JPH0527A - Method for accelerating growth of tree - Google Patents

Abstract

PURPOSE:To accelerate the growth of a tree into the tree permitting the safe and healthy transplantation and multiplication thereof without using hormone agents having the fears of environmental pollutions and chemical damages by employing a composition containing the supernatant of a green protein- removed juice of alfalfa for promoting the rooting and root-taking of the tree. CONSTITUTION:A method for accelerating the safe and healthy growth of a tree comprises squeezing alfalfa, removing residues, heating the obtained green juice at 50-95 deg.C, filtering off the precipitated protein contents, diluting the remained supernatant (brown juice) of the green juice to produce a composition containing the brown juice as active ingredient, spraying the composition on a tree such as horse chestnut transplanted in a pot having a soil such as Kanuma soil therein for the acceleration of the rooting and/or tree-taking of the tree.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for promoting the growth of trees, and more particularly to promoting rooting and / or rooting of trees using a composition containing an alfalfa green leaf deproteinization supernatant as an active ingredient. The present invention relates to a method for promoting the growth of trees.

[0002]

[Prior art and problems to be solved by the invention] Alfalfa [Scientific name: Medicago Sativa L., American name: alfalfa]
(Alfalfa), English name: lucern, medick
s, Japanese name: It is called purple horse mackerel. ] Is a leguminous plant, and its bean sprouts can be eaten as it is,
In Europe, it is called the "king of bean sprouts" or the "father of food." It is also practiced to extract leaf proteins from foliage and use them as food or concentrated feed. On the other hand, we add water to alfalfa, tsurumasaki, barley, soybeans, etc., weigh it, leave it for about 1 month, and leave it for about one month. It is known that the yield increases (Modern Agriculture Vol.67, No.6, 170-173, 1988 and Contemporary Agriculture Vol.67, No.10, 192-195, 1988). However, this method has drawbacks such that it takes time and labor to prepare grass juice or bokashi manure because of anaerobic fermentation, and that it has a strong odor and is inconvenient to handle.

Further, green juice, which is a juice obtained by squeezing alfalfa to remove the residue, contains useful components such as green leaf protein. Therefore, it is conceivable to use the deproteinized supernatant (hereinafter referred to as brown juice) discharged when the green juice is heated and then filtered to extract the green leaf protein. Regarding the use of this brown juice, it has been tried to use it as a yeast cell culture medium, a methane fermentation medium, an alcohol fermentation medium, a method of drying or silage with alfalfa juice cake, or a method of fertilizing. However, it has not been established yet, and the method of using it has not been sufficiently examined. Moreover, the active ingredient of this brown juice has not been elucidated, and the effect of promoting the rooting and / or rooting of trees by the brown juice has hardly been examined.

Nowadays, environmental destruction is becoming a problem on a global scale, and the significance of the greening business is very significant. In particular, the role of greening trees in parks, streets, schools, private houses, middle and high-rise apartments, factories, etc. is becoming increasingly important. However, transplanting green trees is not always performed at the optimal time and is often decided due to construction reasons.In order to ensure smooth transplantation, rooting promoters (hormonal agents) and rooting agents are usually used. Agent is used. However, from the viewpoint of environmental pollution and effects on plants, there has been a demand for the development of safer, less phytotoxic, and superior drugs.

Further, it is generally widely practiced to grow a tree by cutting a branch of a parent tree and inserting it into soil to form a root. In this case, it is necessary to create a good environment by paying attention to the sun, humidity, and temperature, and to prevent wind and rain, you must use ginseng or Yoshizu, or put it in a greenhouse. At this time, if the management is not done carefully, the rooting rate will decrease. Hormonal agents are usually used to promote rooting, but drug damage (abnormalities such as malformations)
There was a problem in terms of.

[0006]

Means for Solving the Problems As a result of intensive studies to solve the above problems, the present inventors have found that brown juice has an excellent rooting and / or rooting promoting action on trees. Found and completed the present invention.

That is, the present invention provides a method for promoting growth of trees, which comprises promoting the rooting and / or rooting of trees by using a composition containing an alfalfa green leaf deproteinization supernatant as an active ingredient. To do.

The trees targeted by the present invention are not particularly limited, but especially trees used for environmental revegetation, for example, coniferous high-middle trees (Kaizukabuki, etc.), evergreen broad-leaved high-middle trees (India, boxwood, etc.), deciduous broad-leaved trees. High and middle trees (Inenju, Aesculus, etc.), evergreen shrubs (India, Azalea, etc.) are suitable.

The brown juice used in the present invention is obtained by heating and removing proteins from alfalfa used as feed or food, the raw material is easily available, and there is no problem in terms of safety to human body. There is no. Brown juice is also easy to use and has no vegetation damage.

As described above, the brown juice used in the present invention is usually discharged during the extraction of green leaf deprotein from alfalfa. That is, it is a deproteinized supernatant obtained by squeezing the cut alfalfa, dividing it into green juice and press cake, heating the obtained green juice, and filtering it to remove the green leaf proteins. Alternatively, dried alfalfa squeezed with water can be used.

The steps of squeezing alfalfa, extracting protein from green juice, etc. may be carried out by a conventional method,
There are no restrictions on the conditions such as pressure, temperature and filtration method. An example of preparing brown juice is shown below.

[0012] The cut alfalfa is squeezed by a squeezing machine to obtain green juice, and steam at 130 ° C is fed into the juice to coagulate the protein, followed by centrifugation to obtain the desired brown juice. Get the juice. In addition, in order to coagulate and remove the contained protein, acid is added to the green juice, or acid treatment such as lactic acid fermentation is performed, or heating treatment at 50 to 95 ° C. is performed. However, the brown juice obtained by such a method can be used in the present invention.

Next, Table 1 shows the component composition of brown juice.

[Table 1] Table 1 Crude protein 0.20 to 1.50% (W / W) Crude sugar 0.30 to 2.00% (W / W) Crude ash 0.03 to 0.20% (W / W) Crude fat 0.03 to 0.20% (W / W) Dry matter 1.50 to 6.00% (W / W) pH 4.0 to 6.0

In carrying out the present invention, brown
It is possible to use the juice as it is or after diluting it to a predetermined concentration with water or an organic solvent, but if necessary, vegetable fermented meal, vegetable pressed meal, vegetable saccharified meal, wood peat, paper pulp Waste fiber, grass charcoal humus, rhyolite tuff powder, bentonite, soil, compost, peat moss, humus,
Activated carbon, perlite, vermiculite, zeolite,
It can be used by being mixed with or adsorbed on a carrier such as diatomaceous earth. If desired, they can be mixed with pesticides, fertilizers, activators or the like, or used together.

In the present invention, when the composition containing brown juice as an active ingredient is used to promote rooting and / or rooting of a tree, the amount used depends on the kind of tree, method of use, time of use, etc. Generally, brown juice is used, but 0.1 for soil and soil.
A preferable effect can be obtained by adding and sprinkling so that the amount becomes ˜100 ml / m ² .

The time and method of using the composition containing brown juice as an active ingredient are as follows: the base of cuttings is dipped in a composition containing brown juice as an active ingredient, or mixed with soil or soil, or sprayed. Just do it. Similarly, in the case of transplantation as well, the root of the tree is soaked in a composition containing brown juice as an active ingredient, or
It can be mixed with the soil or soil or sprayed. To further enhance the effect, it is advisable to apply a composition containing brown juice as an active ingredient to cuttings, trees and / or soil 1 to 5 times after cutting and at the initial stage after transplanting.
Further, it may be continuously sprayed on trees every 10 to 30 days.

[0017]

EXAMPLES Next, the present invention will be described in more detail by way of examples. Example 1 The generation status of new roots (fine roots) was investigated under the following conditions. (1) Test tree species: Horse chestnut with a seedling height of 30 to 50 cm (2) Test location: Utsunomiya City, Tochigi Prefecture (3) Treatment concentration and number of test greening trees: as shown in Table 2.

[0018]

[Table 2] Table 2 ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Treatment category Concentration Number of test specimens Number of times of dispersion ━━━━ ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ 100-fold diluted solution for drug addition 15 times First time only 1000-fold diluted solution for drug addition area 15 times 2 weeks 3 times every 15 times 100 times diluted with control drug 15 times only the first time Control area (water) -15 times 3 times every 2 weeks ━━━━━━━━━━━━━━━━━━━━ ━━━━━━━━━━━━

(4) Implantation of test tree in pot pots On June 23, 1990, the cuts of the straight roots and lateral roots were adjusted and Kanuma soil was added to the extent that the growth of the test tree was not hindered. Each was transplanted into a pot pot having a diameter of 30 cm. (5) Chemical treatment In the chemical addition section, a solution of brown juice diluted to the predetermined concentration shown in Table 2 was used, and in the control chemical addition section, a commercially available plant activator (trade name: Menedale, Menedale Chemical Laboratory Co., Ltd.) A liquid prepared by diluting the product manufactured by the company) to a predetermined concentration was used. For the drug-added section and the control drug-added section, only on the day of transplantation, and for the drug-added section and the control section, the day of transplantation and 2
On July 7 and July 21, every week, the chemical treatment solutions were irrigated to such an extent that they could sufficiently flow out of the pot holes. Also, when the surface of the pot soil was dried, it was irrigated.

(6) Survey Results (Surveys were conducted on November 13 and 14, 1990.) The remaining 10 non-interim survey targets were investigated for the occurrence of new roots (fine roots). As a result, the average length of new roots and new root weight (fresh weight, dry weight) increased in the drug-added group and the control group. Especially, there was a significant difference in the average length of new roots. The results are shown in Table 3.

[0021]

[Table 3] Table 3 ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Drug-added area Control area ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ New root number (book) 17.6 15.7 17.2 17.66 (Control ratio) (100) (89) (98) (100) New root length (cm) 25.2 ^* 25.4 ^** 23.7 21.4 (Control ratio) (118) (119) (111) (100) New root weight ( g) 25.15 27.74 18.03 23.60 (control ratio) (107) (118) (76) (100) Nine dry weight (g) 10.9 9.0 6.6 8.2 (control ratio) (133) (110) (80) (100) ━ ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Note) The values in the table are the average of 10 (new root) Indicates the average root length). * There is a significant difference at the risk rate of 5% from the control area. ** There is a significant difference at the risk rate of 1% from the control area.

Example 2 Under the conditions shown below, the occurrence of new roots (fine roots) was investigated. (1) Specimen tree species: Inouenju with a seedling height of 30 cm (2) Implementation place: Ozato-gun, Saitama Prefecture (3) Treatment concentration and number of vegetative tree species tested: Table 2 of Example 1
The same conditions were used. (4) Planting of the test tree in pot pots On May 24, 1990, the diameter of the test tree was adjusted to the extent that the growth of the test tree was not hindered and the cuttings of the branches, straight roots, and lateral roots were adjusted, and red ball soil was placed. Each was transplanted into a 30 cm pot pot. (5) Chemical treatment In the chemical addition section, a solution of brown juice diluted to the predetermined concentration shown in Table 2 was used, and in the control chemical addition section, a commercially available plant activator (trade name: Menedale, Menedale Chemical Laboratory Co., Ltd.) A liquid prepared by diluting the product manufactured by the company) to a predetermined concentration was used. For the drug-added section and the control drug-added section, only on the day of transplantation, and for the drug-added section and the control section, the day of transplantation and 2
On June 7 and June 21 every week, the chemical treatment solutions were irrigated to such an extent that they could sufficiently flow out of the pot holes. May 29th and 6th
Water was sprinkled on the 4th of each month, and thereafter, water was irrigated when the surface of the pot soil became dry. However, fertilization was not performed.

(6) Survey Results (Survey was conducted on September 17, 1990.) Occurrence status of new roots (fine roots) was investigated for the remaining 10 plants which were not subject to the interim survey. As a result, new root weight (dry weight) was significantly increased in the drug-added group and the control group. The results are shown in Table 4.

[0024]

[Table 4] Table 4 ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Addition area Control area ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Number of new roots (book) 21.6 19.9 24.8 26.4 (control (Ratio) (82) (75) (94) (100) New root length (cm) 23.5 23.9 21.3 23.3 (Control ratio) (101) (103) (91) (100) New root dry weight (g) 1.09 1.05 0.82 0.86 (Control ratio) (127) (122) (95) (100) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ━ Note) The values in the table are the average of 10 plants (new roots are the average root length).

Example 3 Under the conditions shown below, a root length and root weight (fresh weight) were excavated. (1) Specimen tree species: Forsythia chinensis with a seedling height of 40 cm (2) Location: Chita-gun, Aichi Prefecture (3) Treatment concentration and number of vegetative tree species tested: As shown in Table 5.

[0026]

[Table 5] Table 5 ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Treatment category Concentration Number of test specimens Number of sprays ━━━━ ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Drug-added section 50 times diluted solution 9 times 4 times once a month Drug-added section 500 times diluted solution 9 bottles 4 times per month Drug-added section 5000-fold diluted solution 9 bottles 4 times per month Control drug-added section 100-fold diluted solution 9 bottles 4 times every month Control group (water) -9 bottles 1 month 4 times ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━

(4) Implantation of test tree in field soil On April 18, 1990, the incision of branches and leaves, straight roots and lateral roots was adjusted to the extent that the growth of the test tree was not hindered. 3m x
2m). (5) Chemical treatment In the chemical addition section, a solution of brown juice diluted to a predetermined concentration shown in Table 5 was used, and in the control chemical addition section, a commercially available plant activator (trade name: Menedale, Menedale Chemical Laboratory Co., Ltd.) A liquid prepared by diluting the product manufactured by the company) to a predetermined concentration was used. For each treatment group, 3 liters of the treatment liquid was sprinkled so as to be uniform on the base of the test tree. Watering was done on the day of transplantation, one month after May 28, two months after June 30 and three months after 8 months.
I went on the 3rd of the month. However, fertilization was not performed. (6) Survey results (The survey was conducted on February 1, 1991.) The root length and root weight (fresh weight) were excavated. As a result, the root length increased in the drug-added group and the drug-added group as compared with the control group. In addition, the root weight (fresh weight) increased in the drug-added group, the drug-added group, and the drug-added group as compared with the control group. The results are shown in Table 6.

[0028]

Table 6 Table 6 ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Drugs Drugs Drugs Control drugs Survey items Additions Additions Additions Addition area Control area ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Root length (cm) 8.0 9.8 11.1 8.0 8.2 (control ratio ) (98) (120) (135) (98) (100) Root weight (g) 27.0 18.0 23.0 17.0 16.0 (control ratio) (169) (113) (144) (106) (100) ━━━━ ━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Note) The values in the table are the average of 9 (root length is the average of maximum root length) Indicates.

Example 4 A root length and a root weight (fresh weight) were excavated under the following conditions. (1) Specimen tree type: Kaizukabuki tree with a seedling height of 70 cm (2) Location: Chita-gun, Aichi prefecture (3) Treatment concentration and number of vegetative tree species tested: Table 5 of Example 3
The same conditions were used. (4) Implantation of test tree in upland field On April 18, 1990, the incision of branches and leaves, straight roots and lateral roots was adjusted to the extent that the growth of the test tree was not hindered, and upland field (3m x
2m). (5) Chemical Treatment In the chemical addition group, a solution obtained by diluting brown juice to the predetermined concentration shown in Table 5 was used, and in the control chemical addition section, a liquid obtained by diluting a commercially available plant activator to the predetermined concentration was used. For each treatment group, 3 liters of the treatment liquid was sprinkled so as to be uniform on the base of the test tree. Watering was done on the day of transplantation, one month later on May 28th, two months later on June 30th, and three months later on August 3rd.
I went to the day. However, fertilization was not performed. (6) Survey results (The survey was conducted on February 1, 1991.) The root length and root weight (raw weight) were dug and surveyed. As a result, the root length and root weight (fresh weight) in the drug-added group, the drug-added group, and the drug-added group increased as compared with the control group.
The results are shown in Table 7.

[0030]

[Table 7] Table 7 ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Drugs Drugs Drugs Control drugs Survey items Additions Additions Additions Addition area Control area ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Root length (cm) 24 25 30 21 21 (control ratio ) (114) (119) (143) (100) (100) Root weight (g) 35 31 31 37 26 (control ratio) (135) (119) (119) (142) (100) ━━━━ ━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Note) The values in the table are the average of 9 (root length is the average of maximum root length) Indicates.

Example 5 A root length and a root weight (fresh weight) were excavated under the following conditions. (1) Specimen species: Sasanqua with a seedling height of 60 cm (2) Implementation place: Chita-gun, Aichi Prefecture (3) Treatment concentration and number of vegetative tree species tested: Table 5 of Example 3
The same conditions were used. (4) Implantation of test tree in upland field On April 18, 1990, the incision of branches and leaves, straight roots and lateral roots was adjusted to the extent that the growth of the test tree was not hindered, and upland field (3m x
2m). (5) Chemical Treatment In the chemical addition group, a solution obtained by diluting brown juice to the predetermined concentration shown in Table 5 was used, and in the control chemical addition section, a liquid obtained by diluting a commercially available plant activator to the predetermined concentration was used. For each treatment group, 3 liters of the treatment liquid was sprinkled so that it was evenly distributed around the test tree stock. Watering is 5 days after transplantation on the day of transplantation.
It was carried out on 28th of each month, 30th of June after 2 months and 3rd of August after 3 months. However, fertilization was not performed. (6) Survey results (The survey was conducted on February 1, 1991.) The root length and root weight (raw weight) were dug and surveyed. As a result, the root length increased in the drug-added group, and the root weight (raw weight) increased in the drug-added group, the drug-added group, and the drug-added group, respectively, as compared with the control group. The results are shown in Table 8.

[0032]

[Table 8] Table 8 ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Drug drug Drug drug Control drug Survey item Addition area Addition area Addition Addition group Control group ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Root length (cm) 7.8 7.0 6.8 7.0 7.2 (control ratio ) (108) (97) (94) (97) (100) Root weight (g) 17.0 16.0 14.0 17.0 13.0 (control ratio) (131) (123) (108) (131) (100) ━━━━ ━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Note) The values in the table are the average of 9 (root length is the average of maximum root length) Indicates.

[0033]

INDUSTRIAL APPLICABILITY According to the present invention, it is possible to promote tree growth, especially rooting and / or rooting, by using brown juice obtained from easily available grass alfalfa. Safe and healthy transplantation and growth can be achieved without using hormone drugs that may cause

Claims (1)

What is claimed is: 1. A method for promoting growth of a tree, which comprises promoting the rooting and / or rooting of a tree by using a composition containing an alfalfa green leaf deproteinization supernatant as an active ingredient. Method.