KR102470474B1 - Method of cultivating Artemicia annua L. using environment friendly plant factory mode - Google Patents

Abstract

The present invention relates to a method for cultivating Artemisia in an eco-friendly plant factory mode, and more particularly, in the growth process of Artemisia, growth conditions and conditions for supplying a culture solution are optimally established and cultivated, resulting in a very high active ingredient content. It relates to a method of cultivating wormwood in an eco-friendly plant factory mode. According to the present invention, it is possible to establish an optimized cultivation technology for high value-added medicinal crops by designing a plant factory module of a circular atomizer type that generates less wastewater and can save energy.

Description

Method of cultivating Artemicia annua L. using environment friendly plant factory mode}

The present invention relates to a method for cultivating Artemisia in an eco-friendly plant factory mode, and more particularly, in the growth process of Artemisia, growth conditions and conditions for supplying a culture solution are optimally established and cultivated, resulting in a very high active ingredient content. It relates to a method of cultivating wormwood in an eco-friendly plant factory mode.

Artemicia annua L. ) is an annual medicinal plant of the Asteraceae family, which has been propagated from China, and is traditionally used as an antipyretic and antimalarial agent.

Professor Tu Youyou of the Institute of Traditional Chinese Medicine won the Nobel Prize in Medicine in 2015 for his research and development of artemicinin, an anti-malarial component of wormwood. It stands erect at 1.0~2.5m and grows with 2~3 branches. As for growth and cultivation environment, growth temperature is 20 ~ 25℃, soil pH is 4.5 ~ 8.5, rainfall is 600 ~ 1,000mm, and it grows well in deep, well-drained and soft soil. The demand for potassium (K) tends to continue to increase from the time of sowing to the flowering period. Pests and pests that occur on wormwood include root rot, viral disease, and aphids.

On the other hand, the plant factory is an automatic production system of agricultural products in which advanced technologies are converged, and it is a system that can stably produce throughout the year regardless of external environmental changes.

Recent R&D on overseas plant factories is being conducted in major developed countries such as Europe and Japan, centered on the United States and the Netherlands. received and is actively underway.

Research and commercialization of domestic plant factories have been carried out in LED lighting research, development and supply of plant factory modules, research and commercialization of vegetables and herbs, ginseng and wasabi cultivation technology, but genetically modified plants and herbal plants, which are the main crops of next-generation plant factories, have been conducted. Compared to overseas levels, the level of domestic research, technology development, and commercialization of high-functional and high-value-added plant factories, such as high-functional plants, is still in its infancy.

The main challenges of plant factories in the future are the high initial investment and operating costs, so there is room for social controversy in the future due to the large amount of energy consumption and CO ₂ emission during the discovery and operation of crops with economic feasibility.

Korean Publication No. 10-2019-0119250 (October 22, 2019) Korea Publication No. 10-2018-0006992 (January 19, 2018) Korean Publication No. 10-2019-0013074 (February 11, 2019)

As a result of intensive research to improve problems in crop cultivation according to the prior art and to develop a technology for cultivating artemisia with a plant factory module, the present inventors have found optimal growth conditions and culture medium for the plant factory module designed as described below. As a result of cultivating wormwood by setting, it was confirmed that the production amount and active ingredient content could be increased, and the present invention was completed.

Therefore, the present invention is a high value-added next-generation plant factory module designed appropriately for the growth of Artemisia so that the production and active ingredient content of Artemisia can be increased, and a suitable culture medium and growth temperature, humidity, culture medium pH, proper supply amount, Its purpose is to provide a method for cultivating wormwood with growth conditions such as supply time and supply cycle.

The purpose of the present invention as above is

After sowing the fine seeds of Artemisia, first raising seedlings for 20 days, and secondly raising seedlings for 18 days after transplanting;

Planting the young seedlings in a plant factory after the second seedling;

Including; growing seedlings of planted wormwood;

The growth environment and conditions are a temperature of 21 to 25 ° C, relative humidity of 50 to 65%, artificial light irradiation of about 8 hours and 30 minutes / day, daytime: 6 times per hour / 1 minute culture solution feeding and night: once per hour / It can be achieved by a method of cultivating wormwood in an eco-friendly plant factory mode, characterized by 1 minute culture medium supply per time and a regular distance of 20 cm.

According to the present invention, it is possible to establish an optimized cultivation technology for high value-added medicinal crops by designing a plant factory module of a circular atomizer type that generates less wastewater and can save energy.

1 is a view illustrating the concept of an eco-friendly plant factory.
2 is a graph showing changes in temperature and humidity during the growth period of Artemisia.
Figure 3 is a graph showing the change in pH for each culture medium during the growth period of Artemisia.
Figure 4 is a graph measuring the EC change of the culture medium during the growth period of Artemisia.
5 is a graph showing the change in length of leaves during the growth period of Artemisia.
6 is a graph showing the change in length (plant height) of the aboveground part during the growth period of Artemisia.

The present invention, in one aspect,

After sowing the fine seeds of Artemisia, first raising seedlings for 20 days, and secondly raising seedlings for 18 days after transplanting;

Planting the young seedlings in a plant factory after the second seedling;

Including; growing seedlings of planted wormwood;

The growth environment and conditions are a temperature of 21 to 25 ° C, relative humidity of 50 to 65%, artificial light irradiation of about 8 hours and 30 minutes / day, daytime: 6 times per hour / 1 minute culture solution feeding and night: once per hour / Provides a method of cultivating wormwood in an eco-friendly plant factory mode, characterized by 1 minute culture medium supply per time and a formal distance of 20 cm.

The present invention, in a further aspect,

The plant factory mode

A cultivation room in which artificial light can be irradiated and the nutrient solution supplied from the nutrient solution tank is sprayed;

A nutrient solution tank equipped with a nutrient solution supply pipe for storing nutrient solution and supplying nutrient solution to the cultivation room and a pipe for introducing the nutrient solution circulated from the cultivation room;

A pump for supplying the nutrient solution from the nutrient solution tank to the cultivation room through the supply pipe;

A filter provided in the pipeline at the rear end of the pump;

A circulation pipe connected from the nutrient solution tank to the spray mirror cultivation chamber; and

It provides an eco-friendly plant factory mode cultivation method of wormwood, characterized in that it is provided with; an automatic controller for controlling the artificial light, temperature, humidity, and nutrient solution supply amount.

The present invention, in another further aspect,

The culture solution is 5 [Ca(NO ₃ ) ₂ 2H ₂ O NH ₄ NO ₃ 46.63Kg, NH ₄ NO ₃ 0.99 Kg, KNO ₃ 24.17Kg, Fe-EDTA per 100 liters of water based on the stock solution diluted 100 times. (13%) 2.97Kg, KH ₂ PO ₄ 12.17Kg, MgSO ₄ 7H ₂ O 22.03Kg, Mg(NO ₃ ) ₂ 6H ₂ O Trace amount, K ₂ SO ₄ 0.59Kg, A containing HNO ₃ 1.00Kg Liquid and KNO ₃ 32.77Kg, MnSO ₄ H ₂ O 321.00g, ZnSO ₄ 7H ₂ O 115.00g, H ₃ BO ₃ 229.00g, CuSO ₄ 5H ₂ O 20.00g, Na ₂ MoO ₄ 2H ₂ O 15.00 It provides a method of cultivating wormwood in an eco-friendly plant factory mode, characterized in that it consists of liquid B containing g.

Hereinafter, a method for cultivating wormwood in an eco-friendly plant factory mode according to the present invention will be described in more detail with reference to the accompanying drawings and specific examples.

The terms or words used in this specification and claims are not limited to the usual or dictionary meanings, and the inventor can properly define the concept of the term in order to explain his or her invention in the best way. Based on this, it should be interpreted as a meaning and concept consistent with the technical spirit of the present invention. Therefore, since the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, it is understood that there may be various equivalents and modifications that can replace them at the time of this application. shall.

Throughout the specification, when a certain component is said to "include", it means that it may further include other components without excluding other components unless otherwise stated.

The cultivation method of wormwood in an eco-friendly plant factory mode according to the present invention largely includes a seedling step, a planting step, and a growth step. Each step is described below.

seedling stage

After sowing the fine seeds of artemisia in the open field, indoors or in the house, they germinate after about 7 days. The first seedling is raised around 20 days after sowing, and transplanted after 20 days. After transplanting, the second seedling is raised for about 18 days.

formal step

After approximately 38 days have elapsed after the second seedling, the young seedlings are planted in the cultivation room of the plant factory. A formal distance of 20 cm may be preferred.

In the plant factory mode, it is preferable to design and apply an energy-saving artificial light (LED) supply device for supplying light energy. In addition, it may be desirable to design and apply a circulating culture medium supply system to minimize wastewater discharge to discharge carbon dioxide and configure an eco-friendly energy saving type.

The preferred plant factory mode as above is

A growth chamber (GC, growth chamber) in which artificial light can be irradiated and the nutrient solution supplied from the nutrient solution tank is sprayed;

A nutrient solution tank equipped with a nutrient solution supply pipe for storing nutrient solution and supplying nutrient solution to the cultivation room and a pipe for introducing the nutrient solution circulated from the cultivation room;

A pump for supplying the nutrient solution from the nutrient solution tank to the cultivation room through the supply pipe;

A filter provided in the pipeline at the rear end of the pump;

A circulation pipe connected from the nutrient solution tank to the spray mirror cultivation chamber; and

It is preferable to have; an automatic controller for controlling the artificial light, temperature, humidity, and nutrient solution supply amount.

The chemical liquid tank may be installed in a plurality of two or more with a capacity of around 200 liters.

The culture medium used in the present invention may be preferably used in the composition shown in Table 1 below.

The culture medium (EC) is 5 [Ca(NO ₃ ) _{2 2} H ₂ O NH ₄ NO ₃ 46.63 Kg, NH ₄ NO ₃ 0.99 Kg, KNO ₃ 24.17 Kg, KNO 3 24.17 Kg, Fe-EDTA (13%) 2.97Kg, KH ₂ PO ₄ 12.17Kg, MgSO ₄ 7H ₂ O 22.03Kg, Mg(NO ₃ ) ₂ 6H ₂ O trace amount, K ₂ SO ₄ 0.59Kg, HNO ₃ 1.00Kg A solution containing KNO ₃ 32.77Kg, MnSO ₄ H ₂ O 321.00g, ZnSO ₄ 7H ₂ O 115.00g, H ₃ BO ₃ 229.00g, CuSO ₄ 5H ₂ O 20.00g, Na ₂ MoO ₄ 2H It consists of Liquid B containing 15.00 g of ₂ O. The culture medium at the above concentration is set to EC 1.5 mS/cm for convenience.

growth stage

In the stage of growing planted wormwood seedlings, it is necessary to optimally set the growth conditions.

The growth environment and conditions are a temperature of 21 to 25 ° C, relative humidity of 50 to 65%, artificial light irradiation of about 8 hours and 30 minutes / day, daytime: 6 times per hour / 1 minute culture solution feeding and night: once per hour / A one-minute culture feed per session may be preferred.

For the growth of wormwood, the optimum pH range is 6.0 to 7.5, and the optimum EC range is 1.2 to 1.3 mS/cm may be preferable.

In addition, menstrual disorders may occur during the growth period of Artemisia, and if leaf withering symptoms appear in relation to these physiological disorders, it is preferable to supply the culture solution at a weight ratio of 4 (A liquid): 6 (B liquid), When an imbalance occurs, this imbalance can be resolved by supplying the concentration of the culture medium (EC) at 1.2 to 1.3 mS/cm.

<Example>

Hereinafter, the present invention will be described in more detail through examples. These examples are only for explaining the present invention in more detail, and it is obvious to those skilled in the art that the scope of the present invention is not limited by these examples according to the gist of the present invention. .

Preparation Example 1: Preparation of culture medium

Artemisia culture solution (EC 1.5) was prepared using the mixing ratio shown in Table 1, and as a result of water quality analysis, it was found to contain the components shown in Table 2 below.

Example 1: Growth of Artemisia

After sowing the fine seeds of wormwood in the field, the first seedlings were raised for 20 days, and the second seedlings were raised for 18 days after transplanting. Then, after 38 days of raising seedlings, they were planted as a plant factory module.

An eco-friendly plant factory module including a 200-liter nutrient solution tank was constructed as shown in FIG. 1, and then Artemisia was grown.

The growth temperature and humidity were about 23 ℃ / 55%, artificial light was irradiated for about 8 hours and 30 minutes, and the number and time of irrigation was 6 times per hour / 1 minute per hour during the day, and once per hour / per time at night. The culture solution of Preparation Example 1 was supplied under a 1-minute feeding condition.

To establish growth conditions, GC-A (EC1.5), GC-B (EC1.25), and GC-C (EC1.0) were grown at different concentrations.

During the growth period, physiological disorders caused by potassium deficiency were resolved by adjusting the concentrations of cultures A and B to 4:6.

In addition, in order to prevent the coating phenomenon from occurring, growth was inhibited by foliar spraying of the culture solution B three times in a row.

Growth imbalance occurred in GC-A (EC 1.5 culture medium), and growth was good when the culture medium of wormwood was fed in the GC-B EC concentration range.

In addition, it was confirmed that wilting symptoms of young seedlings occurred when the culture solution was not supplied to the plant factory at night after 38 days of raising seedlings.

The above-ground growth rate was GC-B: 0.86 cm/day > GC-A: 0.75 cm/day > GC-C: 0.54 cm/day, and the culture medium concentration for optimal growth of Artemisia was EC 1.25 mS/cm.

In the present invention, it is made to contribute to the development of the agricultural industry in the future by establishing the basic production technology of eco-friendly and economical medicinal crops by applying the next-generation plant factory system that can respond to climate change in the future and is expected to be a new growth engine business through IT convergence. will be.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concept of the present invention defined in the following claims are also of the present invention. that fall within the scope of the right.

Claims (3)

After sowing the fine seeds of Artemisia, first raising seedlings for 20 days, and secondly raising seedlings for 18 days after transplanting;
Planting the young seedlings in a plant factory after the second seedling; and
Including; growing seedlings of planted wormwood;
In the step of growing the seedlings of the planted wormwood, the growth environment and conditions are a temperature of 21 to 25 ° C, relative humidity of 50 to 65%, artificial light irradiation for 8 hours and 30 minutes / day, daytime: 6 times per hour / 1 per time Minute culture solution feed and night: once per hour / 1 minute culture solution feed per time and a regular distance of 20 cm,
The culture solution is 5 [Ca(NO ₃ ) ₂ 2H ₂ O NH ₄ NO ₃ 46.63Kg, NH ₄ NO ₃ 0.99 Kg, KNO ₃ 24.17Kg, Fe-EDTA per 100 liters of water based on the stock solution diluted 100 times. (13%) 2.97Kg, KH ₂ PO ₄ 12.17Kg, MgSO ₄ 7H ₂ O 22.03Kg, Mg(NO ₃ ) ₂ 6H ₂ O Trace amount, K ₂ SO ₄ 0.59Kg, A containing HNO ₃ 1.00Kg Per 100 liters of liquid and water, KNO ₃ 32.77Kg, MnSO ₄ H ₂ O 321.00g, ZnSO ₄ 7H ₂ O 115.00g, H ₃ BO ₃ 229.00g, CuSO ₄ 5H ₂ O 20.00g, Na ₂ MoO ₄ A method for cultivating wormwood in an eco-friendly plant factory mode, characterized in that it consists of liquid B containing 15.00 g of 2H ₂ O. The method of claim 1,
The plant factory mode
A cultivation room in which artificial light can be irradiated and the nutrient solution supplied from the nutrient solution tank is sprayed;
A nutrient solution tank equipped with a nutrient solution supply pipe for storing nutrient solution and supplying nutrient solution to the cultivation room and a pipe for introducing the nutrient solution circulated from the cultivation room;
A pump for supplying the nutrient solution from the nutrient solution tank to the cultivation room through the supply pipe;
A filter provided in the pipeline at the rear end of the pump;
A circulation pipe connected from the nutrient solution tank to the spray mirror cultivation chamber; and
A method for cultivating wormwood in an eco-friendly plant factory mode, characterized in that it is provided with; an automatic controller for controlling the artificial light, temperature, humidity, and nutrient solution supply. delete

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