KR102582236B1 - Method for culturing cucumber scion and rootstock in plant factory using artificial lights - Google Patents

Abstract

The present invention relates to a cultivation method of cucumber scion and rootstock in a plant factory nursery system, and can provide uniform cucumber scion and rootstock, and these cucumber scion and rootstock can be utilized in an automatic grafting device such as a grafting robot to improve grafting production efficiency. In addition, it is possible to provide stable seedlings throughout the year and rootstock cultivation methods in a plant factory where the cultivation environment can be maintained stably throughout the year for the production of standard seedlings.

Description

Plant factory seedling system cucumber scion and rootstock cultivation method {Method for culturing cucumber scion and rootstock in plant factory using artificial lights}

The present invention relates to a method for cultivating cucumbers and rootstock in a plant factory nursery system.

The method of producing grafted seedlings by attaching a plant's bud or a stem with a bud (scion) to a rooted stem or root (rootstock) is called grafting. Seedlings produced through this process are called grafted seedlings.

The grafted rootstock and scion are closely attached to each other by the vascular tissue formed in the cambium of the connection area, and the vascular bundles are connected to grow into a complete plant.

Cutting is a vegetative propagation method in which part of a plant's nutrient organ is separated from the mother plant and placed in soil or sand to root and germinate to form an independent plant. There are different types.

Recently, as the number of crops in the same field increases, continuous cropping problems such as salt accumulation and soil diseases are emerging as serious problems. Even when cultivating fruits and vegetables such as peppers, tomatoes, and cucumbers, the occurrence of soil diseases such as late blight and green blight is increasing due to the increase in crop yield and continuous cropping difficulties caused by long-term cultivation, and a lot of effort and cost are required to control diseases.

Grafting is a cultivation method that grafts scion and rootstock, and can be used as a cultivation method for fruits and vegetables, including cucurbit vegetables such as cucumbers and watermelons, and solanaceae vegetables such as peppers and tomatoes.

In fact, in the case of fruit vegetables such as watermelons, cucumbers, and tomatoes, the proportion of grafted seedlings produced in industrial nurseries is used for about 70 to 90%, and a significant portion of them are produced by grafting cultivation methods.

This grafting cultivation method has a great influence on the survival and acclimatization of grafted seedlings depending on the degree of grafting of rootstock and scion. In other words, precise grafting of rootstock and scion can greatly influence the improvement of crop productivity. Accordingly, the entire grafting process is carried out manually, and skilled technical personnel are required. However, it is having difficulty becoming popular due to the continuous decline of the rural population and aging society.

Accordingly, Republic of Korea Patent Registration 10-0976555 (Application Number 10-2008-0025571, Applicant: Rural Development Administration of Korea) disclosed a grafting robot to reduce labor at nursery sites and ensure stable supply and demand of grafted seedlings, and Korea Public Patent 10-2018-007761 (Applicant) Number 10-2016-0089040, applicant Republic of Korea (Director of Rural Development Administration) discloses a grafting robot and its operating method. Through these grafting robots, automation of grafting cultivation and high-efficiency and high-reliability grafting cultivation have become possible.

However, the scion and rootstock used in these grafting robots have various shapes and sizes, and due to this characteristic of not having high uniformity, there have been limits to the use of the grafting robot. Moreover, difficulties in producing standard seedlings are increasing due to the high temperature environment in summer and lack of sunlight in winter due to climate change, making it difficult to produce stable standard seedlings throughout the year.

Accordingly, the inventors of the present invention studied scion and rootstock cultivation methods in a plant factory where the cultivation environment can be maintained stably throughout the year in order to produce stable seedlings and rootstocks throughout the year. Through continuous research, uniform scion and rootstock were developed. The cultivation method of was studied and the present invention was completed.

Republic of Korea patent registration 10-0976555 Republic of Korea Public Patent No. 10-2018-007761

One object of the present invention is to (a) germinate cucumber scion seeds and (b) subject the germinated cucumber scion seeds to a daytime temperature of 27 to 25°C, a nighttime temperature of 16 to 20°C, and 50 to 250 μmol m. It provides a cultivation method of cucumber scion including the step of cultivation under light intensity conditions of ^-2 s ^-1 .

Another object of the present invention is (a) germinating cucumber stock seeds and (b) germinating the germinated cucumber stock seeds under daytime temperature conditions of 27 to 25°C, nighttime temperature conditions of 16 to 20°C, and 50 to 250 μmol It provides a cultivation method of cucumber rootstock including the step of cultivating under light intensity conditions of m ^-2 s ^-1 .

One aspect of the present invention includes the steps of (a) germinating cucumber scion seeds and (b) subjecting the germinated cucumber scion seeds to daytime temperature conditions of 27 to 25°C, nighttime temperature conditions of 16 to 20°C, and 50 to 250 μmol m ^- A cultivation method of cucumber scion is provided, including the step of cultivation under light intensity conditions of ² s ^-1 .

The term “cucumber” used in the present invention is an annual vine plant of the Cucurbitaceae family of the dicotyledonous plant family, and has the scientific name of Cucumis sativus . There are various varieties of cucumbers, such as prickly cucumber, green cucumber, white cucumber, green cucumber, and old cucumber, and they are often cultivated by grafting with the same or different species for the purpose of avoiding soil diseases and pests and promoting growth.

The step (a) is a step of germinating cucumber scion seeds. The cucumber scion seeds can be produced by a known method. For example, the cucumber scion seeds are planted in a plug tray and filled with a growth medium (artificial medium for seedlings). You can plant cucumber scion seeds, which may be different from the rootstock seeds used in the cucumber rootstock cultivation method described later.

Step (b) is a step of cultivating the germinated cucumber scion seeds under daytime temperature conditions of 27 to 25°C, nighttime temperature conditions of 16 to 20°C, and light intensity conditions of 50 to 250 μmol m ^-2 s ^-1 . The temperature condition of 27 to 25°C corresponds to the daytime temperature condition, that is, the temperature condition during the light irradiation period. And the temperature condition of 16 to 20°C corresponds to the night temperature condition, that is, the temperature condition during the dark period. The light intensity condition of 50 to 250 μmol m ^-2 s ^-1 is the light intensity condition during the light irradiation period and corresponds to the daytime conditions in natural cultivation. In step (b), the germinated cucumber scion seeds may be subjected to daytime temperature conditions of 26 to 25°C, nighttime temperature conditions of 18 to 20°C, and light intensity conditions of 100 to 200 μmol m ^-2 s ^-1 , and further. Specifically, it may be grown under day/night temperature conditions of 25/20°C and light intensity conditions of 150 μmol m ^-2 s ^-1 . If cucumber scion seeds are grown under conditions outside of the temperature and light intensity ranges above, not only will the cucumber scythes overgrow or undergrow, but the cucumber scions will be of uniform quality to the extent that they can be utilized or increase the production efficiency of automatic grafting devices. is not cultivated.

In step (b), in addition to the temperature conditions and light intensity conditions, the temperature and light intensity of the daytime temperature condition are performed for 16 hours and the temperature of the nighttime temperature condition is performed for 8 hours at 70% RH in daytime conditions and 85% RH in night conditions. The humidity condition RH may be further included.

Cucumber scion cultivated using the above cucumber scion cultivation method may have a length of 3.7 to 9.2 cm and a stem diameter of 1.36 to 1.78 mm. Specifically, cucumber scion may have a uniform size of 7.0 cm in length and 1.78 mm in stem diameter (Example 1).

As described above, the method for cultivating cucumber scion of the present invention is effective in providing cucumber scion of uniform quality within the range of the length and stem diameter of the cucumber scion.

And the cucumber scion grown by the cucumber scion cultivation method may be for an automatic grafting device, and specifically, it may be for an automatic grafting robot. Cucumber scion cultivated using the above-mentioned cultivation method is cultivated under the above-mentioned temperature and light conditions to have uniform quality within the length and stem diameter range of the cucumber scion, and rather than providing optimal cucumber seedlings for natural cultivation, the cucumber scion is automatically grown. Not only does it have the effect of increasing the production efficiency of the grafting device, but it can also provide a seedling cultivation method in a plant factory where the cultivation environment can be maintained stably throughout the year to produce stable seedlings and standard seedlings of rootstock throughout the year.

Another aspect of the present invention is (a) germinating cucumber stock seeds and (b) germinating the germinated cucumber stock seeds under daytime temperature conditions of 27 to 25°C, nighttime temperature conditions of 16 to 20°C, and 50 to 250 μmol m. Provides a cultivation method of cucumber rootstock including the step of cultivation under light intensity conditions of ^-2 s ^-1 .

The step (a) is a step of germinating cucumber rootstock seeds, and the cucumber rootstock seeds can be produced by a known method, for example, planting cucumber rootstock seeds in a plug tray and filling it with a growth medium (artificial medium for seedlings). You can plant cucumber rootstock seeds, which may be different from the scion seeds used in the cucumber scion cultivation method described above.

Step (b) is a step of cultivating the germinated cucumber rootstock seeds under daytime temperature conditions of 27 to 25°C, nighttime temperature conditions of 16 to 20°C, and light intensity conditions of 50 to 250 μmol m ^-2 s ^-1 . The temperature condition of 27 to 25°C corresponds to the daytime temperature condition, that is, the temperature condition during the light irradiation period. And the temperature condition of 16 to 20°C corresponds to the night temperature condition, that is, the temperature condition during the dark period. The light intensity condition of 50 to 250 μmol m ^-2 s ^-1 is the light intensity condition during the light irradiation period and corresponds to the daytime conditions in natural cultivation. In step (b), specifically, the germinated cucumber rootstock seeds may be under daytime temperature conditions of 26 to 25°C, nighttime temperature conditions of 18 to 20°C, and light intensity conditions of 100 to 200 μmol m ^-2 s ^-1 , and further. Specifically, it may be grown under day/night temperature conditions of 25/20°C and light intensity conditions of 150 μmol m ^-2 s ^-1 . If cucumber rootstock seeds are grown under conditions outside of the temperature and light intensity ranges above, not only will the cucumber rootstock grow over or undergrown, but the cucumber rootstock will be of uniform quality to the extent that it can be used or increase the production efficiency of automatic grafting devices. It is not cultivated.

In step (b), in addition to the temperature conditions and light intensity conditions, the temperature and light intensity of the daytime temperature condition are performed for 16 hours and the temperature of the nighttime temperature condition is performed for 8 hours at 70% RH in daytime conditions and 85% RH in night conditions. The humidity condition RH may be further included.

Cucumber rootstock grown by the cucumber rootstock cultivation method may have a length of 5.8 to 10.5 cm and a stem diameter of 2.16 to 2.66 mm. Specifically, the cucumber rootstock may be of a uniform size with a length of 8.0 cm and a stem diameter of 2.64 mm (Example 2).

As described above, the cultivation method of cucumber rootstock of the present invention is effective in providing cucumber rootstock of uniform quality within the length and stem diameter ranges of the cucumber rootstock.

In addition, cucumber rootstock grown by the cucumber rootstock cultivation method may be used for an automatic grafting device, and specifically, may be used for an automatic grafting robot. Cucumber rootstocks grown using the above-mentioned cultivation method are cultivated under the above-mentioned temperature and light conditions and have uniform quality within the length and stem diameter ranges of the cucumber rootstocks, rather than providing optimal cucumber seedlings for natural cultivation. Not only does it have the effect of increasing the production efficiency of the grafting device, but it can also provide a rootstock cultivation method in a plant factory where the cultivation environment can be maintained stably throughout the year for stable reception and production of standard seedlings of rootstock throughout the year.

The cultivation method of cucumber scion and the cultivation method of cucumber rootstock of the present invention can provide uniform cucumber scion and rootstock, and these cucumber scion and rootstock can be utilized in an automatic grafting device such as a grafting robot to increase grafting production efficiency. In addition, it is possible to provide a method of cultivating seedlings and rootstocks in a plant factory where the cultivation environment can be maintained stably throughout the year to produce stable seedlings and standard seedlings of rootstocks throughout the year.

Figure 1 is a photograph confirming the reception of cucumbers grown under various temperature and light intensity conditions according to Example 1.
Figure 2 is a photograph confirming cucumber rootstocks grown under various temperature and light intensity conditions according to Example 2.

Hereinafter, one or more specific examples will be described in more detail through examples. However, these examples are intended to illustrate one or more embodiments and the scope of the present invention is not limited to these examples.

Example 1: Cultivation of cucumber scion

Plant cucumber scion seeds in cell plug trays and fill them with growth medium (artificial medium for seedlings). This plug tray was placed in a germination chamber maintained at 28° C. for 2 to 3 days to germinate.

And, germinated cucumber scion seeds were subjected to daytime temperature conditions of 27 to 25°C, nighttime temperature conditions of 16 to 20°C, light intensity conditions of 50 to 250μmol m ^-2 s ^-1 , and temperature and light intensity of daytime temperature conditions for 16 hours and Cultivation was conducted under daylight conditions of 8 hours at night temperature conditions and humidity conditions of 70%RH in daytime conditions and 85%RH in nighttime conditions.

As a result, as can be seen in Figure 1 and Table 1, it was confirmed that cucumber scions were grown to a uniform size with a length ranging from 3.7 to 9.2 cm and a stem diameter ranging from 1.36 to 1.78 mm. In addition, cucumber scions grown under temperature conditions of 25℃/20℃ (light period (daytime)/dark period (nighttime)) and light intensity conditions of 150μmol m ^-2 s ^-1 grew to 7.0cm in length and 1.78mm in stem diameter. It was confirmed that it is the most suitable size to be used in grafting, specifically automatic grafting devices, as it can provide stable size of standard seedlings.

Temperature conditions (℃)
(day/night) Light intensity conditions (μmol m ^-2 s ^-1 ) Length (cm) Stem diameter (mm) 25/20 50 7.8 1.51 100 8.2 1.73 150 7.0 1.78 200 5.2 1.73 250 3.9 1.63 26/18 50 9.2 1.55 100 6.8 1.65 150 6.3 1.66 200 4.7 1.72 250 4.8 1.73 27/16 50 7.1 1.36 100 5.5 1.54 150 5.6 1.72 200 4.4 1.60 250 3.7 1.54

Example 2: Cultivation of cucumber rootstock

Plant cucumber rootstock seeds in cell plug trays and fill them with growth medium (artificial medium for seedlings). This plug tray was placed in a germination chamber maintained at 28° C. for 2 to 3 days to germinate.

And, germinated cucumber rootstock seeds were subjected to daytime temperature conditions of 27 to 25°C, nighttime temperature conditions of 16 to 20°C, light intensity conditions of 50 to 250μmol m ^-2 s ^-1 , and temperature and light intensity of daytime temperature conditions for 16 hours and Cultivation was conducted under daylight conditions of 8 hours at night temperature conditions and humidity conditions of 70%RH in daytime conditions and 85%RH in nighttime conditions.

As a result, as shown in Figure 2 and Table 2, it was confirmed that cucumber rootstock was grown to a uniform size with a length ranging from 5.8 to 10.5 cm and a stem diameter ranging from 2.16 to 2.66 mm. In addition, cucumber rootstocks grown under temperature conditions of 25℃/20℃ (light period (daytime)/dark period (nighttime)) and light intensity conditions of 150μmol m ^-2 s ^-1 grew to 8.0cm in length and 2.64mm in stem diameter. It was confirmed that it was the most suitable size to be used in grafting, specifically automatic grafting devices, as it was possible to provide standard seedling rootstock of a stable size.

Temperature conditions (℃)
(day/night) Light intensity conditions (μmol m ^-2 s ^-1 ) Length (cm) Stem diameter (mm) 25/20 50 8.1 2.48 100 5.8 2.31 150 8.0 2.64 200 6.3 2.58 250 6.4 2.66 26/18 50 9.4 2.39 100 7.4 2.27 150 8.0 2.52 200 10.5 2.47 250 6.2 2.56 27/16 50 8.3 2.30 100 6.2 2.16 150 7.7 2.54 200 6.3 2.60 250 5.9 2.51

So far, the present invention has been examined focusing on its preferred embodiments. A person skilled in the art to which the present invention pertains will understand that the present invention may be implemented in a modified form without departing from the essential characteristics of the present invention. Therefore, the disclosed embodiments should be considered from an illustrative rather than a restrictive perspective. The scope of the present invention is indicated in the claims rather than the foregoing description, and all differences within the equivalent scope should be construed as being included in the present invention.

Claims (4)

(a) germinating cucumber scion seeds and cucumber rootstock seeds, respectively; and
(b) The germinated cucumber scion seeds and cucumber rootstock seeds were subjected to a daytime temperature condition of 25°C, a nighttime temperature condition of 20°C, a 70%RH daytime humidity condition, an 85%RH nighttime humidity condition, and 150 μmol m ^-2 s ^-1. Cultivating each under light intensity conditions;
Cucumber reception and cucumber rootstock cultivation method for grafting in an automatic grafting device, including
The cultivated cucumber scion has a length of 7.0 cm and a stem diameter of 1.78 mm,
The cultivated cucumber root has a length of 8.0 cm and a stem diameter of 2.64 mm,
Cucumber reception and cultivation methods of cucumber rootstock.
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