JP2014131517A5 - - Google Patents

Description

A method for controlling the phenol content and Kjeldahl nitrogen content in plant leaves using light.

The present invention is a device that can irradiate a plant leaf body with a composite light beam of blue light, green light, yellow light, and red light at night and in the dark, and the Keldar nitrogen content and phenol content in the plant leaf body. The present invention relates to a plant growth control method that promotes increase and decrease.

Decrease in crop production has become a major problem due to damage by pests in plant cultivation. The reality is that pesticide control is applied at a great expense to control pests. However, it is difficult to control pesticides due to the resistance of drugs to pests.
Plant growth is hindered by the high frequency of pesticide pest control.

Problems to be solved by the invention

In particular, the use of natural enemy insects has become widespread for pest control such as spider mites and aphids.
However, there are many difficulties in controlling use in combination with pesticides that do not affect natural enemy insects.
Moreover, the more the number of times of controlling pesticide pests, the slower the growth of the plant.

Means for solving the problem

In the device that can irradiate the plant leaves with blue, green, red, yellow light, which is originally mixed with blue, green, red, yellow, at night or in the dark, increase or decrease the Kjeldahl nitrogen content for pest control Increase and decrease Kjeldahl nitrogen content and phenol content while reducing the stress that suppresses the growth of the plant due to the excessive phenolic substance of the plant due to the increase and decrease of phenol substance content, powdery mildew, A method used for plant growth control technology to control pests such as mites.

A substance that is inherently biosynthesized by the plant itself, and when the pests continue to eat large amounts of leaf bodies, the pests will eventually weaken and die, thereby maintaining the growth of the plant itself and preventing the generation of large numbers of pests. What is said to be poison is phenolic substances. The increase and decrease effects of phenolic substances and Kjeldahl nitrogen, that is, proteins and the like, can control pest control of plants themselves and plant growth.

According to the present invention, in an apparatus that can use blue, green, yellow, and red composite color rays, irradiation or irradiation at night or in the dark can increase or decrease the phenol content while increasing the Kjeldahl nitrogen content. A method that promotes and relieves stress that suppresses the growth of the plant and controls the growth of the plant.

Patent Publication 2010-279345
Patent Publication 2011-115
Patent Publication 2011-55816
It is specified in the above-mentioned literature that it has been demonstrated that protein increases in the leaf body using light.

Japanese Patent Application No. 2012-277411
Japanese Patent Application No. 2013-259581
In the above description, it is clearly stated that an apparatus using light and an increase in phenol content are demonstrated.

The leaves of the plants are irradiated with blue light at night and in the dark, especially spider mites, which reduce the damage of strawberry crops, the reduction of yellow leaf cigarettes caused by silver leaf and tobacco whiteflies that cause crop damage, etc. , Insects that suck in leaf leaf fluid, such as green caterpillars, sugar beetles, whiteflies, black moths, thrips, etc. can be controlled.

As described and demonstrated in <0007> and <0008> in the above description, in a device having a composite light beam of blue light, green light, yellow light, and red light at night and in the dark on the leaves of the plant By irradiating the plant and growing the plant by increasing Kjeldahl nitrogen in the leaf body of the plant, the phenol substance has a pest control effect that gradually increases on the plant itself, and the phenol substance excessively increased for pest control However, in order to become a stress that brings about the suppression of the growth of the plant, it increases the Kjeldahl nitrogen, which is a nutrient protein in the body of the growth plant, as a countermeasure against strain fatigue, and the phenol that suppresses the growth of the growth plant A method that enables plant growth control that can reduce plant content, relieve plant growth stress, increase plant growth and production speed, and control pests.

Fruit plants such as strawberry plants and cucumbers, cucumbers, watermelons, melons, etc. by irradiating the plant leaves with a device that has a composite light beam of blue light, green light, yellow light and red light at night and in the dark Pest control of leafy plants such as potatoes, Japanese mustard spinach, tangy vegetables, spinach and other fruit trees such as chrysanthemum, gerbera, carnation, orchid, cyclamen, lily and fruit trees such as cherry.

In addition, when the leaves of the above-mentioned plants are irradiated at night, in the dark, as a device having a composite light beam of blue light, green light, yellow light, and red light, while increasing or decreasing Kjeldahl nitrogen in the leaves of the plant, While raising the said plant, the increase in the phenolic substance content which has a pest control effect which can increase gradually in the leaf body of the said plant is also brought about.

The excessively increased phenolic substance in the plant brings about stress that suppresses the growth of the plant, so it promotes an increase in Kjeldahl nitrogen in the leaves of the plant, decreases the content of the excessively increased phenolic substance, A plant growth control method that can increase the growth speed while mitigating the stress that suppresses plant growth by increasing the Kjeldahl nitrogen content has become possible.

By irradiating different light colors of the composite light beam, the light color can be adjusted with the composite light beam, and the plant can be irradiated at night or in the dark. Became.

Nighttime refers to a state in which natural light such as sunlight on a plant is reduced or blocked.

The adjustment of the light color of the composite light is the light color of the light of blue light, green light, yellow light, and red light to irradiate the leaves of the plant at night or in the dark. It is a light color adjustment control for controlling plant growth by changing the color and irradiation time.

In the embodiment of the present invention, the phenol content is measured by a 4-aminoantipyrine measurement method by a highly accurate method. Based on the above-mentioned 4-aminoantipyrine measurement method, which is the standard of the present invention, the leaves of strawberry plants are dried and boiled in hot water, filtered and extracted, treated with chloroform and phenol reagents, and samples are analyzed after two-stage analysis. The phenol content is measured with the HACH spectrophotometer 3000R.

In addition, embodiments of the present invention include a derma method for measuring the amount of nitrogen after combustion and a Kjeldahl method for measuring the amount of ammonia after sulfuric acid decomposition, as a highly accurate method for protein quantification. The measurement method which became the standard of the present invention is that the latter method is a method in which strawberry plant petioles and leaf bodies are boiled with sulfuric acid of strong acid at 440 ° C. with a digester type 23130-20 manufactured by HACH, and a strong oxidizing agent is added. It is based on the gel tar method in which hydrogen oxide water is instilled, the sample is taken out after the two-stage decomposition, and the amount of ammonia is measured with a spectrophotometer 3000R manufactured by HACH. The

Utilizing a composite light beam of blue light, green light, yellow light, and red light, the nutrient protein in the growing plant body is increased or decreased, and Kjeldahl nitrogen is increased and phenol is added to the strawberry fixed planting seedling while the strawberry fixed planting seedling is grown. Increase or decrease the content.

If the phenol content of the insect pest control effect is excessively increased, the stress that can inhibit the growth of the plant must be relieved.
Moreover, the plant growth control method that can increase the growth and production speed of the plant and also control the pests irradiates the plant with an apparatus having a composite light beam of blue light, green light, yellow light, and red light, so that the strawberry fixed planting The fact that it has become possible to grow plants by increasing and decreasing Kjeldahl nitrogen in the leaves and increasing and decreasing the phenol content will be described based on examples.

Strawberry planting cultivated in the demonstration greenhouse 6m depth 50m depth 50m maturity Strawberry planting planted in 1900 houses, Keldar nitrogen content and phenol content It was set as the comparative test section.

The LED that has the combined light of green light and yellow light and the blue LED of the blue light that has the single light are placed at a certain height, start lighting at night, and set the night illumination time for turning off Then, irradiation was performed from the upper surface of the plant seedling at a certain height.
Place the LED with the combined light of green light and red light and the blue LED of blue light with the single light at a certain height, start lighting at night, and set the night illumination time for turning off Then, irradiation was performed from the upper surface of the plant seedling at a certain height.
By illuminating the plant at night and in the dark by changing the lighting irradiation time, the plant seedlings are promoted to increase or decrease the Kjeldahl nitrogen content and increase or decrease the phenol content, Based on <Example>, it demonstrates that it verified that it became possible to grow a plant by demonstrating the method of using the light ray for doing.
The effects and demonstration results in the above-described <0021> greenhouse will be described in detail with reference to FIGS. 1, 2, 3, 4, 5, and Tables 1, 2, and 3 <Examples>.

As shown in the plan view of the greenhouse, the elevation view taken along the line CC of FIG. 1, and the display of FIG. 2, the green LED with green light and the yellow of yellow light at the height of the upper surface of the strawberry plant 11 LED8 which has the said composite light beam with which LED is arrange | positioned and installed, LED8 which has the said composite light beam which has the composite light beam of a green light beam and a yellow light beam was suspended and installed by 5 m space | interval.
Next, in the middle of the LED 8 having the composite light beam and the LED 8 having the composite light beam, a plan view of the greenhouse, a blue fluorescent light type blue LED 9 in a direction perpendicular to the front of FIG. Hanging as shown.

  The LED 8 having the composite light beam is an arrangement of a yellow light yellow LED with respect to a green light green LED, an installation ratio is about 5%, and in the arrangement, the yellow LED with respect to the green LED is It is LED which has the said composite light beam arrange | positioned several times repeatedly, hold | maintaining about 5% arrangement | positioning ratio.

The fluorescent light type blue LED 9 of blue light and the blue LED of blue light are arranged in a plane on the upper surface of the planted seedling 11 in a direction perpendicular to an intermediate portion between the LED 8 having the composite light beam and the LED 8 having the composite light beam. The LED 8 having the composite beam from a height of 1.5 m has a night illumination time of 3 hours, the blue light blue LED 9 having the single light has a night illumination time of 3 hours, and is illuminated at the same time at night. The planted seedlings were illuminated for 30 days.

While increasing the phenol content in the leaves of the plant seedling, the phenol content in which Kjeldahl nitrogen is also increased, and the Kjeldahl nitrogen content are determined by the combination of green and yellow compound light (3H) + blue LED (3H). In Table 1, the data based on the installation and setting conditions of <0023>, <0024>, and <0025> are displayed in Table 1.

Greenhouse green LED and red light red LED are arranged at a height of 1.5m above the upper surface of the planted seedling 12, as shown in the plan view of the greenhouse, the DD arrow view in FIG. 1 and the display in FIG. The LED 10 having the composite light beam that is installed, and the LED 10 having the composite light beam having a composite light beam of green light and red light, was suspended and installed at intervals of 5 m.
Next, a greenhouse plan view is shown in the middle of the LED 10 having the composite light beam and the LED 10 having the composite light beam, and a blue fluorescent light-type blue LED 9 is placed in a direction perpendicular to the front of FIG. Hanging as shown.

The LED 10 having the composite light beam has a color LED arrangement and installation ratio of about 5% with respect to the green LED of green light, and the color LED is about 5% of the green LED in the arrangement. It is LED which has the said composite light beam arrange | positioned several times repeatedly, hold | maintaining% arrangement | positioning ratio.

The fluorescent light type blue LED 9 of blue light and the blue LED of blue light are arranged in a plane on the upper surface of the planted seedling 12 in a direction perpendicular to an intermediate portion between the LED 10 having the composite light beam and the LED 10 having the composite light beam. The LED 10 having the composite beam from a height of 1.5 m has a nighttime irradiation time of 3 hours, and the blue light blue LED 9 having the single light has a nighttime irradiation time of 3 hours, and is illuminated at the same time at night. The planted seedlings were illuminated for 30 days.

While increasing the phenol content in the leaves of the plant seedling, the phenol content and the Kjeldahl nitrogen content, which also increased the Kjeldahl nitrogen, are obtained by combining the green and red compound light (3H) + blue LED (3H). Displayed in Table 1 as the data based on the installation and setting conditions of <0027>, <0028>, and <0029>.

Greenhouse green LED and yellow light yellow LED are arranged at a height of 1.5m on the upper surface of the planted seedling 13 as shown in the plan view of the greenhouse, the EE arrow view in FIG. 4 and the display in FIG. The LED 8 having the composite light beam that is installed and having the composite light beam having a composite light beam of green light and yellow light is suspended and installed at intervals of 5 m.
Next, in the middle of the LED 8 having the composite light beam and the LED 8 having the composite light beam, a plan view of the greenhouse, a blue fluorescent light type blue LED 9 in a direction perpendicular to the front of FIG. Hanging as shown.

The LED 8 having the composite light beam is an arrangement of a yellow light yellow LED with respect to a green light green LED, an installation ratio is about 5%, and in the arrangement, the yellow LED with respect to the green LED is It is LED which has the said composite light beam arrange | positioned several times repeatedly, hold | maintaining about 5% arrangement | positioning ratio.

As shown in the plan view of the house in the middle of the LED 8 having the composite light beam and the LED 8 having the composite light beam, and the fluorescent light type blue LED 9 of blue light in the direction perpendicular to the entrance of FIG. Hanging.

The fluorescent light type blue LED 9 of blue light and the blue LED of blue light are arranged in a plane on the upper surface of the planted seedling 13 in a direction perpendicular to an intermediate portion between the LED 8 having the composite light beam and the LED 8 having the composite light beam. The LED 8 having the composite light beam from a height of 1.5 m has a night illumination time of 3 hours, and the blue light blue LED 9 having the single light has a night illumination time of 6 hours. The fixed seedlings were illuminated for 30 days.

While increasing the phenol content in the leaves of the plant seedling, the phenol content in which Kjeldahl nitrogen is also increased, and the Kjeldahl nitrogen content are obtained by combining the green and yellow compound light (3H) + blue LED (6H). Table 2 shows the data based on the installation and setting conditions of <0031>, <0032>, <0033>, and <0034> in Table 2.

Greenhouse green LED and red light red LED are arranged at a height of 1.5 m above the upper surface of the planted seedling 14 as shown in the plan view of the greenhouse, the elevation view taken along the line FF in FIG. The LED 10 having the composite light beam that is installed, and the LED 10 having the composite light beam having a composite light beam of green light and red light, was suspended and installed at intervals of 5 m.
Next, a greenhouse plan view is shown in the middle of the LED 10 having the composite light beam and the LED 10 having the composite light beam, and a blue fluorescent light-type blue LED 9 is placed in a direction perpendicular to the front of FIG. Hanging as shown.

The LED 10 having the composite light beam has an arrangement and installation ratio of a red LED of red light to a green LED of green light of about 5%. In the arrangement, the color LED is about It is LED which has the said composite light beam arranged repeatedly several times, hold | maintaining 5% arrangement | positioning ratio.

A plan view of a house in the middle of the LED 10 having the composite light beam and the LED 10 having the composite light beam, a blue fluorescent light-emitting blue LED 9 in a direction perpendicular to the front of FIG. Hanging.

A blue fluorescent light-emitting blue LED 9 and a blue light blue LED 9 are arranged in a plane on the upper surface of the planted seedling 14 in a direction perpendicular to an intermediate portion between the LED 10 having the composite light beam and the LED 10 having the composite light beam. The LED 10 having the composite light beam from a height of 1.5 m has an irradiation time of 3 hours at night, and the blue LED 9 with blue light having the single light has an irradiation time of 6 hours at night. The fixed seedlings were illuminated for 30 days.

While increasing the phenol content in the leaves of the plant seedling, the phenol content in which Kjeldahl nitrogen is also increased, and the Kjeldahl nitrogen content are obtained by combining green and red combined light (3H) + blue LED (6H). Table 2 shows the data based on the installation and setting conditions of <0036>, <0037>, <0038>, and <0039> in Table 2.

Table 3 shows the same settings and installation conditions as described in <0031>, <0032>, <0033>, and changes only the setting time for 20 days of irradiation (6H + 3H).
From the height of 1.5 m to the planted seedling 11, a blue fluorescent light-type blue LED 9 and a blue light blue LED are planted in a direction perpendicular to an intermediate portion between the LED 8 having the composite light and the LED 8 having the composite light. The LED 8 having the composite light beam arranged on a flat surface on the upper surface of the seedling 11 has a night illumination time of 6 hours, and the blue LED 9 having the blue light has a night illumination time of 3 hours. The fixed seedlings 11 were illuminated for 20 days.

In the apparatus conditions of the data described in <0041> above, the phenol content in which the Keldar nitrogen is also increased while increasing the phenol content in the leaves of the plant seedlings, the Kjeldahl nitrogen content is green and Table 3 shows the data based on the installation and setting conditions of <0031>, <0032>, and <0033> in Table 3 of the yellow composite light beam (6H) + blue LED (3H).

Next, in Table 3, the setting and installation conditions described in <0031>, <0032>, <0033>, and item are the same, and only the setting time for irradiation 20 days (6H + 3H) is changed.
From the height of 1.5 m to the planted seedling 11, a blue fluorescent light-type blue LED 9 and a blue light blue LED are vertically planted in a middle direction between the LED 10 having the composite light beam and the LED 10 having the composite light beam. The LED 10 having the composite light beam arranged in a plane on the upper surface of the seedling 14 has a night illumination time of 6 hours, and the blue LED 9 having the blue light has a night illumination time of 3 hours. The fixed seedlings 14 were illuminated for 20 days.

Under the apparatus conditions of the data described in <0043> above, the phenol content in which the Keldar nitrogen is also increased while increasing the phenol content in the leaves of the plant seedlings, the Kjeldahl nitrogen content is green and Table 3 shows the data based on the installation and setting conditions of <0036>, <0037>, and <0038> in Table 3 of the red composite light beam (6H) + blue LED (3H).

Table, LED light source, Table 1, green and yellow composite light (3H) + blue LED (3H), green and yellow composite light green LED and yellow light yellow LED are arranged and installed LED having a composite light beam.
The installation ratio of yellow LED of yellow light to green LED of green light is about 5%, and in the arrangement, the yellow LED is several times while maintaining the arrangement ratio of about 5% with respect to the green LED. It is the LED having the combined light of green light and yellow light that is repeatedly placed and installed.

Regarding the display in Table 1, LED light source, Table 1, green and yellow composite light (3H) + blue LED (3H)
(3H) is indicated as (3H) as 3 hours when the LED having the combined light of green light and yellow light is lit on the fixed seedlings at night.
+ Of the blue LED (3H) means that the LED having the combined light of the green light and the yellow light described above is 3 hours of turning on the fixed seedling at night (3H), and at the same time of the blue LED (3H) + Was displayed as adding 3 hours of lighting time.

Table, display LED light source, Table 1, green and red composite light (3H) + blue LED (3H), green and red composite light green LED and red light red LED are arranged and installed LED having a composite light beam of green light and red light.
The installation ratio of the yellow LED of red light to the green LED of green light is about 5%, and in the arrangement, the red LED is a few while maintaining the arrangement ratio of about 5% with respect to the green LED. It is the LED having a composite light beam of green light and red light, which is repeatedly placed and installed.

Regarding the display in Table 1, LED light source, Table 1, green and red composite light (3H) + blue LED (3H)
(3H) is indicated as (3H) as 3 hours when the LED having the combined light of green light and red light is lit on the fixed seedlings at night.
+ Of the blue LED (3H) means that the LED having the combined light of the green light and the red light described above is 3 hours of turning on the fixed seedling at night (3H), and at the same time of the blue LED (3H) + Was displayed as adding 3 hours of lighting time.

Table, LED light source, Table 5, green and yellow compound light (3H) + blue LED (6H), green and yellow compound light green LED and yellow light yellow LED are arranged and installed LED having a composite light beam of green light and yellow light.
The installation ratio of yellow LED of yellow light to green LED of green light is about 5%, and in the arrangement, the yellow LED is several times while maintaining the arrangement ratio of about 5% with respect to the green LED. It is the said LED which has the composite light beam of the green light and the yellow light, which is installed repeatedly and arranged.

Regarding the display in Table 2, the LED light source, Table 2, green and yellow composite light (3H) + blue LED (6H)
(3H) is indicated as (3H) as 3 hours when the LED having the combined light of green light and yellow light is lit on the fixed seedlings at night.
+ Of the blue LED (6H) means that the LED having the combined light of the green light and the yellow light described above is 3 hours of lighting the planted seedling at night (3H), and at the same time of the blue LED (6H) + Was indicated as adding 6 hours of lighting time.

Table, display LED light source, Table 2, green and red composite light (3H) + blue LED (6H), green and red composite light green LED and red light red LED are arranged and installed LED having a composite light beam of green light and red light.
The installation ratio of the yellow LED of red light to the green LED of green light is about 5%, and in the arrangement, the red LED is a few while maintaining the arrangement ratio of about 5% with respect to the green LED. It is the LED having a composite light beam of green light and red light, which is repeatedly placed and installed.

Regarding the display in Table 2, the LED light source, Table 2, green and red composite light (3H) + blue LED (6H),
(3H) is indicated as (3H) as 3 hours when the LED having the combined light of green light and red light is lit on the fixed seedlings at night.
+ Of the blue LED (6H) means that the LED having the combined light of the green light and the red light described above is 3 hours of lighting the fixed seedling at night (3H), and at the same time of the blue LED (6H) + Was indicated as adding 6 hours of lighting time.

Table, LED light source, Table 3, green and yellow composite light (6H) + blue LED (3H), green and yellow composite light green LED and yellow light yellow LED are arranged and installed LED having a composite light beam of green light and yellow light.
The installation ratio of yellow LED of yellow light to green LED of green light is about 5%, and in the arrangement, the yellow LED is several times while maintaining the arrangement ratio of about 5% with respect to the green LED. It is the said LED which has the composite light beam of the green light and the yellow light, which is installed repeatedly and arranged.

Regarding the display in Table 3, the light source of LED, Table 3, green and yellow composite light (6H) + blue LED (3H)
(6H) is displayed as (6H) as 6 hours when the LED having the combined light of green light and yellow light is turned on at night on the planted seedling.
+ Of the blue LED (3H) means that the LED having the combined light of the green light and the yellow light described above is 6 hours of turning on the fixed seedling at night (6H), and at the same time of the blue LED (3H) + Was displayed as adding 3 hours of lighting time.

Table, display LED light source, Table 3, green and red composite light (6H) + blue LED (3H), green and red composite light green LED and red light red LED are arranged and installed LED having a composite light beam of green light and red light.
The installation ratio of the yellow LED of red light to the green LED of green light is about 5%, and in the arrangement, the red LED is a few while maintaining the arrangement ratio of about 5% with respect to the green LED. It is the LED having a composite light beam of green light and red light, which is repeatedly placed and installed.

Regarding the display in Table 3, the light source of LED, Table 3, green and red composite light (6H) + blue LED (3H)
(6H) is indicated as (6H) as 6 hours when the LED having the combined light of green light and red light is lit on the fixed seedlings at night.
+ Of blue LED (3H) means that the LED having the combined light of green light and red light as described above is 6 hours of lighting the fixed seedling at night (6H), and at the same time of blue LED (3H) + Was displayed as adding 3 hours of lighting time.

Table 1 shows that the phenol content of the green and yellow composite light beam (3H) + blue LED (3H) is 0.27 mg / L on the 30th day after the lighting irradiation.
The Kjeldahl nitrogen content is 130 PPM.

Table 2 shows that, on the 30th day after the illumination, the phenol content of the green and yellow composite light beam (3H) + blue LED (6H) is 0.38 mg / L.
The Kjeldahl nitrogen content is 117 PPM.

Table 3 shows the green and yellow composite light beam (6H) + blue LED (3H) and the phenol content of 0.23 mg / L on the 20th day after the lighting irradiation.
The Kjeldahl content is 128 PPM.

Based on the descriptions in <0057>, <0058>, and <0059>, the degree of increase or decrease in phenol content and the degree of increase or decrease in Kjeldahl nitrogen content will be verified.
<0057> 3 hours of green and yellow combined light and 3 hours of blue LED
Phenol content 0.27mg / L,
Kjeldahl nitrogen content ・ 130PPM
<0058>, green and yellow combined light for 3 hours and blue LED for 6 hours
The phenol content is 0.38 mg / L,
Kjeldahl nitrogen content is 117PPM
When the green and yellow composite light is increased to 3 hours and the blue LED 3 hours out of the blue LED 3 hours, and the green and yellow composite light is irradiated simultaneously at 3 hours without changing the green and yellow composite light 3 hours, the phenol content becomes 0. Increased from 27 mg / L to 0.38 mg / L.
Kjeldahl nitrogen content decreased from 130 PPM to 117 PPM.

<0059> 3 hours of green and yellow combined light and 6 hours of blue LED
The phenol content is 0.38 mg / L,
Kjeldahl nitrogen content is 117PPM
When 3 hours of green and yellow combined light are increased to 6 hours, 6 hours of blue LED are reduced to 3 hours of blue LED,
Phenol content decreased from 0.38 mg / L to 0.23 mg / L.
Kjeldahl nitrogen content increased from 117 PPM to 128 PPM.

Table 1 shows that, on the 30th day after the lighting irradiation, the phenol content of the combined light of green and red (3H) + blue LED (3H) is 0.25 mg / L.
The Kjeldahl nitrogen content is 126 PPM.

Table 2 shows that the phenol content of the combined light of green and red (3H) + blue LED (6H) is 0.34 mg / L on the 30th day after the lighting irradiation.
The Kjeldahl nitrogen content is 112 PPM.

Table 3 shows the green and red composite light beam (6H) + blue LED (3H), phenol content 0.21 mg / L on the 20th day after the lighting irradiation.
The Kjeldahl content is 125 PPM.

Based on the descriptions in <0062>, <0063>, and <0064>, the degree of increase or decrease in phenol content and the degree of increase or decrease in Kjeldahl nitrogen content will be verified.
<0062> 3 hours of green and red combined light and 3 hours of blue LED
Phenol content 0.25mg / L,
Kjeldahl nitrogen content ・ 126PPM
<0063> 3 hours of green and red combined light and 6 hours of blue LED
The phenol content is 0.34 mg / L,
Kjeldahl nitrogen content is 112PPM

Of the 3 hours of blue and 3 hours of blue and 3 hours of blue LED, 3 hours of blue LED is increased to 6 hours of blue LED.
Phenol content increased from 0.25 mg / L to 0.34 mg / L.
Kjeldahl nitrogen content decreased from 126 PPM to 112 PPM.

When 3 hours of green and red composite rays are increased to 6 hours, 6 hours of blue LED are reduced to 3 hours of blue LED,
Phenol content decreased from 0.34 mg / L to 0.21 mg / L.
Kjeldahl nitrogen content increased from 112 PPM to 125 PPM.

As described above in <0060>, <0061>, <0066>, <0067>, by changing the irradiation time and irradiating the plant with the composite light from a certain height at night or in the dark, It was demonstrated that the increase and decrease of phenol content and the increase and decrease of Kjeldahl nitrogen content are controllable.

At night, the combined light of green and yellow and the blue LED of a single blue light, or the combined light of the composite light of green and red and a blue LED of a single blue light,
In the fixed planting seedlings, the blue light of the composite light and single blue light having green and yellow at night, or the blue light of the composite light and single blue light having green and red,
Changing the irradiation time of the composite light beam and the irradiation time of the single blue light blue LED,
By irradiating at night or in the dark from a certain height of the plant,
It was demonstrated that the planted seedlings can be controlled to increase and decrease the phenol content and Kjeldahl nitrogen content in the leaves of the planted seedlings.

Increase and decrease Kjeldahl nitrogen content, increase and decrease phenol content, decrease, increase Kjeldahl nitrogen, that is, protein concentration in the plant body, while suppressing the increase in phenol content, which suppresses plant growth, can prevent strain fatigue .
In addition, the content of phenol can be increased to control pests.
It was proved that the plant can be controlled to grow by making the plant blue, green, yellow, and red rays into composite rays and changing the nighttime irradiation time to irradiate the plant.

  The blue LED was verified as a blue fluorescent LED of blue light.

Is a greenhouse top view. FIG. FIG. Is an EE arrow elevation view. These are FF arrow elevation views.

7 ····························· 8 ···························································· Blue fluorescent LED
10. ・ LED with green light and green LED with red light arranged and installed 11. ・ Strawberry fixed planting seedling 12. ・ Strawberry fixed planting seedling 13. ・ Strawberry fixed planting seedling 14. ・ Strawberry fixed planting seedling

Claims (11)

The green LED and the yellow LED are arranged and installed, and the installation ratio of the yellow LED is small with respect to the green LED. The yellow LED has a composite ray of a green ray and a yellow ray and is placed side by side while maintaining a small arrangement ratio with respect to the green LED, and the blue ray having the LED and the single ray. The blue LEDs are arranged in a single plane, and it is possible to change the lighting irradiation time individually or simultaneously for the LED having the composite light beam and the blue LED having the single light beam. Or, illuminate the plant seedlings in the dark, increase or decrease the phenol content in the leaves of the plant seedlings, increase or decrease the Kjeldahl nitrogen content, and grow plants How to light use for that. The green LED and the red LED of the red light are arranged and installed, and the installation ratio of the red LED of the red light is small with respect to the green LED of the green light. The red LED has a composite ray of a green ray and a red ray, and is placed side by side while maintaining a small arrangement ratio with respect to the green LED. The blue LEDs are arranged in a single plane, and it is possible to change the lighting irradiation time individually or simultaneously for the LED having the composite light beam and the blue LED having the single light beam. Or, illuminate the plant seedlings in the dark, increase or decrease the phenol content in the leaves of the plant seedlings, increase or decrease the Kjeldahl nitrogen content, and grow plants How to light use for that. Blue LED of blue light and yellow LED of yellow light are arranged and installed, and the installation ratio of yellow LED of yellow light is small with respect to blue LED of blue light. The yellow LED has a composite ray of blue light and yellow light, and is placed side by side while maintaining a small arrangement ratio with respect to the blue LED. The blue LEDs are arranged in a single plane, and it is possible to change the lighting irradiation time individually or simultaneously for the LED having the composite light beam and the blue LED having the single light beam. Or, illuminate the plant seedlings in the dark, increase or decrease the phenol content in the leaves of the plant seedlings, increase or decrease the Kjeldahl nitrogen content, and grow plants How to light use for that. Blue LED of blue light and red LED of red light are arranged and installed, and the installation ratio of red LED of red light is small with respect to blue LED of blue light. The red LED has a composite light beam of blue light and red light, and is placed side by side while maintaining a small arrangement ratio with respect to the blue LED. The blue LEDs are arranged in a single plane, and it is possible to change the lighting irradiation time individually or simultaneously for the LED having the composite light beam and the blue LED having the single light beam. Or, illuminate the plant seedlings in the dark, increase or decrease the phenol content in the leaves of the plant seedlings, increase or decrease the Kjeldahl nitrogen content, and grow plants How to light use for that. Blue LED of blue light and red LED of red light are arranged and installed, and the blue LED of blue light having a single light and the red LED of red light having a single light are separately or At the same time, it is possible to change the irradiation time of the lighting irradiation, and arrange it on a plane and illuminate the plant seedling at night or in the dark, while increasing or decreasing the phenol content in the leaves of the plant seedling , Keldar nitrogen content is also increased and decreased, and light is used to grow plants. A blue LED of blue light and a yellow LED of yellow light are arranged and installed, and the blue LED of blue light having a single light and the yellow LED of yellow light having a single light are separately or At the same time, it is possible to change the irradiation time of the lighting irradiation, and arrange it on a plane and illuminate the plant seedling at night or in the dark, while increasing or decreasing the phenol content in the leaves of the plant seedling , Keldar nitrogen content is also increased and decreased, and light is used to grow plants. The blue LED of blue light and the green LED of green light are arranged and installed, and the blue LED of blue light having a single light and the green LED of green light having a single light are separately or At the same time, it is possible to change the irradiation time of the lighting irradiation, and arrange it on a plane and illuminate the plant seedling at night or in the dark, while increasing or decreasing the phenol content in the leaves of the plant seedling , Keldar nitrogen content is also increased and decreased, and light is used to grow plants. A green LED of green light and a red LED of red light are arranged and installed, and the green LED of a green light having a single light and the red LED of a red light having a single light are separately or At the same time, it is possible to change the irradiation time of the lighting irradiation, and arrange it on a plane and illuminate the plant seedling at night or in the dark, while increasing or decreasing the phenol content in the leaves of the plant seedling , Keldar nitrogen content is also increased and decreased, and light is used to grow plants. The green LED and the yellow LED of the yellow light are arranged and installed, and the green LED of the green light having a single light and the yellow LED of the yellow light having a single light are individually or At the same time, it is possible to change the irradiation time of the lighting irradiation, and arrange it on a plane and illuminate the plant seedling at night or in the dark, while increasing or decreasing the phenol content in the leaves of the plant seedling , Keldar nitrogen content is also increased and decreased, and light is used to grow plants. 2. The photon amount of light irradiated to a plant in a covering structure such as a greenhouse at night or in the dark is 2 μmol / m ² / s or more and 8 μmol / m ² / s or less. In order to control plant growth according to Item 2, Claim 3, and Claim 4, the complex light beam is irradiated to increase or decrease the phenol content in the leaves of the plant seedling, while maintaining the Kjeldahl nitrogen content. Increasing, decreasing, and using light rays for plant growth. 6. The photon amount of light irradiated to a plant in a covering structure such as a greenhouse at night or in the dark is 2 μmol / m ² / s or more and 8 μmol / m ² / s or less. 6. For plant growth control according to claim 7, claim 8, and claim 9, irradiation increases and decreases the phenol content in the leaves of the plant seedling, while increasing and decreasing the Kjeldahl nitrogen content Let the plant grow light.