KR101241461B1 - Method for forming planting soil for roots - Google Patents

Abstract

The present invention is to put the vegetation soil mixed with the soil improver in the lower part of the planting pit and to put the roots of the tree in the planting pit, the vegetation soil mixed with the soil improver around the tree placed in the planting pit to the depth of 5 to 30cm from the ground surface The method relates to a method for forming a tree planting ground, comprising the step of filling the soil after filling, and filling soil material having a large soil pore size and a low content of organic components over the vegetation soil to the ground surface. According to the present invention, the roots of the trees can be smoothly supplied with moisture and air so that the roots are well grown, and the myocardium of the tree roots can be induced in the vegetation soil mixed with the soil improver, Since hardening can be prevented and weeds can be prevented from growing around a tree, the mortality rate of the planted tree can be reduced.

Description

Method for forming planting soil for roots {Method for forming planting soil for roots}

The present invention relates to a method for arranging tree planting ground, wherein the topsoil part has large porosity and less organic components when arranging the tree planting ground, and the soil is used as a soil amendment material in the top soil layer to avoid root rooting and myocardium. I would have to.

Recently, as industrialization, urbanization, and income levels are increased, green areas are being created on a large scale as they seek pleasant, safe, and aesthetically beautiful scenery for improving the quality of life.

However, artificially planted trees grow in indigenous and heterogeneous environments, fail to adhere to them, grow poorly, and often die, and often have poor vegetation scenery due to poor maintenance. have.

Artificially planted trees may have various reasons for misadaptation, but the basic method of planting ground for planting is underdeveloped. The planting ground is the soil that allows the trees to extend their roots and is the birthplace of tree growth. Planting ground composition method is very important because the growth of trees depends on the quality of soil.

However, the existing planting ground composition method only digs tree planting pits, replaces bad soils, and mixes with soil improver to backfill the water. These methods are simple planting techniques of old age, and the plant growth environment is poor or not extremely advanced.

On the other hand, the transplantation of trees involves rooting to the roots to promote the rooting of the trees to be transplanted, excavating the trees, transporting them to the destination after loading them, and digging the transported trees in advance. It consists of a planting work in which the tree is oriented in the pit and planted in depth, and a tree management step of managing watering, drainage, and cold protection for the tree after planting.

However, even when planting trees, many trees do not stick well to the ground where they are transplanted, which causes the soil to harden or cut too much roots by planting the tree too deeply, or by excessive yielding after planting. There are a number of causes, including excessive use of fertilizers, insufficient watering after transplantation, or inadequate composting. Most importantly, however, when trees are transplanted to poorly drained soils, air and moisture are not supplied to the roots of trees and the trees planted in soil are hardened due to excessive pressure of humans, resulting in poor trees or dead trees. This is the case.

In particular, in the case of roadside trees, since most of the roadside trees are planted on paved roads and sidewalks such as concrete, asphalt, and sidewalk blocks, there is a lack of securing soil that can supply air or moisture to the roots compared to trees planted in mountains or fields. Even if it rains due to the concrete covering the ground, it is prevented from absorbing the rain into the ground, so it does not hold enough moisture around the trees.

In other words, in order for trees to grow effectively after transplanting, it is important to smoothly supply water, air, and nutrients to the roots of planted trees.

Regarding the planting method of trees and the method of inducing root myocardium of planted trees, Korean Patent Laid-Open Publication Nos. 2000-0030863 and 2002-0077310 disclose that drainage holes and / or perforated pipe columns are installed at the bottom of planting pits. The method of planting the Vigerus tree planting method for aeration and moisture supply to the planted tree, characterized in that the tree is filled with gravel, crushed stone, sand, or artificial soil in the drain hole and / or perforated pipe. It is disclosed. However, the above-described invention is uneconomical because it requires additional manpower and equipment because holes or pipes should be installed in the lower part of the planting pit, and it is not intended to supply air and moisture from the surface layer, but the surface layer is provided for the purpose of aeration and moisture supply. There is a problem that the trees may die because the air and moisture of the tree is not naturally supplied to the trees.

In addition, Korean Patent Laid-Open No. 2001-0086555 discloses that the roots of a tree whose physiological function of the root is significantly degraded due to the transplantation of trees are cut off and the weak roots are cut and then a rooting promoting ointment is applied, and then around the roots. The present invention discloses a method of root rooting and growth promotion of trees, characterized by covering up Masato and enclosing a mixture of coarse sand and gravel, and installing a perforated tube upright. However, the above-described invention has a problem that additional manpower is required because water and inorganic nutrients need to be directly injected into the oil pipes because it is necessary to install other facilities such as oil pipes for root rooting of trees.

In addition, the Republic of Korea Patent Publication No. 2001-0097767 is the soil environment of the tree to ensure that the air is continuously supplied to the soil around the tree by embedding the air pipe in the vertical direction around the soil on which the tree is planted The improvement device is disclosed. However, the disclosed invention is not clear whether the air can pass between the hard soil in the lower layer even if the air pipe is installed to supply sufficient air to the roots, and it is uneconomical because additional equipment is required.

Accordingly, the present inventors have attempted to invent a tree planting ground composition method for inducing myocardial rooting after tree planting, and as a result, the present invention has been completed.

One object of the present invention after filling the vegetation soil mixed with the soil improver in the lower part of the planting pit and filling the soil material with a large soil pore size and a small organic component to the ground surface so that moisture and air is not hardened at the pressure It is to provide a tree planting ground composition method to induce myocardial roots of the roots by smoothly supplied to the roots of the trees so that the roots grow well.

In the method of planting tree planting ground according to the present invention, the vegetation soil mixed with the soil improving agent is placed at a predetermined height in the lower part of the planting pit, and the roots of the tree are placed in the planting pit. And filling the soil to a depth of 5 to 30 cm from the ground surface, and filling the vegetation soil with soil material having a large soil pore size and low content of organic components to the ground surface.

Hereinafter, the tree planting ground composition method of the present invention will be described in detail with reference to FIGS. 1 to 3.

The tree planting ground composition method of the present invention, the first step is to put the vegetation soil mixed with the soil improver in the lower portion of the planting pit to a certain height to place the root of the tree in the planting pit.

In the present invention, the planting pit 10 is a pit formed in the soil for planting the tree 1, while picking up poor soil and harmful substances located around the pit hindering rooting or rooting while digging the pit. . In addition, the planting pit 10 is large enough to accommodate the roots of the tree to be planted, preferably 1.5 to 2.5 times larger than the size of the roots of the tree, the size of the planting pit 10 is 1.5 times If less than the tree (1) in the planting pit (10) after the lack of enough space to put the vegetation soil (20) mixed with the soil improver, there is a risk that the roots of the tree weakened, if it exceeds 2.5 times Inefficient compared to the case.

In addition, in the present invention, the planting pit 10 includes one or more, in the case of one or more, the planting pit 10 may be connected continuously without division as shown in Figure 3 to form a passage. Here, the planting pit 10 continuously connected to each other to form a passage is formed by excavating the base 60 as much as the depth of the planting pit 10 has a feature that is formed continuously to the same depth. In particular, in the case of planting a large number of trees to be connected to such a continuous division without forming a soil only once, so to avoid the waste of time and manpower by avoiding the soil every time planting trees will be economical.

In the present invention, the vegetation soil 20 mixed with the soil improving agent is not particularly limited in the present invention because it depends on the type of roadside tree and the soil state of the planting land. However, the soil improving agent included in the vegetation soil 20 is preferably contained in a 0.02 to 1 weight ratio relative to the weight of the vegetation soil. If the soil improver is included in less than 0.02 weight ratio of the weight of vegetation soil, the root growth of the roadside tree (1) planted may not be smooth. If it is included in excess of 1 weight ratio, the root before the growth of the tree roots due to overnutrition Is likely to rot and is uneconomical for its effectiveness.

In addition, aerobic microorganisms may be additionally added to the vegetation soil 20 mixed with the soil improving agent of the present invention. When the aerobic microorganism is added, the aerobic microorganism prevents harmful bacteria from invading the roots of roadside trees and helps the absorption of moisture and nutrients, thereby improving root growth.

In the present invention, the soil modifying agent is a product used to improve the physical and chemical properties of the soil to be suitable for plant growth, the type of the mineral modifying agent of the soil type bentonite, zeolite, pearlite, vermiculite, phosphate fertilizer, There are siliceous fertilizer, calcareous fertilizer, and the like, and organic soil improvers include straw, chaff, livestock manure, compost, sludge, organic fertilizer, etc., but the type is not limited thereto. The soil improver as described above serves to increase the growth of useful microorganisms and to provide conservative and bovine power to the soil, or to promote the formation of the soil granules to help the planted roots grow well.

In the present invention, the height of the vegetation soil 20 mixed with the soil improver put in the lower portion of the planting pit 10 can be determined differently depending on the variety and growth rate of the planted tree, preferably about 5 to 30cm.

Thus, put the vegetation soil (20) mixed with the soil improver to a certain height in the lower portion of the planting pit (10) to place the tree to be planted.

At this time, be careful not to damage the roots of the trees, and even if you take the tubular direction of the trees, if the roots touch the bottom of the pit, the powder may be destroyed or the roots may rot. In addition, when planting the tree too deep, it may cause dysfunction of tree growth, roots rot or inadequate root breathing, so that development may worsen and suffocate and die.

Here, the trees to be planted are not necessarily limited to this, but are deciduous trees whose leaves fall every year as a generic term for woody plants, evergreen trees that hang on branches for more than a year without falling leaves in winter, conifers with broad leaves, broad-leaved trees, etc. It includes. More specifically, the trees include persimmon, magnolia, cherry, zelkova, ginkgo, juniper, pine, juniper and the like.

In the next step, filling the vegetation soil 20 mixed with the soil modifier around the tree 1 placed in the planting pit 10 to a depth of 5 to 30 cm from the ground surface and then compacting.

By filling the vegetation soil 20 mixed with the soil improver in the planting pit 10 as the present invention around the tree 1, the slack of the soil, soil acidity, organic matter, soil that may occur during the transplantation of the tree 1 Salting can be prevented, and by supplying trace elements and natural nutrients, leaf blight, end blight, etc. due to trace element deficiency can be prevented.

However, when planting the vegetation soil 20 mixed with the soil modifier to the ground surface of the planting pit 10 during tree planting, the air permeability and drainage of the vegetation soil 20 mixed with the soil improver are not excellent. Water and air may not be supplied to the roots of the trees smoothly, which may cause the trees to die. If the filling is less than 30 cm from the ground surface, the roots of the trees may not be supplied with sufficient trace elements and nutrients, or the soil may have sufficient microorganisms. Since the tree is not proliferated and the tree does not grow healthy, the vegetation soil mixed with the soil modifier is preferably filled to a depth of 5 to 30 cm from the ground, preferably to a depth of 5 to 20 cm from the ground.

After filling the vegetation soil (20) mixed with the soil improver in the planting pit (10) and makes the water. Here, the compaction means to pour water into the vegetation soil 20 to firmly vegetation soil 20. Accordingly, the capillary phenomenon between the vegetation soil 20 and the base 60 and the capillary phenomenon between the vegetation soil 20 and the planted tree 1 may naturally occur.

On the other hand, before the bite may further comprise the step of installing a holding tree (not shown) in the roadside tree planted. The installation of the strut tree may be determined according to the size of the tree and the site conditions, the material of the strut tree, the installation method, the installation or the like, which can be easily determined by those skilled in the art.

In the next step, the soil material 30 having a large soil pore size and a low content of organic components on the vegetation soil is filled to the ground surface.

In the present invention, the soil material 30 refers to soils with large soil voids and low content of organic components. In other words, the soil material 30 has excellent water permeability and refers to soil without manure. Here, the soil having excellent permeability refers to soil having a permeability of 10 ^-3 to 10 ^-4 cm / s, and the soil having a low content of organic components is 0.01 mg per 1 g of soil, preferably 0.005 mg or less of organic matter, plant seeds or It refers to soil with very few living things. The soil material 30 is not limited thereto, but may include sato or sandy soil such as masato or fine sand. Soil material of the present invention has excellent water permeability, so even when a small rainfall of 5 to 10 mm falls, the rain is permeated so that the roots of the trees absorb moisture, so that the growth of the roots is smooth. In addition, since there are almost no organic components, weeds can be prevented from growing so that the management of trees is easy, and planted trees can compete with weeds to prevent water from being taken away by the weeds, so that the planted trees can grow well.

The masato is a soil formed by broken or weathered rock, and its component is 70% or more of quartz particles, and contains a small amount of feldspar and clay. Due to the large amount of earth's geological distribution, it is distributed more than 60% in the Korean geological strata, and is scattered around rivers, low hills, and mountains, which are easily accessible geographically, and it is difficult to grow microorganisms because organic matter is not mixed as an aggregate of minerals. Has characteristics.

In addition, the said sand is a rock piece between 0.02-2 mm, ore piece, and it is said that the sand of 0.02-0.2 mm is fine sand, and the sand of 0.2-2 mm is coarse sand. Sand does not have nutrients, so it is not suitable for plant growth, including roadside trees, but it supports the plant and prevents its hardness from being increased by pressure. The sand used for planting the tree is not limited to the type of fine sand, coarse sand, etc., but fine sand having excellent water permeability while supporting the tree is preferable, and when using coarse sand, it is recommended to use only up to a depth of 5 to 10 cm from the ground surface. good.

Filling the vegetation soil (20) mixed with the soil improver in the lower portion of the planting pit (10) as in the present invention, the soil pore in the upper portion of the planting pit (10) with a large amount of organic components almost to the soil ash (30) By finishing to the ground surface, preferably 5 to 30 cm from the ground, more preferably 5 to 20 cm from the ground, the trees are well ventilated and drained, so that air, moisture, and nutrients are smoothly supplied to the roots. Myocardial induction and growth of trees well, preventing roots from rotting, and the soil material (30) itself, which contains little organic components, has no nutrients, thus preventing weeds from growing around trees. have. The myocardialization of the root is to suppress the generation of the root aide 50, the root of the root 40 and the heart muscle 70 and the root of the root 80 is developed so that the root grows deep into the lower layer of the soil, thereby It is fixed to the soil stably and absorbs the nutrients in the subsoil of the soil to grow well.

Here, when the soil material 30 is filled to less than 5cm, the soil material 30 is swept away by running water or the like and mixed with the vegetation soil 20 mixed with the soil improving agent at the bottom to the outside air and moisture to the roots. There is a concern that the trees are not able to be supplied smoothly, and when the soil material 30 is filled more than 30 cm, the amount of soil without nutrients becomes too large, so that the trees do not receive enough nutrients. , Filling the soil material 30 to 5 to 30cm, preferably 5 to 20cm from the ground surface.

In one specific implementation, the permeability of the mixed vegetation soil 30 and masato and fine sand mixed with the soil improver was about 2.5 to 2.8 times higher than the vegetation soil mixed with the soil improver. Observed high, when using the soil without manure when planting trees can improve the water permeability and drainage of the soil well can supply water to the roots of the tree.

By planting the tree planting ground composition method of the present invention in the topsoil part of the tree planting by using soil material having a large soil pore size and low content of organic components to prevent the roots from rotting by smoothly supplying water and air to the roots of the trees In addition, it prevents the increase of the hardness due to the physical pressure, and the subsurface penetration of rainwater is high even in the case of small rainfall, and it is advantageous to overcome drought by minimizing the amount of evaporation of soil moisture by preventing the heat during drought and blocking the capillary phenomenon of the topsoil. In order to minimize the occurrence of a large amount of weeds at the beginning of planting, trees can be well grown to favor maintenance. In addition, by using soil modifiers in the subsurface substratum, the roots of the trees extend to the subsoils with soil modifiers rather than the topsoil, thereby inducing myocardial rooting.

1 is a view showing a cross-sectional view of a state using a tree planting ground composition method according to an embodiment of the present invention.
Figure 2 is a view showing a cross-sectional view of the roots of the trees grown after using the planting method for planting soil ground according to an embodiment of the present invention.
Figure 3 is a view showing a cross-sectional view of a state using a tree planting ground composition method when planting a plurality of trees according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to examples. These examples are only for illustrating the present invention in detail, it will be apparent to those skilled in the art that the scope of the present invention is not limited by these examples in accordance with the gist of the present invention.

Example 1: Tree planting ground composition method using the soil without manure

1-1. Digging the pits

After selecting a place to plant trees such as ginkgo biloba, they planted pits about twice the size of the roots of the trees to be planted. The soil and the harmful substances in the planting pit were removed.

1-2. Add vegetation soil and trees mixed with soil improver

Into the bottom of the planting pit put the vegetation soil mixed with a soil improver in a weight ratio of 10cm to 10cm thick and put the trees. In the case of trees, they were planted deeper than originally planted, and then the vegetation soil mixed with soil modifier was put around the trees and filled up to 15cm deep from the ground surface.

1-3. Filling Masato

Masato or fine sand was packed to a thickness of 15 cm on the vegetation soil mixed with the soil improver around the tree.

1-4. result

Ginkgo biloba planted by the above method was more stable than the Ginkgo biloba planted by the conventional method, and the growth was stabilized, and weeds were hardly grown around the Ginkgo biloba by Masato in the upper layer.

Example 2: Tree planting ground formation method in the case of planting a large number of trees

2-1. Formation of planting pits and filling of vegetation soil

After selecting a place to plant a large number of trees (Ginkgo biloba), the ground was squeezed to a length of 20m about 10cm deeper than the roots of trees with a fork-lane. The excavated pits were filled with vegetation soil mixed with a soil improver in a weight ratio of about 10 cm to a thickness of about 10 cm, and the trees were placed at 1 m intervals. Next, the vegetation soil mixed with the soil improver in a 0.1 weight ratio was filled around the tree to a depth of 20 cm from the ground surface.

2-2. Pledge

The 2 minutes of the trees planted in 2-1, water was supplied to the trees, and at the same time, the vegetation soil between the ground and the roots of the trees was watered so that the capillary phenomenon could be naturally connected.

2-3. Filling Masato or Fine Sand

One or two days after the 2-2 compaction, Masato or fine sand was filled to the ground surface of the lower vegetated soil.

2-4. result

As a result of Example 1, the number of planted ginkgo biloba was settled in the soil more stably than the other ginkgo tree, the myocardium of the root is well grown and excellent growth, weeds around the ginkgo tree by the upper layer Masato Hardly grown.

1: tree 10: planting pit
20: vegetation soil mixed with soil improving agent 30: soil ash
40: rectus 50: entourage
60: disc 70: heart muscle
80: triceps

Claims (8)

Putting the vegetation soil mixed with the soil improver in the lower part of the planting pit and placing the root of the tree in the planting pit, filling the vegetation soil mixed with the soil improver to the depth of 5 to 30 cm from the ground surface around the tree placed in the planting pit. And a step of filling the soil material containing water permeability of 10 ^-3 to 10 ^-4 cm / s and less than 0.01 mg of organic components per gram of soil to the surface of the vegetation. Tree planting ground composition method.
The method of claim 1, wherein the planting pit is connected to one or more trees to form a planting ground, characterized in that to form a passage.
The method of claim 1, wherein the soil improving agent is a planting method for planting soil, characterized in that contained in a ratio of 0.02 to 1% by weight relative to the weight of the vegetation soil.
2. The method of claim 1, wherein the vegetation soil further comprises aerobic microorganisms in addition to the soil improving agent.
The method of claim 1, wherein the soil improving agent is at least one of bentonite, zeolite, pearlite, vermiculite, phosphate fertilizer, siliceous fertilizer, lime fertilizer, straw, chaff, livestock manure, compost, sludge or organic fertilizer. Tree planting ground composition method.
delete The method of claim 1, wherein the soil material is earth soil or sandy soil.
8. The method of claim 7, wherein the sandy loam is Masato.

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