KR100619537B1 - Method for constructing lawns using pumice - Google Patents

Abstract

According to the present invention, in order to promote the growth of the grass and to reduce the contamination of the groundwater by leaching of the pesticides sprayed for the lawn management, sodstone (aka pumice, pumice) in the golf course soil, characterized in that the composition of the lawn It is about a method.

According to the present invention, by increasing the water retention and breathability of the soil to promote the growth of grass roots, the grass roots grow deeply to increase the absorption of fertilizer and water to increase the growth of grass, reducing the leaching of pesticides to contaminate groundwater Can be reduced.

Pumice stone, pumice, golf course grass

Description

Method for Constructing Lawns Using Pumice

1 is a photograph showing the appearance of the grass cultivated in the soil laid pumice according to the present invention, the left side is a photograph taken with a shovel, the right side is a photo upside down so that the root is up.

Figure 2 is a photograph of the roots of the grass grown in the soil laying pumice according to the present invention, the arrow is a state that the root of the grass grows through the pumice.

Figure 3 is a picture comparing the grass grown in the soil with pumice laid soil according to the present invention and the grass grown in the existing soil, the upper and lower pictures on the left is the grass grown in the existing soil, the upper and lower right The photo is a photograph of grass grown in the soil where pumice was laid.

Figure 4 is a graph showing the depth distribution of the grass roots cultivated in the soil with pumice laid in accordance with the present invention and the grass roots cultivated in the existing soil, a) shows the dry weight of the grass roots cultivated in the soil treated with pumice B) shows the dry weight of the grass roots cultivated in the existing soil.

5 is a graph comparing the water retention of ordinary sand and pumice.

Figure 6a is a photograph showing a state of collecting soil samples, Figure 6b is a photograph showing a variable gas permeability coefficient device.

7 is a schematic diagram showing a lysimeter used to measure the leaching amount of the pesticide.

8 is a graph showing the concentration of tebuconazole eluted through the lysimeter.

9 is a graph showing the concentration of etridiazole eluted through the lysimeter.

10 is a graph showing the concentration of ethoprophos eluted through the lysimeter.

According to the present invention, in order to promote the growth of the grass and to reduce the contamination of the groundwater by leaching of the pesticides sprayed for the lawn management, sodstone (aka pumice, pumice) in the golf course soil, characterized in that the composition of the lawn It is about a method.

The types of grass planted on the golf course can be divided into cold grass and warm grass according to growth temperature, and representative cold grass such as Kentucky bluegrass, Perennial ryegrass, Chewing fescue, etc. It grows well in low temperatures, and grows poorly in summer. Cold grass is mainly planted in the sand, so the soil moisture is easily dried, the grass growth can be worse, the roots are easily rotten when the temperature is high and the moisture is high. Nanji grass is typical of Korea grass (zoysiagrass) and grows well in the summer, but the disadvantage is that the leaves dry in winter when the temperature is lower. In addition, drainage is the core of turf care, because the growth is sharply worse when the drainage is bad.

Most golf courses in Korea are used by mixing the cold grass and warm grass. In order for the cold and warm grass to grow well, it must be able to maintain adequate soil moisture and breathability. Excessive soil moisture results in poor root breathing and poor growth. As such, the size of the sand may be adjusted to maintain adequate moisture for grass growth, and a drainage pipe may be installed by embedding a drain pipe in the soil. However, in the existing drain pipes, the grass was not well grown because the drainage was not desired, and the growth of the grass was not good even when the soil water was excessively drained by installing a lot of drain pipes.

On the other hand, the soil moisture of the golf course is controlled by controlling the thickness of the sand, but in a condition where the thickness of the sand is too small, the water retention is high, but the drainage is poor, so it rains a lot and the growth of the grass is bad in the summer. On the other hand, if the thickness of the sand is too thick, drainage is easy, but the water retention is low, so the growth of grass has a difficult problem. Therefore, the conventional method has a limit to match the appropriate moisture conditions for the grass to grow on the golf course.

In addition, leaching of pesticides sprayed for the management of lawns in golf courses is a serious factor in contamination of groundwater. In order to remove pesticides used in golf courses, the use of pesticides and pesticides is restricted by law, but there is a problem that the risk of groundwater contamination and the risk of polluting the surrounding streams of leached pesticides exist.

Therefore, the inventors of the present invention sought to develop a method for reducing the leaching amount of pesticides used in turf growing, while maintaining the water retention and drainage of the soil appropriately for the growth of the grass, laying a rock in the golf course soil layer After cultivating the grass, it was confirmed that the water retention and drainage of the soil can be properly maintained, and the leaching of pesticides can be reduced, thus completing the present invention.

After all, the main object of the present invention is to provide a method for forming a lawn, characterized in that pumice is laid in the soil layer in order to promote the growth of grass and reduce the amount of leaching of pesticides.

In order to achieve the above object, the present invention is a method for forming a lawn, in order to increase the growth of grass and reduce the leaching amount of pesticides, pumice (pumice, pumice) having a particle size of 4mm ~ 80mm in the soil layer or sand layer It provides a method characterized in that the installation.

In the present invention, the particle size of 5 ~ 30mm sized pumice can be characterized in that 5 to 50cm deep in front of the soil layer to be sown, mixed by 1 to 50% (v / v) with respect to the existing soil , The lawn may be characterized as being for a golf course. In addition, it can be characterized in that the pumice of the particle size of 20 ~ 50mm size is installed around the existing golf course drain pipe, it can be characterized in that the pumice of the particle size of 20 ~ 50mm size in place of the drain pipe in the golf course drainage.

The present invention is to promote the grass growth of the golf course, the method of reducing pesticide leaching is a method of composition of the lawn to improve the water retention and drainage by mixing the pumice (poumice) which is a porous rock in the grass planting sand or soil at a certain ratio It is to increase the drainage capacity of the soil by mixing rock with the soil layer to seed the grass and the sand or soil around the existing drain pipe.

The pumice is one of volcanic eruptions, also called pumice and pumice, which refers to a rock mass of more than 4 mm in diameter, formed by volatilization of volatile components in the magma when it is ejected, and having a specific gravity that is light enough to float on water. . When the magma is released into the atmosphere, a sudden decrease in pressure is thought to have resulted in the release of gas components contained in the magma, resulting in numerous pores. Originated from acidic magma, it contains some semicrystalline minerals, but most are glassy. In addition, it is chemically very stable and resistant to heat, so it has light weight and high strength.

Sokdol is found all over the world where volcanic eruptions, such as Jeju Island where volcanic eruptions occurred, have various shapes of round or oval shape. In the present invention, pumice of various sizes was classified and used according to characteristics. In general, 5 ~ 50mm sized pumice was used for treatment to improve water retention and drainage at the same time, and 20 ~ 50mm sized pumice was used for treatment requiring drainage than water retention.

The method of laying the pumice in the soil may include a method of mixing and laying grass in the soil layer to be sown, a method of laying around the existing drainage pipe, and a method of laying the drainage pipe in place of the drainage.

Hereinafter, the present invention will be described in more detail with reference to Examples. However, the following examples only illustrate the present invention in detail and do not limit the present invention by these examples.

Example 1 Method of Installing Pumice in Golf Course Soil

In this embodiment, the treatment of pumice stone was used 5 ~ 50mm size.

The following three methods were used to install the pumice stone in golf course sand or soil.

1) Pumice treatment 1: Mix the soil of golf course with depth of 0 ~ 30cm and the pumice with particle size of 5 ~ 50mm with 1 ~ 30% volume ratio of the existing soil in the depth of grass root to extend the entire soil layer for sowing. How to.

2) Pumice treatment 2: Method of laying pavement with particle size of 20 ~ 50mm around 1 ~ 30% volume of existing soil in the golf course where existing fish bone type drainage pipe is installed.

3) Pumice treatment 3: Method to install all pumices with a particle size of 20 ~ 50mm in place of the drainage pipe in the golgol drainage of the slope of the golf course where the drainage pipe is not installed.

Example 2 Growth of Grass in Pyramidal Soils

Kentucky bluegrass (Kentucky bluegrass) grass was planted in the soil laid in the method of pumice treatment 1 of Example 1 to check the growth of the grass.

As a result of checking the degree of turf root growth by shoveling the grass of the golf course treated with pumice stone, it was visually confirmed that the root growth is vigorous compared to the grass roots cultivated by the conventional method (FIG. 1).

2 is an enlarged photograph of grass roots treated with pumice, and it can be seen that the grass roots extend through the pores of pumice. Sokdol is expected to contribute to the breathability and conservatism necessary for the growth of grass through the grass roots extending through the pores of the rock.

Example 3 Effect of Pumice in Soil on the Roots of Grass

Extract the roots of the grass grown in the pumice-treated soil of Example 1 and the roots of the grass grown by the general method to determine the distribution of grass roots according to the root shape, root weight and soil depth. Compared.

As a result, it was clearly seen by the naked eye that the roots of the grass grown in the pumice-laid soil according to the present invention grow much better in the amount and length of the roots than the roots of the grass grown by the general method (Fig. 3).

Table 1 shows the results of comparing the dry weights of the grass roots after collecting 95 cm ² of the roots of the grass grown in the pumice-laid soil according to the present invention and the roots of the grass grown by the conventional method. It is shown. As shown in Table 1, the root weight of the grass grown by the conventional method is 7.84 ~ 8.54g, while the root weight of the grass grown in the soil with pumice stones is 8.75 ~ 10.23g, It was confirmed that the pumice stone showed an excellent effect.

Dry root weight of grasses by treatment group Treatment No treatment Sokdol treatment zone No treatment-1 No treatment-2 No Processing-3 GP-1 GP-2 GP-3 Dry Root Weight (g) 8.54 8.28 7.84 9.09 10.23 8.75

As a result of comparing the distribution of the grass roots cultivated in the pavement soil and the soil roots cultivated by the conventional method, as shown in FIG. 4, the grass roots cultivated by the existing method were extended up to 12 cm deep in the ground. The grass roots, grown in plowed soil, were up to 27 cm deep.

As a result, when the grass is in a drought-free environment, the grass grown by the existing method can be easily damaged, but the grass grown in the soil treated with pumice according to the present invention uses deeply extended roots. It can absorb moisture deep in the soil, so it can withstand drought well and can easily absorb nutrients deep in the soil.

Example 4 Water holding capacity and water permeability of pumice stone

In this example, water retention, which is important for growing grass, was measured in sand and pumice. Sand is generally used sand of 0.25 ~ 1mm and less than 0.25 used in the golf course, and pumice was used 5 ~ 30mm of particle size.

Water retention was measured using a pressure plate extractor. The pressure plate extractor is a device for measuring the water retention of soil, and the sample is placed in the extractor and sufficiently saturated with water, followed by applying a constant pressure to remove water, and measuring water content at each pressure to show water retention. In this example, the water content of sand and pumice was measured and compared at pressures of 10, 20, 30, 50 and 100 kPa. As a result, as shown in Figure 5, it was found that the pumice moisture retention capacity is greater than the sand generally used in the same moisture potential.

In addition, the effect on the permeation rate of the soil treated with pumice stone was tested. The permeation rate was measured by using a variable gas permeability counting device (FIG. 6B) manufactured by DAILI, taken with a 100 cm ³ core harvester, as shown in FIG. 6A. After the soil was taken from the treated and untreated soils with the core, it was calculated by measuring the time taken to move the distance 10 cm in the tube by connecting to the variable gas permeability coefficient device.

Existing soil not treated with pumice was used to filter the 2mm sieve, pumice treatment was used to mix 5% and 10% with the filtered soil, respectively.

The permeation rate of existing soil showed 1.17 × 10 ^-6 cm / sec, but the permeation rate of soil treated with 5% and 10% pumice was 1.02 × 10 ^-4 cm / sec and 2.29 × 10 ^-4 cm, respectively. / sec, it was confirmed that the permeation rate of the pumice-laden soil about 100 times faster than the existing soil (Table 2).

Effect of Pulverized Soil on Permeation Rate Graduated tube transit time (seconds) Pitching Speed (cm / sec) 5% pumice treatment 1,080 1.02 × 10 ^-4 10% pumice treatment 480 2.29 × 10 ^-4 No treatment 94,080 1.17 × 10 ^-6

Example 5 Effect on Leaching of Pesticides Spread on Pumice Soil

The effect on the leaching of pesticides sprayed for the treatment of turfgrass was investigated by lysimeter. The lysimeter is a general analyzer used to analyze the leaching amount of a substance in soil (FIG. 7). In the present embodiment, the soil layer and the conventional soil layer in which the pumice is laid are buried, and the pesticide tebuconazole and etridiazole, which are commonly used in golf courses, are sprayed at a concentration of 125 mg / m ² , and the ethoprophos is sprayed at a concentration of 300 mg / m ² . The effect of pumdol was then tested by comparing the amount of pesticides leached over two months.

The concentrations of pesticides eluted through lysimeters when treated with Tebuconazole, etridiazole and ethoprophos are shown in FIGS. 8, 9 and 10. As shown in the figure, when the grass was grown in a general manner, the amount of pesticide passing through the lysimeter was large, but the concentration of pesticides passing through the lysimeter was low when the pumice was treated. From this result, it is expected that the treatment of pumice can reduce the amount of pesticides sprayed to control grass pests into the groundwater, and this decrease in pesticide volume increases the growth of grass roots. It is expected to increase the amount of pesticides absorbed and to reduce the amount of pesticides flowing through the soil into the groundwater, and to increase the pesticide absorption of the grass roots, thereby increasing the pest control effect.

Having described the specific part of the present invention in detail, it is obvious to those skilled in the art that such a specific description is only a preferred embodiment, thereby not limiting the scope of the present invention. something to do. Thus, the substantial scope of the present invention will be defined by the appended claims and their equivalents.

The present invention has the effect of providing a method for forming a lawn, characterized in that pumice is laid in the soil layer in order to increase the growth of grass and reduce the leaching amount of pesticides.

According to the present invention, by increasing the water retention and breathability of the soil to promote the growth of grass roots, the grass roots grow deeply to increase the absorption of fertilizer and water to increase the growth of grass, reducing the leaching of pesticides to contaminate groundwater It is possible to reduce.

Claims (5)

A method of forming a lawn, characterized in that pumice (pumice, pumice) having a particle size of 4mm ~ 80mm in size in the soil layer or sand layer in order to increase the growth of grass and reduce the leaching amount of pesticides. The method of claim 1, wherein the granules having a particle size of 5 to 30 mm are mixed at a depth of 5 to 50 cm in front of the soil layer to be sown, and mixed at 1 to 50% (v / v) with respect to existing soil. . The method of claim 1 or 2, wherein the lawn is for a golf course. 4. The method of claim 3, wherein pumice having a particle size of 20 to 50 mm is installed around the existing golf course drainage pipe. 4. The method of claim 3, wherein pumice having a particle size of 20 to 50 mm is installed in the golf course drainage in place of the drainage pipe.

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