JP2015027262A - Method for raising cutting seedlings of forest trees - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method capable of controlling moisture environment more easily in producing cutting seedlings of forest trees.SOLUTION: A method for manufacturing cutting seedlings of forest trees includes the following processes: (1) a process of highly densely planting scions 1 before they start taking roots in cultivation soil; (2) a process of irrigating from a bottom surface of the cultivation soil to supply water to cut areas of the scions 1; and (3) a process of allowing the scions 1 to start growing roots to be raised for cutting seedlings of forest trees in facilities and outdoors.

Description

  The present invention relates to a method for efficiently producing (producing) mountain forest tree cuttings.

In Japan, forest tree seedlings such as cedar and cypress are produced by seedlings in open-air facilities or greenhouses, and by cuttings.
On the other hand, in overseas forestry advanced countries, container seedling technology using containers for growing tree seedlings has been established. In recent years, multi-cavity containers for domestic forestry have been developed and spread in Japan. A container for tree seedling growing is a hard plastic seedling container having a large number of seedling growing holes, and there are various types such as capacity and shape according to tree species, seedling environment and workability.
Advantages of container seedlings are (i) low cost, (ii) excellent handling such as storage and transportation, (iii) the seedling with medium can expand the optimal planting time, and (iv) small size The planting efficiency is high due to its light weight.
In the case of using a container for raising seedlings in cutting seedlings, cut off the part of the rootstock (mother tree) containing the ears (the cut part is called "inserting ear") and place the cuttings directly on the insertion floor filled in the container. A method of cutting or raising seedlings that have been cut from the ground or by cutting the roots and raising seedlings is employed. In raising seedlings by this method (hereinafter referred to as “cutting seedling raising seedlings”), it is possible to raise seedlings that increase the production per area, such as growing cuttings at a high density of about 200 / m ² or more (100 / m ² ). In addition, cutting (or insertion) means the process of planting cuttings.

  The cuttings immediately after insertion do not have roots and thus have a low water absorption capacity. However, since transpiration is actively performed, the moisture balance is unbalanced, and the moisture in the insertions tends to be insufficient. Therefore, in cutting seedlings, it is one of the most important management items to prevent the loss of water in the cuttings after cutting until rooting. Especially in summer, the water balance tends to become more unbalanced due to active transpiration and photosynthesis.

In general cuttings raising seedlings, in order to prevent the loss of moisture in the cuttings, environmental factors such as temperature, humidity, light, etc., which mainly suppress transpiration are controlled. In particular, in the irrigation management, mist-like mist is given only to the upper part of the ear (overhead irrigation) to suppress transpiration from the ear and to supply an appropriate amount of water.
Furthermore, when performing irrigation of the mist overhead, if too much mist is applied, the vicinity of the surface of the soil (medium), that is, the vicinity of the base of the above-ground part of the cutting head becomes overhumid, and disease is likely to occur (non-patent document). 1). For this reason, it is also indispensable to control the humidity so that the portion does not become excessively humid.

"Greening and seedlings" (by Takao Tsuji), nursery note, December 2006 Cutting cutting basics, http://www1.gifu-u.ac.jp/~fukui/06-4-03.html

Japanese Patent No. 4333480 Japanese Patent No. 4928992 Japanese Patent No. 5010931

In mass production of cutting seedlings, the insertion density per area is high, so if you try to avoid over-humidity during overhead irrigation, water will not spread evenly over the soil, and the water content will vary widely between the soil sites . In particular, in the case of using a container that has been widely used in recent years, the amount of soil provided to one stock may be small, and the soil is easily dried. In containers with slits on the sides, the soil is more dry. Therefore, humidity control is more difficult for seedlings using containers.
That is, in order to suppress the transpiration from the cuttings and to prevent the vicinity of the base of the above-ground part of the cuttings from being overhumid, it is necessary to control the water environment by irrigation management and temperature and humidity management, Such control is fine, especially for raising seedlings of mountain forest trees, and must be performed over a long period (about 3 months), which is complicated and labor-intensive.

  Therefore, an object of the present invention is to provide a method that makes it possible to more easily control the water environment in the production of mountain forest tree cuttings.

The inventors of the present invention have conducted research on a simpler method for controlling the environment in order to solve the above-mentioned problems, and surprisingly, the water environment can be more easily controlled by changing the irrigation method. As a result of further finding out that there is a possibility of being able to do it, the present invention has been completed.
That is, the present invention relates to at least the following inventions:
[1] A method for producing a mountain forest tree cutting seedling including the following steps:
(1) A process of planting cuttings before rooting at high density on the cultivation soil;
(2) irrigating from the bottom of the cultivated soil and supplying moisture to the cut end of the cutting ear; and (3) rooting the cutting tip and raising a mountain forest tree cutting seedling in the facility and outdoors.

  [2] The method according to [1] above, wherein irrigation from the bottom of the soil is not performed after the cuttings have rooted.

[3] A method for producing a mountain forest tree cutting seedling including the following steps:
(1) A process of planting cuttings before rooting at a high density on the cultivation soil;
(2) irrigating from the bottom of the soil and supplying moisture to the cut end of the cutting ear; and (3 ') irrigating from the bottom of the soil after rooting and rooting the cutting ear. The process of carrying out overhead irrigation and raising the above-mentioned rooting cuttings in the facility and outdoors in the forest forests.
[4] The method according to any one of [1] to [3], wherein the irrigation from the bottom surface of the soil is performed by immersing the soil in water.
[5] The method according to [4] above, wherein the height of the soil immersed in water is maintained at 3% or more and 40% or less of the overall height of the soil.
[6] The method according to any one of [1] to [5] above, wherein the forest tree is cedar or cypress.
[7] The method according to any one of the above [1] to [6], wherein a planting density of cuttings is about 200 / m ² or more.
[8] The method according to any one of [1] to [7], wherein the planting is performed on the cultivated soil in a container.
[9] The method according to [8] above, wherein the container is a container with a side slit.
[10] A mountain forest tree cutting seedling produced by the method of any one of [1] to [9].

  Patent Documents 1 to 3 show a method and apparatus for supplying and irrigating water from the bottom surface. However, as the target plants in these methods and apparatuses, mountain forest trees are not described in these documents, and those in the stage before rooting are not disclosed. In addition, it is known that soaking cuttings in water promotes the spread of disease and inhibits callus formation, and thus should generally be avoided (Non-Patent Document 2). Therefore, the method of the present invention is not only completely different from the above-described conventional techniques, but cannot be conceived from these techniques.

According to the present invention, it is possible to suppress moisture loss in the cutting head during the period from insertion to rooting, or withering of the cutting head due to overhumidity, and further improve the rooting rate of the forest tree cuttings. In addition, rooting is promoted, and the period from insertion to rooting, and further the period until planting can be shortened. Therefore, according to the method of the present invention, efficient cuttings can be produced. As a result, according to the method of the present invention, detailed irrigation management and humidity management are not required in the production of mountain forest tree cuttings, and the water environment in the facility can be controlled more easily.
Without being bound by theory, according to the method of the present invention, the moisture environment of the cultivation soil is maintained in a constant and suitable state, rooting in cuttings is promoted, and subsequent vigorous growth is brought about. Conceivable.

  According to the method of the present invention in which irrigation from the bottom surface of the soil is not performed after the cuttings have rooted, rooting can be started earlier and the side roots and fine roots can be increased.

According to any one of the methods of the present invention, irrigation from the bottom surface of the soil is performed by immersing the culture soil in water.
In the method of the present invention, the height of the soil immersed in water (when using a container, the height from the bottom of the container to the water surface) is the height of the entire soil (when using a container, the height of the entire container According to the above method, which is maintained at 3% or more and 40% or less), irrigation can be performed more appropriately.
According to any one of the methods of the present invention in which the forest tree is a cedar or cypress, the water environment can be easily controlled in the production of a cedar or cypress forest tree cutting.
According to any one of the methods of the present invention, the planting density of cuttings is about 200 / m ² or more, the water environment can be easily controlled at a very high planting density.

According to any one of the methods of the present invention, in which cutting seedlings are grown using a container, the optimal moisture state of the cultivation soil is kept uniform, thereby greatly reducing the mortality of cuttings due to lack of moisture. In addition, since irrigation with mist from the overhead is not required, it is possible to drastically reduce the death of the cutting head due to overhumidity, thus increasing the yield of seedlings and making the rooting rate uniform. Therefore, it is possible to produce a large amount of mountain forest tree seedlings more easily and efficiently.
In the method of the present invention in which the container is a container with side slits, a good root system can be obtained while preventing the soil from being dried.
Mountain forest tree cuttings produced by any one of the methods of the present invention can be produced while simply controlling the water environment.

It is a schematic diagram for showing an example of the method of the present invention. In the figure, a indicates the height of the soil immersed in water, and b indicates the height of the entire soil. It is a photograph figure for showing an example of the method of the present invention. It is a graph which shows the influence which the difference in a culture medium water management and the form of an ear has on rooting rate.

The present invention is described in further detail below.
As described above, the present invention relates to a method for producing a mountain forest tree cutting seedling comprising the following steps:
(1) A process of planting cuttings before rooting at high density on the cultivation soil;
(2) irrigating from the bottom of the cultivated soil and supplying moisture to the cut end of the cutting ear; and (3) rooting the cutting tip and raising a mountain forest tree cutting seedling in the facility and outdoors.

Process (1)
The step (1) is a step of planting the pre-rooted forest forest cuttings at high density in the cultivation soil. The forest forest trees in the present invention are not limited, but conifers such as cedar, cypress, black pine, larch, and spruce, Examples include broad-leaved trees such as cherry blossom, shii, oak, maple, Japanese oak, alder, and other species such as acacia and eucalyptus that are mainly planted overseas. The method of the present invention in which the forest is a cedar or cypress is preferred, and the one that is a cedar is more preferred.
The size of the cutting head in the present invention is not limited, and may be about 20 cm to about 40 cm.
In the present invention, the type of cultivated soil is not limited, but examples include red jade soil, kanuma soil, peat moss, and cocopyt. The method of the present invention in which the cultivating soil is a cultivating soil mainly composed of red jade soil is preferable. In addition, other medium (mat material, water retention material, etc.) excellent in capillary force may be used instead of the soil. Therefore, the “culture” in the present invention includes other media having excellent capillary force as described above.

The cutting time in the present invention is not limited, and cutting may be performed at a time when normal cutting is performed. For example, in the Kyushu region, it may be spring insertion that is inserted from mid-March to mid-April, or autumn insertion that is complementarily performed from early September to mid-October, or winter insertion.
In the method of the present invention, the planting density of cuttings is not limited as long as the density is high, but is preferably about 200 / m ² or more, more preferably about 240 / m ² or more, and about 300 / m ² or more. Even more preferred. In addition, in the cuttings in a normal outdoor field, the density is only about 100 strains / m ² .

Step (2)
Step (2) is a step of irrigating water from the bottom of the cultivated soil and supplying moisture to the cut end.
In this process, mist irrigation, which is usually performed for the purpose of temperature and humidity control and irrigation, is not necessary, but mist irrigation by overhead irrigation may be performed for about 1 day to about 7 days immediately after cutting is performed, In the subsequent period, mist may be appropriately irrigated by overhead irrigation as occasion demands.

In the present invention, “irrigation from the bottom surface” means irrigation from below the soil, unlike normal overhead irrigation, irrigation from the bottom surface alone, irrigation from the bottom surface and nearby sides, and side surfaces near the bottom surface. Irrigation from only the water is included.
The method of the present invention in which the water content of each cultivated soil in which each cutting head can utilize moisture is preferably about 45% to about 65% by such irrigation, and the method of the present invention to maintain about 50% to about 65% is preferable. More preferably, the process of the present invention which is maintained at about 50% to about 60% is even more preferred.
When the soil moisture content is defined by the pF value, the pF value is not limited, and may be a value that is usually employed in raising seedlings of cuttings. The method of the present invention in which the pF value is maintained at about 1.0 to about 2.5 is preferred, and the method of the present invention in which the pF value is maintained at about 1.5 to about 2.3 is more preferred.

The timing and timing of irrigation from the bottom are not limited as long as rooting is promoted. Periodically, for example, irrigating every day or every other day, observing the dryness of the soil, irrigating appropriately, or soiling over a certain period of time (for example, 1 to 3 months) The method of always immersing in the container of a flooded state is illustrated.
The irrigation amount in the method of irrigating regularly and the method of irrigating as appropriate are not limited, and any irrigation amount may be used as long as sufficient water is given to the cut portion of each cutting head.

Examples of the method of always immersing the culture medium include a method of immersing the culture medium by immersing it in a container (pool) filled with water together with a container that can be immersed in the culture medium (FIGS. 1 and 2).
In the method of always immersing the culture soil, the height of the culture soil immersed in water (for example, a in FIG. 1. When using a container, it corresponds to the height from the bottom surface of the container to the water surface) is not limited. Is preferably about 3% or more and about 40% or less of the height of the entire cultivated soil (for example, b in FIG. 1; corresponding to the height of the whole container when a container is used). A method that is maintained at about 35% or less is more preferable, and a method that is maintained at about 5% or more and about 30% or less is even more preferable.
When the height of the whole soil is about 15 cm, the method of the present invention in which the height of the soil immersed in water is about 0.7 cm to about 6 cm is preferable.
The water depth may be appropriately adjusted in consideration of the area of the pool, the surface area of the cultivated soil, the time, and the like. Moreover, in order to promote rooting more efficiently, the amount of irrigation may be gradually reduced.

  The facility in the present invention is not limited, and examples thereof include a normal greenhouse, a laboratory, and a temperature-controlled room. In the present invention, it is preferable to use the facility immediately after cutting.

In the method of the present invention, the temperature in the facility may be adjusted to a temperature at which the ears of the inserted forest trees are rooted and grown. In the present invention, a method in which the temperature-controlled temperature is 10 ° C. or higher and / or the average temperature is 20 ° C. or higher and 35 ° C. or lower is preferable. A method in which the night temperature is 15 ° C or higher and / or the average temperature is 25 ° C or higher and 30 ° C or lower is more preferable.
In the method of the present invention, normal conditions can be used for raising seedlings other than the temperature in the facility.

In the method of the present invention, the humidity in the facility is not particularly limited. Among the methods of the present invention, a method in which the humidity is adjusted and the humidity is 60% or more is preferable, and a method in which the relative humidity is 70% or more is more preferable.
In the method of the present invention, other conditions, instruments, and the like in the method for manufacturing a normal forest tree cutting seedling using a facility can be used.
In the method of the present invention, the light conditions in the facility are not particularly limited, but a method in which the facility is shielded is preferable in order to suppress photosynthesis and respiratory activity of the cuttings after harvesting. When light shielding is performed, the light shielding rate is preferably 40% to 55%, and more preferably 40% to 50%.
Among the methods of the present invention, a method in which the ear growth after insertion is performed in a facility where the humidity condition and the light condition are adjusted in addition to the temperature condition is preferable.
In the present invention, in the low temperature period, it is preferable to heat the water in the pool, for example, to keep the water temperature at night at 10 ° C. or higher, and more preferably at 15 ° C. or higher.

  After inserting the cutting head, the method of the present invention that presses the surface of the soil to make the soil more tight increases the capillary force in the soil and more efficiently diffuses water irrigated from the bottom surface. This is preferable.

Among the methods of the present invention, a method of performing insertion using a container is preferable.
A container is an elongate container used for raising seedlings of mountain forest trees. The size of the container is, for example, an upper diameter of about 5 cm, a lower diameter of about 1.5 cm, and a height of about 15 cm, and has a tapered shape (FIG. 1). Further, the size and shape of the hole at the bottom of the container are not limited as long as the water by irrigation from the bottom can be supplied into the container.
The shape of the container is not limited, and may be substantially a truncated pyramid shape or a truncated cone shape.
A container in which adjacent containers are connected and integrated in units of several tens is called a tray or a seedling raising tray. In the present invention, such a tray can be used.
Although it is not essential to have a thin notch (side slit) on the side as a container, it is preferable to have a side slit. Air pruning can be performed by the side slits to produce side roots. Ribbed containers can also be suitably used in the method of the present invention.
Examples of containers include those manufactured by BCC (trade name: Flexi Flame) and those manufactured by Nissin Agricultural Industry (38-tree tree tray, product name: tray master). This method can be suitably used.

Step (3)
Step (3) is a step of rooting cuttings and raising seedlings of mountain forest trees in and outside the facility. The method for raising the seedling is not limited, and may be performed by a normal method. As the irrigation method, overhead irrigation or irrigation by immersion may be continued, and the method of the present invention in which irrigation from the bottom of the soil is not performed after the cuttings have rooted is preferable. Therefore, a method for producing a mountain forest tree cutting seedling comprising the following steps is preferred:
(1) A process of planting cuttings before rooting at a high density on the cultivation soil;
(2) irrigating from the bottom of the cultivated soil to immerse the cultivated soil, and supplying water to the cut end of the cutting ear;
(3 ') After rooting the roots and rooting, stop irrigation from the bottom of the soil, perform overhead irrigation, and raise the cuttings after the rooting in the facility and outdoors Process.

  The present invention also relates to mountain forest tree cuttings produced by the method of the present invention. Among the cuttings, the cuttings produced by the method of the present invention in which the water is not irrigated from the bottom of the soil after the cuttings have rooted are preferable because the development of lateral roots and fine roots is promoted.

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) Immersion test [Purpose]
Investigate whether or not there is an effect on rooting by keeping the moisture state of the underground part uniform by immersing the container bottom in water.
[Materials and methods]
・ Test site: Miyazaki ・ Types of forest trees: Japanese cedar (variety: Aoshima Arakawa)
-Ear morphology: In order to see the effects of different ear morphology, both relatively hard and relatively soft ears were tested. The head length was adjusted to 30 cm, and 5 cm from the cut end was inserted into the cultivation soil.
-Insertion date: September 18, 2012-Treatment (medium moisture management): Bottom water immersion treatment zone (the present invention: soaking the bottom of the container in a vat containing water) and mist irrigation treatment zone ( Control) was provided.
-Survey contents: Survival rate and rooting rate were investigated on November 27 of the same year (70th day after insertion).

[Results and Discussion]
Rooting was remarkably promoted in the bottom-flooded water treatment zone (the present invention: “bottom water-soft ear” and “bottom water-hard ear”) (FIG. 3). Visually, the rooting time in these bottom-flooded treatment sections was about one month earlier than the control section, and few individuals died.
From the above results, it was revealed that the method of the present invention has an effect of promoting rooting.

(Example 2) Low temperature period immersion test [Purpose]
The effect of the method of the present invention in the low temperature period will be examined.
[Materials and methods]
・ Test site: Miyazaki Prefecture ・ Types of forest trees: Japanese cedar (variety: unknown (mountain harvest))
-Shape of the spike: The length of the spike was adjusted to 30 cm, and 5 cm from the cut end was inserted into the soil.
-Insertion date: Insertion was made on February 4, 2013, and the bottom water immersion treatment was performed from the insertion until April 24.
In addition, the container with a side slit (BCC company_made: capacity | capacitance 150 ml) was used as a container.
Cultivation soil mix: Mixed soil with red crust and peat moss ・ Treatment (medium moisture and night temperature control): Bottom water immersion treatment zone (invention: soaked in the bottom of the container in a pool of water) and mist management treatment A ward (control) was established (Table 1).
The bottom-flooded treatment section was carried out for 2 months (until April 24) after inserting the bottom flooding, and thereafter, only overhead irrigation was carried out in the same manner as the normal treatment section.
In the mist irrigation treatment section, irrigation was sufficiently carried out at a rate of once per hour (1 minute) between AM 9:00 and PM 4:00.
・ Investigation contents: Survival rate and rooting rate were investigated on May 31 of the same year.

[Results and Discussion]
In the bottom flooded area (invention), both survival rate and rooting rate were high (Table 2).
Therefore, it has been clarified that the method of the present invention has an effect of promoting rooting even in insertion at a low temperature period and improves the yield of cuttings.

  ADVANTAGE OF THE INVENTION According to this invention, while the rooting rate of a forest forest tree cutting seedling improves, rooting is accelerated | stimulated and the period from planting to rooting and also the period until planting can be shortened. Therefore, the present invention greatly contributes to the development of mountain forest tree seedling industry and related industries.

1 ... cutting ear 2 ... container 3 ... seedling tray 4 ... pool (nursing bench)
5 ... water

Claims (10)

A method for producing a mountain forest tree cutting seedling including the following steps:
(1) A process of inserting the cuttings before rooting into the soil at high density;
(2) irrigating from the bottom of the cultivated soil and supplying moisture to the cut end of the cutting ear; and (3) rooting the cutting tip and raising a mountain forest tree cutting seedling in the facility and outdoors.   The method according to claim 1, wherein irrigation from the bottom surface of the soil is not performed after the cuttings have rooted. A method for producing a mountain forest tree cutting seedling including the following steps:
(1) Planting the cuttings before rooting at a density of about 200 / m ² or more on the cultivation soil;
(2) irrigating from the bottom of the soil and supplying moisture to the cut end of the cutting ear; and (3 ') irrigating from the bottom of the soil after rooting and rooting the cutting ear. The process of carrying out overhead irrigation and raising the above-mentioned rooting cuttings in the facility and outdoors in the forest forests.   The method according to any one of claims 1 to 3, wherein the irrigation from the bottom of the soil is performed by immersing the soil in water.   The method according to claim 4, wherein the height of the soil immersed in water is maintained at 3% or more and 40% or less of the height of the entire soil.   The method according to any one of claims 1 to 5, wherein the mountain forest tree is cedar or cypress. The method according to any one of claims 1 to 6, wherein a planting density of cuttings is about 200 / m ² or more.   The method according to any one of claims 1 to 7, wherein the planting is carried out on the cultivation soil placed in a container.   The method according to claim 8, wherein the container is a container with side slits.   A mountain forest tree cutting seedling produced by the method according to claim 1.