JP2000157008A - Seed-bed for scattering and method for scattering on seed-bed - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a seed-bed of dry type capable of sprouting seeds in an extremely dry season without spoiling the seeds when relatively large and soft seeds are used by constituting a seed-containing formed body containing a specific curing material-formed body, seeds included in the curing material- formed body, a culture medium and a binder. SOLUTION: This seed-bed for scattering is constituted of a curing material- formed body 2 made by compression molding a material containing a fibrous material having restoring force in a ring-like shape and a seed-containing formed body containing seeds 4, a culture medium 5 and a binder 6 included in the ring-shaped hollow part of the curing material-formed body 2. In this case, the curing material-formed body 2 is allowed to contain a coagulant and a clay mineral. The coagulant can be a polyacrylamide-hydrolyzed product and the clay mineral can be zeolite.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

FIELD OF THE INVENTION The present invention relates to a seed bed for spraying for the construction of a vegetation base for restoring greenery on a large-scale degraded bare land, and to a method of spraying such a seed bed.

[0002]

2. Description of the Related Art In general, a large-scale degraded bare land such as a mountainous area cannot be accessed by a vehicle or the like in many cases. Spreaders are constructed. This seed sprayer is not economical because it requires a large amount of water, and it can only create a thin vegetation base. For this reason, it is limited to revegetation that can be introduced even with a thin-layered vegetation base, mainly exotic herbaceous plants that have strong germination or early growth. However, since only the temporary revegetation of the herbaceous plants can be expected, the revegetation by the woody plants is desirable for the permanent revegetation.

[0003] From such a viewpoint, the inventor of the present application has developed a compression molded product containing seeds (Japanese Patent Application No. 10-157507).
No.), the introduction of woody trees that can be expected to restore
The cost of water transport by the dry method was reduced. As a result, we have succeeded in producing prima facie results for large-scale tree planting of vast degraded land. The compression molded product containing seeds according to the prior application, during molding, is compressed by changing the pressure density so as to keep the pressure on the portion where the seeds are mixed low, thereby preventing damage to the seeds. However, when large and soft seeds such as pine are used, there is a problem that even if this technique is used, damage cannot be avoided. In addition, seeds mixed in the compression molded product are separated from the ground surface when the form of the compression molded product is restored, so that water cannot be supplied from the ground surface, and germination is suppressed during the extremely dry season. .

[0004]

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a dry spraying method which does not damage the seeds when relatively large and soft seeds are used and which can germinate even in the extremely dry season. To provide a seed bed.

[0005]

According to the present invention, there is provided a cured material molded article (2) obtained by compressing a material containing a fibrous material having a restoring force into a ring shape, and a ring-shaped hollow of the cured material molded article. A seed bed (1) for spraying comprising a seed-containing molded body (3) containing a seed (4), a culture substrate (5) and a binder (6) is provided.

[0006]

BEST MODE FOR CARRYING OUT THE INVENTION (Ring-shaped cured material molded article) The cured material molded article of the present invention is compression-molded into a ring containing a fibrous material having a restoring force. A resilient fibrous material is a fibrous substance having the ability to swell by absorbing moisture due to rainfall or the like after a certain period of time after spraying, and to restore the shape before compression molding. Such a resilient fibrous material is, for example, bark containing a woody part. Cedar bark is particularly preferred as the bark. The woody part of the cedar bark contains more cocci with higher organic substance resolution than other bark, and when its living conditions, for example, water conditions, are satisfied, its function is exhibited. In addition, the bark of the cedar decomposes slowly and maintains fiber quality for a long time. The bark containing such a woody part, particularly cedar bark, protects the vegetation base by entanglement of the fiber with the vegetation base, and can activate the surrounding ecosystem by the organic matter decomposition function. Also,
Examples of the restorative fibrous material include coconut fiber and sawdust, and these materials are preferably used in a mixture with cedar bark.

The ring-shaped cured material molded article may contain a coagulant to stabilize the soil after spraying and to prevent erosion due to rainfall or the like. Examples of such a flocculant include polyacrylamide hydrolyzate, and for example, AH210P manufactured by Sanyo Kasei Co. is suitable. The curing material may further contain a clay mineral for the purpose of fertilizer retention, water retention and soil improvement, for example, zeolite, permucurite, and the like. The cured material molded article may further include a fertilizer, a water retention agent, a surfactant, and the like. Fertilizers include slow-release fertilizers such as CDU nitrogen and soluble phosphorus fertilizers, and water retention agents include superabsorbent resins. The surfactant may be used to increase the hydrophilicity of the fibrous material, and for example, octyl alcohol phosphate and the like can be used.
As a culture substrate, peat moss and zeolite can be used. Further, as an activator for activating the culture substrate, sodium alginate, VA mycorrhizal fungi and the like may be included. The shape of the cured material is restored by the absorption of moisture. However, if the restoration is too fast, the active ingredient contained in the cured material may flow out, which may adversely affect the germination and growth of the seed. In such a case, a process for delaying the speed of the shape restoration due to the absorption of moisture may be performed. As such a treatment, it is conceivable to apply, for example, a coating of a wax-like material to the outside of the ring-shaped curing material molded body. The wax-like material is hydrophobic in order to suppress the restoration of the shape of the curing material, but if it is completely water-repellent, it may not be possible to restore the fibrous material due to moisture absorption, and therefore contains a hydrophilic group such as a hydroxyl group. Preferably, it is a compound. Examples of such coating materials include aliphatic higher alcohols (for example, PE manufactured by Sanyo Chemical Co., Ltd.).
G4000S).

(Seed-containing molded article) A seed-containing molded article containing a seed, a culture substrate and a binder is formed in a ring-shaped hollow portion of the cured material molded article. As the seed, woody seeds are preferred for permanent revegetation. In particular, the seed bed of the present invention may contain any seed. However, large and soft seeds, which could not be used in conventional methods because the seeds died, can also be used, such as pine seeds. Also, seeds of Yamahagi and Itachihagi, which are used as fertilizer trees, can be used. However, if species with different properties such as germination and initial growth are mixed in the same seed bed, species with early germination and early growth may overwhelm slower species and hinder the establishment of later species. It is preferred to form a seed bed of As the binder, a wax-like material binder can be used. Examples of such a binder include the above aliphatic higher alcohols (for example,
Sanyo Chemical Industries PEG4000S) can be used. When such a binder is used, as compared with the case where a water-soluble binder is used, no water is used, and therefore, seeds are not killed during storage, and a drying step is not required at the time of manufacturing a molded article. There are advantages such as that. Aliphatic higher alcohols such as PEG as binder
When 4000S was used, it was found that good results were obtained when the binder contained an amount of 10% by volume based on the volume of the molded body.

(Method of Manufacturing Seed Bed) The ring-shaped cured material molded article (2) for the seed bed of the present invention is produced by manufacturing a hollow rod-shaped material by extrusion molding while extruding while compressing, and cutting it. can get. A conventionally known ogarite production machine for producing ogre charcoal may be used.
Ogarite making machines are generally single screw extruders with a tapered screw and cylinder,
The compact is compressed and extruded. Generally, 1/5 to 1
It is compressed at a compression ratio of / 10 to form a hollow rod.
FIG. 3 shows a schematic view of a general ogarite making machine (8).
The obtained hollow rod-shaped material is cut to obtain a ring-shaped cured material molded product (2). Thereafter, the seed (4), the culture substrate (5) and the binder (6) are mixed and heated, for example, to a temperature above the melting point of the binder to form a liquid mixture. The seed bed (1) of the present invention is obtained by loading this into a ring-shaped hollow portion of a ring-shaped cured material molded product, cooling, and solidifying. Although a hexagonal seed bed is shown in FIG. 1, other shapes such as a circle may be used.

(Spraying method) The seed bed for spraying of the present invention is shown in FIG.
By using a hopper type sprayer (hopper) (9) with a vibrator as shown in (1), it can be sprayed from a flying object such as a helicopter. The container used for spraying may be a slightly modified container used for spraying the conventional seed-containing slurry. For example, in FIG. 5, the bottom of the hopper (9) has a generally conical hopper bottom (10).
Is provided. The hopper bottom (10) is normally closed, but is opened when spraying the seed bed (1),
The seed bed (1) is sprayed through a hopper bottom opening (12) formed between the hopper body (11) and the hopper bottom (10). The opening and closing of the hopper bottom can be performed, for example, by vertically moving a vertical opening / closing device (14) driven by a motor or the like. At the lower end of the hopper body (11), a drop adjusting brush (1) for adjusting the spraying speed of the seed bed (1) is provided.
3) is attached. In addition, a vibrator (15) for vibrating the hopper bottom (10) is provided to prevent clogging of the seed bed (1). Such a hopper type sprayer is suitable for relatively large scale spraying.

The seed bed (1) can be sprayed from a ground or a flying object such as a helicopter using a hitter type spraying device (16) as shown in FIG. The spraying device (16) comprises a hollow cylinder (17) and a hitter (18).
The seed bed (1) stacked on the hollow cylinder (17) is sprayed by hitting with a hitter (18). Such a spraying device (16) is more suitable for small-scale spraying than a hopper type spraying device.

Next, FIG. 7 shows an outline of the change with time of the seed bed sprayed. (A) is a state immediately after spraying, and the seed bed that has fallen is settled in a concave portion of degraded land. (B) Moisture is absorbed by watering or rainfall, and the cured material molded body starts to recover its shape. At the time of this restoration, the curing material scatters around due to the impact of water or raindrops and a strong restoring force. Since the seed-containing molded body in the central part has no shape restoration, it maintains a state of contact without leaving the ground surface. Therefore, even if there is no subsequent rainfall (for example, during the extremely dry season), since the water can be supplied from the ground, the seeds do not die due to the depletion of the water.
(C) Further restoration by additional moisture. The ring-shaped curing material completely covers the seed-containing molded body by restoration, suppresses evaporation of water from the seeds, and exhibits a mulching effect of mitigating a change in temperature. In addition, the coagulant contained in the curing material, if desired, can aggregate the surface layer of the surrounding ground and improve vegetation conditions. (D) Germination is started under such vegetation conditions, and greening is performed. As described above, since the surface soil around the seed bed is stabilized, it is possible to easily germinate and introduce woody plants with slow initial growth.

[0013]

EXAMPLES Examples of the present invention will be described below.

Example 1 First, a cured material molded body was extruded so as to have a compression ratio of 1/10. The cured material compact contained resilient fibrous materials, flocculants and clay minerals. As a resilient fiber material, a mixture of coconut fiber, sawdust and crushed cedar bark was used. A polyacrylamide hydrolyzate (AH201P manufactured by Sanyo Chemical Co., Ltd.) was used as a flocculant, and zeolite was used as a clay mineral. further,
Some chemical fertilizer (CDU nitrogen, soluble phosphorus fertilizer) was used.
Using an Ogarite manufacturing machine (manufactured by Orion Cole Co., Ltd.), as shown in FIG.
Thereafter, the resultant was cut to a thickness of 2 cm to obtain a ring-shaped cured material molded product. Next, a culture substrate composed of peat moss and zeolite was added to a binder which was an aliphatic higher alcohol (PEG4000S manufactured by Sanyo Chemical Co., Ltd.) melted by heating. The binder was in an amount of about 10% by weight based on the weight of the mixture. Then mix the pine seeds,
This was filled into the ring-shaped hollow portion of the above-mentioned ring-shaped cured material molded product, cooled at an external temperature, and solidified. The mixing ratio of the seed bed prepared as described above is shown in Table 1 below.

Table 1: Material ratio per 1000 seed beds Item Used material name Used amount (kg) Curing material Coconut fiber 15 (ring shaped body) Sawdust 15 Cedar bark crushed material 15 Zeolite 14 AH201P 1 CDU nitrogen 1 Soluble Phosphorus fertilizer 2 Seed-containing compact peat moss 3 (ring compact) Zeolite 5 Seeds (pine) 2 PEG4000S 1

The outside of the ring-shaped curing material formed on the seed bed obtained as described above was coated with an aliphatic higher alcohol (PEG4000S manufactured by Sanyo Chemical Co., Ltd.) melted by heating. The thickness of the coating averaged about 1 mm.

COMPARATIVE EXAMPLE 1 The above-mentioned ring-shaped curing material molded product and the material constituting the molded product in the ring are mixed to form a compression molded product containing seeds by the method described in Japanese Patent Application No. 10-157507. did. A vegetation base material composed of the above components was formed using a compression molding machine of a circular cylinder type using a flywheel, and a diameter of 6
A molded product of cm × 1.5 cm was obtained. Specifically, a small amount of material was placed in the upper half (first part) of the circular press chamber, and a large amount of material was placed in the lower half (second part) and compression molded. The input amount was 200 ml in total. The weight ratio of the material was the weight ratio of the first part 1 to the second part 1.5. As a result, a compact having a high pressure density in the second portion was obtained.

1. Seed bed spraying The seed bed was sprayed from a helicopter to a 45 ° degraded bare slope using a dedicated hopper for seed bed spraying (FIGS. 4 and 5). Using the seeding rate of 10 seed beds per 1 m ² as a guide, 5000 seeds (approximately 350
kg), and the area of one application was 500 m ² . The hopper was hung from the helicopter, and the bottom of the hopper with the delivery device was lowered by a motor drive above the spraying destination, and the vibrator installed behind the hopper bottom was started to drop the seed bed through the opening. The amount of drop was adjusted by adjusting the vibration intensity of the vibrator.

2. Germination test of seed bed The seed beds obtained in Example 1 and Comparative Example 1 were sprayed as described above, and a germination state test was performed. Immediately after spraying,
Water was sprinkled at 50 mm / hour for 1 hour. Then once a day, 1
Watering was performed at a watering rate of about 1 liter per m ² .

FIG. 8 shows the test results. The solid line shows the relationship between the germination rate and the elapsed days of the seed-containing compression-molded product of Comparative Example 1, while the solid line shows the seed bed of Example 1. As is clear from FIG. 8, the seeds contained in the seed bed of the present invention germin well without dying, even if they are large and relatively soft pine seeds.

[0021]

According to the present invention, it is possible to form a dry-type seed bed for spraying which does not damage the seeds when large and relatively soft seeds are used and which can germinate even in the extremely dry season.

[Brief description of the drawings]

FIG. 1 shows a perspective view of one embodiment of the seed bed of the present invention.

FIG. 2 is a cross-sectional view of the seed bed of FIG.

FIG. 3 shows a schematic diagram of an ogallite making machine for the production of a ring-shaped curing material.

FIG. 4 is a schematic view showing one embodiment of a spraying method using a helicopter.

FIG. 5 is a side view of a hopper type spraying apparatus for spraying a seed bed according to the present invention.

FIG. 6 is a perspective view of a hitter type spraying apparatus for spraying a seed bed according to the present invention.

FIG. 7 is a drawing showing the outline of the process from seed bed application to germination.

FIG. 8 is a graph showing the test results of the germination rate of the seed bed of the present invention.

[Description of Signs] 1 ... Seed bed 2 ... Cured material molded product 3 ... Seed-containing molded product 4 ... Seed 5 ... Culture substrate 6 ... Binder 7 ... Coating 8 ... Ogarite making machine 9 ... Hopper 10 ... Hopper bottom 11 ... Hopper Body 12 Opening of hopper bottom 13 Drop adjustment brush 14 Vertical opening / closing device 15 Vibrator 16 Hitter type spraying device 17 Hollow cylinder 18 Hitter 19 Bare ground 20 Water drop or raindrop A: Cured material molding Raw material B: Cured material molded product

────────────────────────────────────────────────── ───

[Procedure amendment]

[Submission date] January 19, 2000 (2000.1.1)
9)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Claim 1

[Correction method] Change

[Correction contents]

[Procedure amendment 2]

[Document name to be amended] Statement

[Correction target item name] 0005

[Correction method] Change

[Correction contents]

[0005]

According to the present invention, a cured material molded article (2) obtained by compressing a material containing a resilient fibrous material into a ring, and a ring-shaped hollow of the cured material molded article. Included in the part, molded without compression molding,
A seed bed for spraying (1) comprising a seed-containing compact (3) containing a seed (4), a culture substrate (5) and a binder (6)
Is provided.

Claims (7)

[Claims] 1. A cured material formed by compressing a material containing a resilient fibrous material into a ring shape, and a seed, a culture substrate and a binder contained in a ring-shaped hollow portion of the cured material molded product. A seed bed for spraying comprising a seed-containing molded article containing: 2. The spraying seed bed according to claim 1, wherein the curing material molded body contains a coagulant and a clay mineral. 3. The flocculant is a polyacrylamide hydrolyzate and the clay mineral is a zeolite.
The seed bed for spraying according to claim 2. 4. The spray seed bed according to claim 1, wherein the binder is an aliphatic higher alcohol. 5. The seed bed for spraying according to claim 1, wherein the molded body of the seed bed is coated with an aliphatic higher alcohol. 6. A seed bed for spraying according to any one of claims 1 to 5, which is loaded into a hopper type spraying apparatus equipped with a vibrator, and the hopper type spraying apparatus is mounted on a helicopter,
A seed bed spraying method, comprising spraying the seed bed from the bottom of a hopper. 7. A seed bed comprising loading the seed bed for spraying according to any one of claims 1 to 5 in a hitter type spraying apparatus, and hitting with a hitter to scatter the seed bed. Spray method.