JP2013172685A - Method of producing nursery tree cut and planted from forest tree - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve the production efficiency of a planted nursery tree by accelerating the formation of a root ball in a method of producing the nursery tree cut and planted from a forest tree.SOLUTION: There is provided a method of producing a nursery tree cut and plated from a forest tree, the method including a root elongation process being a process in which the elongation of a root is accelerated after a cutting is rooted.

Description

  TECHNICAL FIELD The present invention relates to a method for producing and producing cuttings of mountain forest trees, and more particularly to a method of producing cedar cuttings using a horticultural facility such as a greenhouse.

It takes a long time, such as one to two years, to grow seedlings for planting forest trees. The management during the raising of seedlings is generally a rough management such as an open-air cutting performed in the open-air.
On the other hand, when there is seedling by cutting seedlings using a facility capable of adjusting environmental conditions as one of the seedling raising techniques, such a method may be used for raising seedlings of cuttings such as cedar . This method is also characterized by the use of materials such as pots and containers.
The container is an elongated nursery container typically used in raising seedlings of forest trees. The seedlings that correspond to plugs used for vegetable and flower raising seedlings are sometimes referred to as container seedlings.

In the method using a facility, it is said that a step of rooting a cutting head is first required while maintaining a seedling environment under conditions suitable for rooting (Non-patent Document 1). In order to root the cuttings, in the method using the facility, facility horticultural techniques such as temperature / humidity adjustment and / or shading treatment by mist treatment, sealing treatment, bottom heat treatment or the like are used.
In addition, it is important for the physiology of cuttings to maintain the balance of transpiration from the leaves of the cuttings and the water absorption from the base.After cutting, in order to avoid transpiration and respiratory consumption as much as possible, shading and high humidity environment is necessary. In addition, it is known that photosynthetic ability is rapidly recovered after rooting (Non-patent Document 2).

By the way, the production of cutting seedlings not only requires at least one year as described above, but the time for cutting is limited to the period from spring to summer. Therefore, even when using the method using facilities, only a single rotation per year is performed, and cutting seedlings are supplied only during the spring-summer period.
Even the production by such a single crop has been able to meet the demand for cuttings.

Hideo Machida “All of Sasaki”, Seikodo Shinkosha, 1974, p. 110-131 Hideo Machida "Agricultural Technology System" Fruit Tree Volume 8, Nobunbunkyo, 1985, p. 13-18 Internet Osaka Prefectural Flower Culture Garden Homepage “Glass Garden” (http://osaka-midori.jp/fullu/09topic-glassgarden.html)

On the other hand, despite the recent increase in demand for domestic timber, the supply system for forestry forest seedlings has declined rather nationwide, and there is a need for a system that can efficiently supply a large amount of seedlings. is there. In addition, a supply system that can stably supply seedlings throughout the year is indispensable for the leveling of tree planting work.
However, since the conventional seedling production method is not sufficient in production efficiency, it is impossible to meet the recent increase in demand as described above. Although the method using the above facilities can reduce the period of seedling growth compared to the production in the open field, the formation of seedling quality and root pots suitable for mountain setting (operation to carry seedlings to the planned forest formation site) has been achieved. A seedling period of one year or more is necessary until it is done.

  In other words, in the method for producing cuttings and seedlings of mountain forest trees, the establishment of a technique for promoting the formation of root pots and improving the production efficiency of the cuttings and seedlings is a new problem to be solved immediately in the production of cuttings and seedlings. It is.

  As a result of intensive studies to solve the above problems, the inventors of the present invention significantly promoted the formation of root pots by changing the growth conditions after rooting in an indoor method using facilities. As a result, the present invention was completed.

That is, the present invention relates to at least the following inventions:
(1) A method for producing a cutting plant seedling in a mountain forest in a room, in which a root elongation process is performed in which root elongation is promoted after rooting from the cutting head.
(2) The method as described above, wherein the root elongation step is performed under a condition in which light hitting the cutting head is not shielded.
(3) Any of the above methods wherein the root elongation step is performed under conditions where fertilizer is used.
(4) The method as described above, wherein the rooting from the cutting head is carried out under conditions where rooting is promoted.
(5) The said method in which the root part of the cutting head is inserted in the container filled with the culture medium during the root extension process.

(6) The root portion of at least one cutting head is covered with a transparent or translucent cylindrical transparent or translucent container that can be inserted and removed from the container while maintaining the shape of the root portion, It relates to either method.
(7) Before the root extension step is performed, a step of extracting the root portion covered with the cylindrical transparent or translucent container from the container together with the cylindrical transparent or translucent container and confirming the state of rooting. Any of the above methods further comprising.
(8) The method according to any one of the above, wherein the length from the center portion of the cutting head to the inner surface of the cylindrical transparent or translucent container is 10 mm to 40 mm.
(9) Before the root elongation process for the cutting head is performed, the cutting head is moved from the place where it was placed to another place, and another cutting head is moved to the place where the cutting head was placed. Any of the above methods comprising improving the facility utilization efficiency by testing.

  The present invention pays attention to the importance of rooting and environmental conditions therefor, and it is necessary to consider the growth environment after rooting, unlike conventional methods that continue to maintain the environmental conditions for rooting thereafter. This is based on the new knowledge discovered for the first time by the present inventors. That is, in the present invention, in order to root the root as early as possible after rooting, based on the new knowledge that rooting is necessary and sufficient for the cuttings to grow normally without dying. By adopting conditions different from the environmental conditions, cutting growth can be promoted.

ADVANTAGE OF THE INVENTION According to this invention, manufacture of the cutting seedling of a mountain forest tree with higher production efficiency is attained.
Among the methods of the present invention, according to the method in which the root elongation step is performed under the condition that the light hitting the cuttings is not shielded, the cuttings of mountain forest trees can be produced with higher production efficiency.
Among the methods of the present invention, according to the method in which rooting from cuttings is carried out under conditions where rooting is promoted, it is possible to produce cuttings seedlings of mountain forest trees with even higher production efficiency. .
Among the methods of the present invention, according to the method in which cuttings are inserted into the medium in the container during the root elongation step, cuttings and seedlings can be produced more easily.

Among the methods of the present invention, the root of at least one cutting head is covered with a transparent or translucent cylindrical transparent or translucent container that can be inserted and removed from the container while maintaining the shape of the root. According to the present invention, the root covered with the cylindrical transparent or translucent container is put together with the cylindrical transparent or translucent container during the rooting stage and / or the root extension process. It is easy not only to check the rooting state by removing from the plant, but also to prevent the seedling from being damaged, so that it is possible to further increase the efficiency of production of cuttings and seedlings of mountain forest trees.
Among the methods of the present invention, according to the method in which the root elongation step is performed under conditions where fertilizer is used, the root elongation rate can be increased, thereby further increasing the efficiency of production of cuttings of mountain forest trees. be able to.

  According to the method of the present invention, the length from the center of the cutting head to the inner surface of the cylindrical transparent or translucent container is 10 mm to 40 mm. Can be further increased. In the present invention, before the root elongation process for the cutting head is performed, the cutting head is moved from the place where it was placed to another place, and another insertion is performed at the place where the cutting head was placed. Methods that include testing the ears to improve facility utilization efficiency contribute to more efficient use of space and / or increased turnover, thus allowing for a more stable supply of cuttings of mountain forest trees.

It is a photograph figure which illustrates a root pot. It is the figure which illustrated typically the manufacturing scheme by the method of this invention. It is a figure which shows the example of an annual manufacturing cycle in the case of performing cuttings seedling supply 3 times a year. In the test A of Example 1, it is a photograph figure which shows that the root pot was formed about 100 days after cutting and the seedling quality which can be piled up was secured. In the test B of Example 1, it is a photograph figure which shows that the root pot was formed about 120 days after cutting and the seedling quality which can be piled up was ensured. It is a photograph figure which shows the polyvinyl chloride pipe + end used in Example 2, and a cylindrical transparent or translucent plastic film container. In Example 2, it is a photograph figure which shows that the initial rooting was able to be confirmed by using a cylindrical transparent or translucent plastic film container.

In the present specification and the present invention, the following terms are used as a rule having the following meanings unless otherwise stated.
The “root elongation process” is a process in which root elongation is promoted, and a normal process in which cuttings naturally root under conditions where rooting is not promoted (hereinafter referred to as “rooting process”). ) Or a step different from the step in which rooting of the cutting head is promoted by the rooting step (hereinafter sometimes referred to as “rooting promotion step”), and is a mist treatment, a sealing treatment, a bottom heat treatment, and a shading treatment. At least one means a process of growing cuttings under non-performing conditions. The root elongation process includes cases where rooting occurs.

  The “root” refers to a site in the medium among the plant parts of the cuttings. Since the root itself does not exist before rooting, the case where the “root” does not have a root is also included. In addition, for convenience, the term “root” may be used to include a medium existing around the part.

  “Root pot” generally refers to a group of media containing a root system that is dug up during tree transplantation (FIG. 1). Tree planting (mountain out) is done after the root pots are fully formed.

The present invention will be described in detail below.
The present invention is a method for producing cuttings and seedlings of mountain forest trees indoors, and is a method in which a root elongation step is performed after rooting from cuttings, and a typical production scheme is schematically represented. For example, it can be expressed as shown in FIG. In other words, after the rooting step or the rooting promotion step, a root extension step is performed, and then, after acclimatization to the outdoor environment, hilling is performed. As described above, the method according to the present invention includes two stages: a first stage: rooting process or a rooting promotion process and a second stage: root extension process, unlike a conventional manufacturing method using only one stage.

(A) 1st stage In a 1st stage, a rooting process or a rooting promotion process is performed as mentioned above.
In the production of general cuttings seedlings, as a rooting promotion process, in order to suppress transpiration, photosynthesis and consumption of assimilation products in cuttings, and to promote the transfer of assimilation products to the root, mist treatment, sealing treatment, A bottom heat treatment and a light shielding treatment are performed, and as a result, a process of promoting rooting is performed.
Even in the present invention, the rooting promotion step can be performed by such mist treatment, sealing treatment, bottom heat treatment and shading treatment, but it is not always necessary to artificially promote rooting. You can go.

The number of days in the first stage can be appropriately changed according to the conditions applied in the rooting process or the rooting promotion process.
In consideration of production efficiency, the number of days in the first stage is preferably within about 100 days, more preferably within about 60 days, and even more preferably within about 30 days.
The change from the rooting process or the rooting promotion process to the root elongation process is performed after the time when rooting is performed, and it is preferable that the change is performed immediately after rooting is performed. This is because it is possible to remove the shading earlier to promote photosynthesis, promote root elongation, and reliably shorten the breeding period. Therefore, it is also preferable to accurately grasp the initial rooting time.

  As a process of rooting from cuttings, the rooting process has the advantage that it can be labor-saving and simple because it does not require additional operations such as mist treatment, sealing treatment, bottom heat treatment, and shading treatment. On the other hand, the rooting promotion step has an advantage that the rooting period is accelerated, so that the seedling raising period can be further shortened.

(B) Second stage The second stage is a stage in which a root extension process is performed. That is, in the second stage, root elongation is promoted, and as a result, formation of root pots is promoted.
The root elongation step is a step of activating photosynthesis and increasing the amount of water absorbed by the root to promote photosynthesis and promote the transfer of the assimilation product to the root. This step is preferably performed in such a manner that the cutting head is sufficiently exposed to light under the condition that the light hitting the cutting head is not shielded (no light shielding treatment is performed) in order to promote photosynthesis. Temperature and humidity are also appropriate for photosynthesis as appropriate.
The method of the present invention in which the shading process is not performed and the mist process is performed in the root extending step is preferable.

The condition that the light hitting the cutting head is not shielded includes an environment that does not substantially shield the light that has passed through the transparent material that is the outer wall constituting the greenhouse in the greenhouse. Further, shielding light only for a short period according to the weather is also included in the condition that the light hitting the ear is not shielded.
In the rooting promotion step, as described above, there is a case where the high-humidity treatment is performed by the mist treatment, but the mist treatment may also be performed in the root extension step according to the weather.

The number of days in the second stage can be appropriately modified according to the conditions employed in the root extension step.
In consideration of production efficiency, the number of days in the second stage is preferably within about 100 days, more preferably within about 60 days, and even more preferably within about 30 days.

In the present invention, the cultivation container for inserting the cutting head is not limited, but it is preferable to use a container (tray) from the viewpoint of homogeneous seedling raising. That is, a method in which the root portion of the cutting head is inserted into a container filled with a medium during the rooting step and the root extension step is preferable. A method in which the planting parts of the container have the same shape is more preferable.
The material of the cultivation container is not limited, and the type of medium used in the present invention is not limited.

  The shape of the planting part of the container is not limited. Examples of the shape of the planting part include a prismatic shape such as a columnar shape and a quadrangular prism shape. For example, a slightly tapered cone shape is used. In this case, the length (depth) is, for example, about 80 mm to about 160 mm, and the inner diameter is, for example, an upper diameter of about 30 mm to about 60 mm and a lower diameter of about 20 to about 40 mm.

  As described above, the change from the rooting step or the rooting promotion step to the root elongation step is performed after the time when rooting was performed, and the identification of the time point is confirmed visually by the initial rooting state. Can be performed. In order to perform such visual observation, the root portion of at least one cutting head may be extracted.

  The confirmation may be performed, for example, about 20 days to about 100 days after the start of the rooting process or the rooting promotion process. If rooting is confirmed at that time, the process may immediately proceed to a root elongation process, or may be performed after an interval of several days to several weeks. If it is determined that rooting is not sufficient, the same confirmation is continued thereafter. The time interval for confirmation when continuing is not limited.

  Whether rooting is sufficient or not may be performed on the basis that, for example, about 5 to 20 roots are formed. When such sampling is performed, the length (distance) from the center part of the cutting head to the inner surface of the planting part is usually where the entire underground part, that is, substantially the whole of the culture medium in the surrounding area is extracted. ) Is preferably 10 mm to 40 mm, since rooting can be confirmed earlier and a sufficient amount of medium is provided. The length is more preferably 10 mm to 30 mm, and even more preferably 10 mm to 25 mm. The above-mentioned provision about the “length” from the center of the cutting head to the inner surface of the planting part is to prescribe the length from the center of the cutting head to a part of the inner surface of the planting part. It may be any of the shortest to longest lengths from the central part of the cutting head to one point on the inner surface of the planting part. For example, when the shape of the planting part is a prismatic shape, the “length” may be any distance from a certain point from the center of the cutting head to one wall surface of the planting part.

When such extraction is performed, it may be returned to the cultivation container for insertion. At that time, the root of the cutting ear may be damaged or the root pot may be destroyed. In order to prevent such an undesired event, a transparent or translucent tubular transparent or translucent tube, in which the root of at least one cutting head can be inserted and removed from the cultivation container while maintaining the shape of the root It is preferable to be covered with a container.
The material of the cylindrical transparent or translucent container is not limited. For example, various plastics and glass can be used, and plastic is preferable. The shape of the cylindrical transparent or translucent container is not limited, and examples thereof include a columnar shape and a quadrangular prism shape.
In addition, since it is necessary to keep a root in dark conditions for normal rooting (nonpatent literature 3), the said cylindrical transparent or translucent container needs to be covered with the material which does not let light pass. is there. This is achieved by using a normal container.

When using the transparent or translucent cylindrical container, the root portion covered with the cylindrical transparent or translucent container is taken out of the container together with the cylindrical transparent or translucent container to determine the state of rooting. The method of the present invention further comprising the step of confirming is preferred.
A method in which the length (distance) from the center portion of the cutting head to the inner surface of the cylindrical transparent or translucent container is 10 mm to 40 mm is also preferable. The length is more preferably 10 mm to 30 mm, and even more preferably 10 mm to 25 mm.
The above “length” from the center of the cutting head to the inner surface of the transparent or translucent container is the length from the center of the cutting head to a part of the inner surface of the transparent or translucent container. The length may be any of the shortest to longest lengths from the center of the cutting head to a certain point on the inner surface of the container. For example, in the case where the shape of the container is a prismatic shape, the “length” may be any distance from a certain point from the center of the insertion ear to one wall surface of the container.

  In the method of the present invention, after the rooting step or the rooting promotion step, the cutting head is moved from the place where any of these steps were performed (for example, greenhouse A) to another place (for example, greenhouse B), The method of testing other cuttings in greenhouse A and the method of repeating such a cycle are preferred. This is because such a method contributes to more efficient use of the facility, so that a more stable supply of cuttings of mountain forest trees can be achieved.

  According to the method, it is possible to supply cuttings and seedlings three times a year by one facility. The annual manufacturing cycle in this case is as shown in FIG. 3, for example.

  The rooting process or the rooting promotion process and the root extension process are both performed indoors, that is, in an indoor facility. Examples of the facility include a normal greenhouse, a laboratory, and a thermostatic chamber.

Although the kind of tree which is the object of the present invention is not limited, for example, cedar, cypress and the like can be exemplified. The method of the present invention can be suitably applied to cedar.
Although the method of the present invention does not necessarily require a fertilizer as in the conventional method, the method of the present invention in which the root elongation step is performed under conditions in which the fertilizer is used is preferable.
The type of fertilizer is not limited, and both solid fertilizer and liquid fertilizer are preferably used. The solid fertilizer may be added in advance to the medium, or a fertilizer for controlling the fertilization effect, which can suppress the initial fertilization effect, or added to the root elongation step. The liquid fertilizer may be added to the medium after the root elongation step.

  The present invention will be described in more detail by way of examples, but these examples do not limit the present invention in any way.

Example 1
(1) Purpose To confirm cutting seedling production efficiency according to the method of the present invention (2) Test method / container A container having a capacity of 200 ml (length 140 mm, upper diameter 52 mm, lower diameter 15 mm) (manufactured by Nissin Agricultural Industries, trade name: Candy pot) was used.
-Seedling method As shown in the table below.

(3) Test results and discussion Root pots were formed about 100 days after cutting in Test A and 120 days in Test B, and a seedling quality that could be piled up was secured (FIGS. 4A and 4B).
From these results, it was confirmed that the method of the present invention can shorten the seedling raising period to about 1/3 of the conventional method, ie, about 4 months.
In this test, the mist treatment and the light-shielding treatment were started after rooting was confirmed. However, it is clear that the raising period can be further shortened if these treatments are performed from the initial rooting time.

(Example 2) Effectiveness confirmation test of cylindrical plastic film container (1) Purpose To confirm the effectiveness of a cylindrical plastic film container (transparent bag) (2) Test method / container length 14 cm, inner diameter 40 mm PVC pipe + end (with drainage hole. Fig. 5) inserted into a cylindrical plastic film bag (Fig. 5) or a container with a capacity of 200ml was used. A drainage hole was also formed in the lower part of the cylindrical plastic film container.
-Seedling method As shown in the table below.

(3) Test results and discussion In the use area of the cylindrical plastic film container, the initial rooting was confirmed on the 50th day after cutting. From this result, it was confirmed that by using a cylindrical plastic film container, initial rooting can be confirmed (FIG. 6), and the transition time to the root elongation process can be grasped more accurately.
In addition, the root pot was formed about 100 days later when the normal seedling container was inserted.

(Example 3)
(1) Purpose Investigate and confirm the elongation rate of roots at the initial rooting (2) Test method / container A PVC plastic pipe with a length of 14 cm and an inner diameter of 40 mm + end inserted with a cylindrical plastic film bag (FIG. 5) Was used. A drainage hole was also formed in the lower part of the cylindrical plastic film container.
-Seedling method As shown in the table below.

(3) Test results and discussion The length of root elongation on the 10th day after the confirmation of initial rooting was 35 mm, and the elongation rate was about 3.5 mm / day. Considering that the distance from the cutting needle to the inner surface of the plastic film container is about 20 mm, it has become clear that the presence or absence of rooting can be confirmed by this method within about 6 days after rooting.

  According to the present invention, it is possible to increase the production efficiency of cuttings and seedlings of mountain forest trees compared to conventional methods. Accordingly, the present invention greatly contributes to the development of cutting and seedling production industries and related industries of mountain forest trees.

Claims (9)

  A method of producing a cutting plant seedling of a mountain forest tree in a room, wherein after rooting from the cutting, a root elongation process is performed, which is a process of promoting root elongation.   The method according to claim 1, wherein the root elongation step is performed under a condition in which light hitting the cutting head is not shielded.   The method according to claim 1 or 2, wherein the root elongation step is performed under conditions where fertilizer is used.   The method according to any one of claims 1 to 3, wherein rooting from cuttings is performed under conditions where rooting is promoted.   The method in any one of Claims 1-4 in which the root part of the cutting head is inserted in the container filled with the culture medium during the root extension process.   The method according to claim 4 or 5, wherein the root part of at least one cutting head is covered with a transparent or translucent cylindrical container that can be inserted into and removed from the container while maintaining the shape of the root part. .   Before the root stretching step is performed, the method further includes a step of confirming the rooting state by extracting the root covered with the cylindrical transparent or translucent container from the container together with the cylindrical transparent or translucent container. The method according to claim 6.   The method according to claim 6 or 7, wherein the length from the center of the cutting head to the inner surface of the cylindrical transparent or translucent container is 10 mm to 30 mm.   Before the root elongation process for the cutting head is performed, the cutting head is moved from the place where it was placed to another place, and another cutting head is tested at the place where the cutting head was placed. The method in any one of Claims 1-8 including improving facility utilization efficiency.