfill at the bottom of the spherical transplanting pit, wherein the backfill comprises 10-20% of soil, 30-35% of perlite and 30-35% of humus.

S5, transplanting the arbor into the spherical transplanting pit, and filling a nutrient soil layer in the spherical transplanting pit;

in this embodiment, the transplanting the arbor into the spherical transplanting pit, and filling the nutritional soil layer in the spherical transplanting pit specifically includes: the method comprises the steps of adopting a crane to plant the arbor into a spherical transplanting pit according to the body type of the arbor, filling a nutrient soil layer into the spherical transplanting pit until the spherical transplanting pit is filled to 80% of the height after the arbor is transplanted into the spherical transplanting pit, wherein the nutrient soil is generally mixed by fertile field soil and decomposed animal manure.

S6, paving plant ash and soil on the nutrient soil layer, and irrigating and compacting.

In this embodiment, the step of laying plant ash and soil on the nutrient soil layer and compacting by watering specifically includes the steps of laying a layer of plant ash on the nutrient soil layer, laying soil again, and compacting each soil layer filled in the spherical transplanting pit by watering.

The implementation of the invention has the advantages that:

the invention discloses a high-survival-rate arbor transplanting method, which comprises the following steps: selecting an arbor to be transplanted and trimming branches of the arbor; digging out the arbor and reserving soil balls with the diameter more than twice of the ground diameter of the arbor after 5 days of pruning branches of the arbor; spraying a bactericide and a plant ash leaching solution on the surface of the soil ball; digging a spherical transplanting pit at the transplanting position, and laying a priming soil layer and backfill soil in the spherical transplanting pit; transplanting arbors into the spherical transplanting pits, and filling nutrient soil layers into the spherical transplanting pits; laying plant ash and soil on the nutrient soil layer, and irrigating and compacting. The high-survival-rate arbor transplanting method can achieve the effects of promoting the root system recovery speed of arbors and improving the arbor transplanting stock rate.

Example two:

as shown in fig. 2, a high survival rate transplanting method for an arbor, the high survival rate transplanting method for the arbor comprises the following steps:

s1, selecting the arbor to be transplanted and trimming the branch of the arbor;

in this embodiment, the selecting an arbor to be transplanted and trimming branches of the arbor specifically include: selecting trees without insect pests and diseases and with regular branches and crowns as transplanted trees, trimming off young branches and leaves, external branch leaves, insect pests branches and leaves and stasis branches, and treating the trimmed cuts with a Shushang smearing agent.

In the in-service use, select suitable arbor and can guarantee that the state of arbor is good, can reduce the existence of arbor problem branch through the branch of building the arbor, also can reduce the transpiration area of arbor, and then reduce the water loss of arbor, and then promote the transplantation survival rate of arbor, the bruise smearing agent can make the incision heal as early as possible, reduces moisture and scatters and disappears.

In actual use, if the current season is a non-transplanting season, growth hormone is sprayed to the trunk of the arbor, plant stomata are closed, and plant dormancy is promoted.

S2, digging out the arbor and reserving soil balls with the diameter more than twice the ground diameter of the arbor after pruning branches of the arbor for 5 days;

in this embodiment, digging out the arbor and reserving the earth ball with more than twice the diameter of the arbor after pruning the branches of the arbor for 5 days is specifically: digging out the trunk of the arbor within 5-8 days after pruning branches of the arbor, keeping the hemispherical soil balls at the root of the arbor, wherein the diameter of the soil balls is 2-3 times of the diameter of the arbor, the height of the soil balls is 70-80% of the diameter of the soil balls, and the diameter measurement position is 20 centimeters above the ground;

in the in-service use, through the reservation of soil ball, the root system of some arbor of reservation that can be complete guarantees the root system moisture absorbing capacity of arbor, and then improves the survival rate of arbor.

S3, spraying a bactericide and a plant ash leaching solution on the surface of the soil ball;

in the in-service use, spraying germicide and plant ash leachate to the earth ball surface can improve the root system recovery and the new root incidence of arbor, and then improve the moisture root system absorption area of arbor, and then improved the survival rate of arbor.

S4, digging a spherical transplanting pit at the transplanting position, and laying a priming soil layer and backfill soil in the spherical transplanting pit;

in this embodiment, the digging of the spherical transplantation pit at the transplantation position, and the laying of the priming soil layer and the backfill soil in the spherical transplantation pit specifically include: digging a spherical transplanting pit with the volume larger than that of the soil ball at the transplanting position, and laying a priming soil layer and backfill at the bottom of the spherical transplanting pit, wherein the backfill comprises 10-20% of soil, 30-35% of perlite and 30-35% of humus.

S5, transplanting the arbor into the spherical transplanting pit, and filling a nutrient soil layer into the spherical transplanting pit;

in this embodiment, the transplanting the arbor into the spherical transplanting pit, and filling the nutritional soil layer in the spherical transplanting pit specifically includes: and (3) adopting a crane to implant the arbor into the spherical transplanting pit according to the body type of the arbor, and filling a nutrient soil layer into the spherical transplanting pit until the spherical transplanting pit is filled to 80% of the height after the arbor is transplanted into the spherical transplanting pit.

S6, paving plant ash and soil on the nutrient soil layer, and irrigating and compacting.

In this embodiment, the step of laying plant ash and soil on the nutrient soil layer and compacting by watering specifically includes the steps of laying a layer of plant ash on the nutrient soil layer, laying soil again, and compacting each soil layer filled in the spherical transplanting pit by watering.

And S7, watering the transplanted arbor for 3-5 times within 30 days after the arbor transplantation is finished, injecting a rooting solution by a root injection method after the arbor transplantation is finished, and inputting a nutrient solution into the trunk by a trunk dripping method.

In this embodiment, the root injection method is to use a punch to punch a hole in the root, and then inject the rooting agent solution into the tree body through the punched hole; the rooting solution is prepared by mixing the rooting agent according to the weight ratio of 1: 50-80 is dissolved in water.

The rooting agent is used as the matter for regulating plant growth and development and has the main components of naphthylacetic acid, gibberellin, indoleacetic acid, etc.

In actual use, through subsequent maintenance of the trees, the rooting rate of the trees is improved, a humid environment is kept for the root system environment of the trees, the tree trunks are dripped with nutrient solution, the survival rate of the trees is further kept, and the nutrient solution mainly comprises natural BR, vitamin C, N, P, K which is not less than 10%, nitrogen, calcium, magnesium, boron, iron and other trace elements.

The implementation of the invention has the advantages that:

the invention discloses a high-survival-rate arbor transplanting method, which comprises the following steps: selecting an arbor to be transplanted and trimming branches of the arbor; digging out the arbor and reserving soil balls with the diameter more than twice the ground diameter of the arbor after 5 days of pruning branches of the arbor; spraying a bactericide and a plant ash leaching solution on the surface of the soil ball; digging a spherical transplanting pit at the transplanting position, and laying a priming soil layer and backfill soil in the spherical transplanting pit; transplanting arbors into the spherical transplanting pits, and filling nutrient soil layers into the spherical transplanting pits; laying plant ash and soil on the nutrient soil layer, and irrigating and compacting. The high-survival-rate arbor transplanting method can achieve the effects of promoting the root system recovery speed of arbors and improving the arbor transplanting stock rate.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention disclosed herein are intended to be covered by the scope of the present invention. Therefore, the protection scope of the present invention should be defined by the claims.

Claims (9)

1. A high survival rate arbor transplanting method is characterized in that: the arbor high-survival-rate transplanting method comprises the following steps:

selecting an arbor to be transplanted and trimming branches of the arbor;

digging out the arbor and reserving soil balls with the diameter more than twice the ground diameter of the arbor after 5 days of pruning branches of the arbor;

spraying a bactericide and a plant ash leaching solution on the surface of the soil ball;

digging a spherical transplanting pit at the transplanting position, and laying a priming soil layer and backfill soil in the spherical transplanting pit;

transplanting arbors into the spherical transplanting pits, and filling nutrient soil layers into the spherical transplanting pits;

laying plant ash and soil on the nutrient soil layer, and irrigating and compacting.

2. The high survival rate arbor transplantation method as defined in claim 1, further comprising: the selection of the arbor to be transplanted and the pruning of the branches of the arbor are specifically as follows: selecting trees without insect pests and diseases and with regular branches and crowns as transplanted trees, trimming off young branches and leaves, external branch leaves, insect pests branches and leaves and stasis branches, and treating the trimmed cuts with a Shushang smearing agent.

3. The high survival rate arbor transplantation method as defined in claim 1, further comprising: dig out the arbor and reserve the earth ball more than the arbor twice footpath specifically after pruning the branch of arbor 5 days: digging out the trunk of the arbor within 5-8 days after pruning the branches of the arbor, and keeping the hemispherical soil balls at the root of the arbor, wherein the diameter of the soil balls is 2-3 times of the ground diameter of the arbor, and the height of the soil balls is 70-80% of the diameter of the soil balls.

4. The high survival rate arbor transplantation method as defined in claim 1, further comprising: the method is characterized in that a spherical transplanting pit is dug at the transplanting position, and a priming soil layer and backfill soil are laid in the spherical transplanting pit: digging a spherical transplanting pit with the volume larger than that of the soil ball at the transplanting position, and laying a priming soil layer and backfill at the bottom of the spherical transplanting pit, wherein the backfill comprises 10-20% of soil, 30-35% of perlite and 30-35% of humus.

5. The high survival rate arbor transplantation method as defined in claim 1, further comprising: the method comprises the following steps of transplanting arbors into the spherical transplanting pit, and filling a nutrient soil layer in the spherical transplanting pit: and (3) adopting a crane to implant the arbor into the spherical transplanting pit according to the body type of the arbor, and filling a nutrient soil layer into the spherical transplanting pit until the spherical transplanting pit is filled to 80% of the height after the arbor is transplanted into the spherical transplanting pit.

6. The high survival rate arbor transplantation method as defined in claim 1, further comprising: the method comprises the steps of paving a layer of plant ash on a nutrient soil layer, paving soil, and compacting all soil layers filled in a spherical transplanting pit by irrigation.

7. A method of high survival rate grafting of trees according to any one of claims 1 to 6, wherein: the high-survival-rate arbor transplanting method further comprises the steps of watering the transplanted arbor for 3-5 times within 30 days after arbor transplanting is finished, injecting rooting liquid by a root injection method after arbor transplanting is finished, and inputting nutrient solution into the tree trunk by a trunk dropping method.

8. The high survival rate arbor transplantation method of claim 7, further comprising: the arbor high-survival-rate transplanting method further comprises the steps of spraying growth hormone to the trunk of the arbor, closing plant stomata and promoting plant dormancy if the current season is a non-transplanting season.

9. The high survival rate arbor transplantation method of claim 7, further comprising: the root injection method is that a hole is punched on the root by a punch, and then the rooting agent solution is injected into a tree body through the punched hole; the rooting solution is prepared by mixing the rooting agent according to the weight ratio of 1: 50-80 is dissolved in water.

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