JP2003116339A - Method for cultivating plant - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for cultivating plants, making it possible to reduce the amount of compound fertilizer to be used in nutritious liquid/soil culture. SOLUTION: The method for cultivating plants comprises the following process: applying base fertilizer containing carbonized chicken manure to soil for plants, and adding fertilizer components to water to be irrigated to the soil; wherein the use of the compound fertilizer can be reduced by making the base fertilizer contain the carbonized chicken manure where the fertilizer components are concentrated to have high fertilizing effect.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a plant cultivation method.

[0002]

2. Description of the Related Art Hydroponics cultivation has been attracting attention in recent years.
This cultivation method is a cultivation method in which a fertilizer component mixed in irrigation water is supplied to a crop planted in soil, and is a method that incorporates the advantages of both hydroponics and soil cultivation. That is, the fertilizer component mixed in the irrigation water is supplied while making full use of the nutrient supply ability, the nutrient retention ability, and the buffering effect of the soil.

[0003]

However, in this cultivation method, a large amount of chemical fertilizer is used as a fertilizer component, which causes an increase in cultivation cost.

The present invention was completed in view of the above circumstances, and an object thereof is to reduce the amount of chemical fertilizer used in hydroponics cultivation.

[0005]

[Means for Solving the Problems] As a means for achieving the above object, the invention of claim 1 applies a base manure containing carbonized chicken manure into the soil of a plant, and fertilizer is applied to the irrigation water supplied to the soil. It is a method of cultivating a plant, which is characterized by adding components.

The invention of claim 2 is the method for cultivating a plant according to claim 1, characterized in that the base manure further contains peat moss.

The invention of claim 3 is the method for cultivating a plant according to claim 1 or 2, characterized in that the fertilizer component contains a nitrogen fertilizer.

[0008]

According to the invention of claim 1, the basic manure containing carbonized chicken manure is applied to the soil of the plant. Since carbonized chicken manure has a high fertilizer component and a high fertilizer effect, the use of chemical fertilizer can be reduced by including it in the base manure.

According to the invention of claim 2, the base manure further contains peat moss. In the original manure containing this carbonized chicken manure and peat moss, the carbonized chicken manure is alkaline and peat moss is acidic. Therefore, the pH of the basic fertilizer can be adjusted to a value suitable for plant growth.

According to the third aspect of the invention, the fertilizer component added to the irrigation water supplied to the soil contains nitrogen fertilizer. In the carbonization treatment of poultry manure, the carbon content of carbonized poultry manure is insufficient because nitrogen is released. However, by adding nitrogen fertilizer to the fertilizer component added to the irrigation water, the fertilizer component balance can be adjusted.

[0011]

BEST MODE FOR CARRYING OUT THE INVENTION Source fertilizer (basic fertilizer) used in the present invention
An example of the manufacturing method will be described in detail with reference to FIG.

First, an example of a method for producing carbonized chicken manure will be described. The carbonization furnace 1 used for manufacturing has a hollow, substantially columnar shape that allows an oxygen-free atmosphere to be formed therein, and a dish-shaped combustion chamber 3 having six stages in the vertical direction is provided inside the carbonization furnace 1. It is provided so that its bottom surface is substantially horizontal. The bottom surface of these combustion chambers 3 is provided with an opening (not shown) for dropping to the lower stage, and the combustion chambers 3 of 6 stages are
The shafts 5 are connected to each other at substantially the center thereof, and by rotating the shaft 5, the stirring blades (not shown) in the 6-stage combustion chamber 3 are rotated.

Approximately 50
After heating to 0 ° C., the charging hopper 7 is fed from above the carbonization furnace 1.
According to the above, the raw chicken manure is added. Then, the chicken manure is carbonized in a steamed state while rotating the shaft 5 with the air cut off. At the time of this carbonization, the temperature in the furnace was set to 400 ~ by burning the carbonization gas generated from chicken manure.
Keep at 500 ° C. Then, when the shaft 5 rotates, the chicken manure gradually drops from the opening of the combustion chamber 3 and passes through the six-stage combustion chamber 3 in about 30 to 40 minutes to produce carbonized chicken manure. The exhaust gas generated from the carbonization furnace 1 is treated by the secondary combustion furnace 9 and the cyclone 11 at about 850 ° C., and discharged as a colorless and odorless gas outdoors.

The poultry manure used as a raw material here is not particularly limited, but for example, dried poultry manure or fermented poultry manure can be used. Further, in this carbonization treatment, nitrogen, carbon, hydrogen, etc. are released, but as fertilizer components such as phosphorus, calcium, potassium, sodium, magnesium, etc., specifically, for example, P ₂ O ₅ , CaO, MgO, K ₂ O, Na ₂ O, SiO ₂ , A
L ₂ O ₃ , Fe ₂ O _3, etc. will remain in the carbonized chicken manure in a condensed form even after the carbonization treatment. Therefore, it is effective as an organic fertilizer. Further, in this process, the gas escapes from the inside and the pores make the carbonized chicken manure porous, so that the carbonized chicken manure has high water retention.

The raw manure may be any fertilizer containing carbonized chicken manure, but preferably one containing peat moss.

As peat moss, drainage peat (grass peat)
It is not particularly limited as long as it is washed with water, dried and pulverized, and known ones can be used.

When the carbonized chicken manure and peat moss are contained, the base manure is prepared by mixing them. In this case, the ratio of carbonized chicken manure to the entire original manure is not particularly limited, but from the viewpoint that the pH of the original manure is about 4.5 to 8.0, which is suitable for general cultivation, it is preferably 20 to 80 weight. %, More preferably 4
It is 0 to 50% by weight.

From the viewpoint that the fertilizer has an electric conductivity of about 0.1 to 0.5 dS / m, which is generally suitable for cultivation, it is preferably 30 to 85% by weight, more preferably 55 to 70% by weight. %.

When the manure contains carbonized chicken manure and peat moss, as described above, the manure containing carbonized chicken manure and peat moss may be produced in advance and applied to the soil. Alternatively, carbonized chicken manure or peat moss may be applied to the soil and then the other. The point is that the soil should contain carbonized chicken manure and peat moss.

In addition, other components of the source fertilizer include, for example, humic acid materials, which are animal and plant substances, shell fossils, shell powder, etc., microbial substances, and bentonite, zeolite, converter slag, ferronickel ore, fried as mineral substances. Ash, permiculite, perlite, gypsum, etc., synthetic compounds such as polymeric soil modifiers, fertilizers such as siliceous fertilizers, phosphate fertilizers, calcareous fertilizers, potash fertilizers, phosphorus fertilizers, nitrogen fertilizers, etc. good.

In the method for cultivating a plant of the present invention, such a basic fertilizer is applied to the soil of the plant, and a crop is planted in this soil.
Then, for example, the drip irrigation tube is used to supply the irrigation water containing the fertilizer component to the soil. The method for supplying the irrigation water is not particularly limited, and a known method can be used. The fertilizer component is not particularly limited, and known fertilizer components are used. For example, urea nitrogen fertilizers, nitrate nitrogen fertilizers, phosphorus phosphorus nitrogen fertilizers, and other nitrogen fertilizers, phosphoric acid, potassium, and those containing trace elements can be used. It may be diluted with water to the above concentration, or may be used as it is. It is particularly preferable to use nitrogen fertilizer. This is because nitrogen is released in the carbonization of chicken manure, and the balance of fertilizer components can be adjusted by including nitrogen fertilizer in the fertilizer components.

[0022]

The present invention will be described in more detail based on the following examples, but the invention is not intended to be limited by these examples.

(Production of Basic Manure) First, preparation of carbonized chicken manure will be described. In this example, dried chicken manure was used as a raw material for carbonized chicken manure. According to the component analysis, this dried chicken manure is
Water content 11.5%, flammable content 61.5%, carbon content 22.
It was 6% and the ash content was 27.0%. Then, 63.0 kg of this dried chicken manure was carbonized by a carbonization furnace (manufactured by Koshin Co., Ltd., product name "Evolution Ron") shown in FIG. In this carbonization furnace, the dried chicken manure was steam-baked with the air at about 400 ° C to 500 ° C blocked. And 30 ~
After 40 minutes, carbonized chicken manure was obtained. In the process of carbonizing the dried chicken manure, gas escaped from the inside and the vent hole became porous.

The carbonized chicken manure thus obtained has 2
At 3.8 kg, the component is 3 flammable components according to the component analysis.
Of 8.7%, the carbon content was 30.2% and the ash content was 61.3%. Thus, since the ash content increased from 27.0% before the treatment to 61.3% after the treatment, it can be seen that the ash content as a fertilizer component was concentrated. In addition, the carbonized chicken manure has a reduced volume and weight compared to the raw chicken manure, and is convenient for storage and handling.

Next, the pH of the carbonized chicken manure was measured. pH
Was analyzed by the glass electrode method. In particular,
500 g of pure water was added to 5 g of carbonized chicken manure, and an electrode was inserted into the obtained water-leached solution for measurement. As a result of the measurement, it was confirmed that the pH of carbonized chicken feces was 11.3 and that it was alkaline.

Further, the water retention of carbonized chicken manure was evaluated by the effective water retention amount. The measurement was performed by the centrifugation method. As a result, the effective water retention amount of carbonized chicken manure was 219 L / m ^3.
It was confirmed that it exceeds 120 L / m ³ which is generally suitable for cultivation. Therefore, it was confirmed that adding carbonized chicken manure to peat moss did not decrease the water retention but rather improved it.

On the other hand, as peat moss, unadjusted peat moss Promos TBK (made in Canada) manufactured by Nisshin Agricultural Industry Co., Ltd. was used. Then, as shown in Table 1, carbonized chicken manure and peat moss were
The base fertilizers 1 to 8 were obtained by mixing so as to be 100% by weight.

[0028]

[Table 1]

(Measurement of pH of original fertilizer) The pH of the original fertilizers 1 to 8 was measured by the glass electrode method. Specifically, 5g sample
Then, 500 g of pure water was added, and an electrode was inserted into the obtained water leachate for measurement. The results are shown in Figure 2. from this result,
It was confirmed that the pH of the original manure can be adjusted by including carbonized chicken manure. The basic fertilizer 1 which does not contain carbonized chicken manure was low in pH of 3.9 and was not suitable as the basic fertilizer. In addition, carbonized chicken manure is 2 for the whole manure.
It was confirmed that when the content of 0 to 80% by weight was included, the pH of the original fertilizer was generally about 4.5 to about 8.0, which is suitable for cultivation. As described above, since the pH of the base manure can be changed by changing the addition ratio of the carbonized chicken manure, the base manure having a pH suitable for the type of crop can be easily obtained.

(Measurement of electric conductivity (EC))
Electrical conductivity (EC) of ~ 8 was measured by the electrode method.
Specifically, 500 g of pure water was added to 5 g of the sample, and an electrode was inserted into the obtained water leachate for measurement. The results are shown in Fig. 3. From these results, it was confirmed that the electrical conductivity (EC) of the original manure can be adjusted by including carbonized chicken manure. Furthermore, carbonized chicken manure is 30 to 8 with respect to the entire base manure.
If the content of 5% by weight is included, the electric conductivity (EC) of the source fertilizer
Was confirmed to be about 0.1 to about 0.5 dS / m, which is generally suitable for cultivation. In this way, by changing the addition ratio of carbonized chicken manure, the electrical conductivity (E
Since C) can be changed, it is possible to easily obtain a fertilizer having an electric conductivity (EC) suitable for the type of crop.

(Component ratio) In Table 2, chemical fertilizer (Otsuka Chemical Co., Ltd., trade name "OK-F-1"), peat moss, potassium nitrate, ammonium nitrate, a mixture of potassium nitrate and ammonium nitrate (potassium nitrate and ammonium nitrate). (A mixture in which the weight ratio of nitrogen contained in each of them is 1: 4), and N (nitrogen), P ₂ O ₅ (phosphoric acid), K ₂ O (potassium oxide), Ca contained in carbonized chicken manure, respectively
The ratio of O (calcium oxide) and MgO (magnesium oxide) is shown.

[Table 2]

Because of such a component ratio, for example, a chemical fertilizer (Otsuka Chemical Co., Ltd., trade name "OK-F") is used.
-1 "), each component contained in 26.67 g is 4.00 g of N (nitrogen), 2.13 g of P ₂ O ₅ (phosphoric acid), and K.
₂ O (potassium oxide) 4.53g, CaO (calcium oxide) 1.60g, and MgO (magnesium oxide)
Is 0.53 g. Then, in order to adjust the source fertilizer close to this component ratio, for example, a mixture of potassium nitrate and ammonium nitrate (1: 4 by weight ratio of nitrogen) was added to 14.
85g, carbonized chicken manure 18.50g, peat moss 18.50
Mix with g. Then, N (nitrogen) is 4.32 g, P
₂ O ₅ (phosphoric acid) 2.50 g, K ₂ O (potassium oxide)
3.99 g, CaO (calcium oxide) 4.02
g and MgO (magnesium oxide) became 0.556 g, which is almost a chemical fertilizer (Otsuka Chemical Co., Ltd., trade name “OK”).
-F-1 "), which is the same as the amount of each component contained in 26.67 g.

P ₂ O ₅ (phosphoric acid) is a pretreatment absorptiometric method, K ₂ O (potassium oxide) is a pretreatment atomic absorption method, and CaO (calcium oxide) is a pretreatment atomic absorption method. Then, MgO (magnesium oxide) was measured by an atomic absorption method after pretreatment, and N (nitrogen) was measured by an titration method after acid treatment.

(Growth test) Next, a tomato growth test was conducted. In the proportions shown in Table 3, in Example 1, the planter,
Soil and manure (a mixture of carbonized chicken manure and peat moss) were mixed and put, and two tomato plants were planted in this. Then, a mixture of potassium nitrate and ammonium nitrate as a nitrogen component in a weight ratio of nitrogen of 1: 4 was added to the irrigation water for fertilization. In this case, 1 tomato per day
The amount of nitrogen applied to the plants was adjusted to 100 mg. That is, specifically, one tomato plant was fertilized with 0.144 g of potassium nitrate (amount of nitrogen of 20 mg) and 0.229 g of ammonium nitrate (amount of nitrogen of 80 mg) per day.
In this way, hydroponics was cultivated.

In Comparative Example 1, soil having the weight shown in Table 3 was placed in a planter, and two tomato plants were planted in the soil. And chemical fertilizers with the composition ratios shown in Table 2 (Otsuka Chemical Co., Ltd.)
Made under the trade name "OK-F-1") was added to the irrigation water and fertilized. In this case, the amount of nitrogen applied to one tomato plant per day was adjusted to be 100 mg. Specifically, 0.670 g (nitrogen content 100 mg) of chemical fertilizer (manufactured by Otsuka Chemical Co., Ltd., trade name “OK-F-1”) was applied to one tomato strain per day. In this way, hydroponics was cultivated.

[0036]

[Table 3]

Then, Example 1 and Comparative Example 1 were grown for 75 days under the same environment, and the growth conditions of the stems and fruits were compared. The results are shown in Fig. 4. As shown in FIG. 4, Example 1 in which the basic manure containing carbonized chicken manure was applied grew in the same manner as Comparative Example 1 in which both the stem and the fruit used the chemical fertilizer. Therefore, in the method of cultivating the plant in which the basic fertilizer containing the carbonized chicken manure is applied to the soil, the effect similar to that of the chemical fertilizer is obtained only by adding the nitrogen component as the nitrogen fertilizer to the irrigation water and supplying the same.

As described above, carbonized chicken manure has a high fertilizer component and has a high fertilizer effect. Therefore, if the manure is contained in the manure, the amount of chemical fertilizer used can be reduced. Therefore,
Cultivation costs can be suppressed, and carbonized chicken manure is an organic matter, which is preferable from the viewpoint of environmental protection. In addition, chicken dung that is discharged daily from each poultry farm can be effectively used and can be obtained at a very low price, which is advantageous in terms of cost.

[Brief description of drawings]

FIG. 1 is a sectional view showing an example of a carbonization furnace.

FIG. 2 is a graph showing the relationship between the ratio of carbonized chicken manure in the original manure and pH.

FIG. 3 is a graph showing the relationship between the proportion of carbonized chicken manure in the original manure and the electrical conductivity.

[Fig. 4] Graph showing results of growth test

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁷ Identification code FI theme code (reference) C05F 11:02) (72) Inventor Akemi Nakano 24-1 F Minami-Nane, Taketoyo-cho, Chita-gun, Aichi Reference) 2B022 AA01 BA01 BA02 BA07 4H061 AA01 BB01 CC38 CC58 HH07 JJ04

Claims (3)

[Claims] 1. A method of cultivating a plant, which comprises applying a fertilizer containing carbonized chicken manure to a soil of a plant and adding a fertilizer component to irrigation water supplied to the soil. 2. The method for cultivating a plant according to claim 1, wherein the base manure further contains peat moss. 3. The method for cultivating a plant according to claim 1, wherein the fertilizer component contains nitrogen fertilizer.