JP2007175048A - Culture medium to be used in organic cultivation of field crop - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an agricultural method of bringing organic waste which is a cause of environmental pollution such as food residue and livestock excrement, into resources as a raw material of liquid manure, and effectively using the liquid manure to enable making field crops branded. <P>SOLUTION: The liquid manure to be used in organic cultivation of field crops is produced by a circulative liquid manure producing system 1. The system 1 has an adjusting tank 11 to dilute organic sludge containing livestock excrement with water, aeration tanks 21-23 to subject the sludge water produced in the adjusting tank to aeration treatment, and a reaction vessel 41 to scatter and put on a filter bed the sludge water from the aeration tanks. Each of the aeration tanks and the reaction vessel 41 hold in the inside woody fragments made of cedar chips. Part of treated water obtained through the reaction vessel 41 is used as liquid manure, and the remaining is sent back to the adjusting tank and circulates the system. A medium made of cedar chips and the liquid manure obtained by the system are used together to organically cultivate field crops. As a result of this, it is possible to mass-produce high-quality, safe field crops with excellent taste. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a farming method for organically cultivating agricultural crops, a medium used in the farming method, and a liquid fertilizer manufacturing system and method used in the farming method.

  In recent years, the influence of environmental hormones due to the use of chemical pesticides, chemical fertilizers, etc. has been greatly sought, and the demand for “organic vegetables” grown without using these tends to increase year by year. Organic vegetables are vegetables that are naturally cultivated in soil where microorganisms are present without the use of agricultural chemicals, chemical fertilizers, etc., and have no adverse effects on the environment or the human body. It is becoming popular as a high and tasty vegetable.

  In recent years, in view of the increase in demand for organic vegetables, brands of organic vegetables have been proposed by production associations and the like. However, in order to achieve the branding of organic vegetables, there are the following problems, which cannot be easily achieved.

  In other words, in order to achieve the branding of organic vegetables, it must be possible to continue to provide consumers with a certain standard of quality. For this purpose, it is required to produce a large amount of vegetables with a certain standard quality and to maintain the quality continuously, that is, to perform advanced quality control.

  However, the soil quality of farmland varies greatly depending on the region, and the soil quality may vary depending on the position within a particular farmland. Therefore, even when the same fertilizer or the like is used in the same production association in the same region, the quality of the harvested vegetables varies.

  Therefore, even within the same production association, the result is that the taste and quality differ greatly depending on the producer. In some cases, even the same producer has a different taste and quality depending on the harvesting position. Therefore, because the soil quality varies depending on the farmland (or the position in the same farmland), the conventional organic farming method cannot perform quality control (such as uniform quality) required for branding. It was difficult to establish organic vegetables as a brand.

Another reason why branding is difficult is the acidification of soil.
In other words, Japan's soil is generally acidic except in some areas, and tends to gradually become acidic even in normal conditions. The main reasons are as follows.
1) The rain itself is acidic (acid rain).
2) Since there is a lot of rainfall in Japan, alkali (lime) in the soil is washed away.
3) Chemical fertilizers are frequently used in fields (many materials containing sulfur such as ammonium sulfate).

  The degree of whether the soil is acidic is indicated by pH. The pH lower than 7 (neutral) is acidic, while the higher pH is alkaline. Although there are some differences depending on the type of crop, it is generally said that the reference value suitable for growth is in the range of pH 5.5 to 6.0. And if it falls below this reference value, abnormalities occur in the nutrients of the soil and the nutrient absorption of the crops is hindered, resulting in some obstacles to the growth of the crops.

  In other words, the acid soil in Japan is likely to stagnate the growth of crops, which may reduce the yield. Therefore, it is considered difficult to achieve branding of agricultural products such as organic vegetables unless the problems related to acidification of soil are solved.

  In view of the background described above, the object of the present invention is to recycle organic waste such as food residues and livestock manure that cause environmental pollution as raw materials for liquid fertilizer, and further use the liquid fertilizer to enable branding of agricultural crops. It is to provide farming methods. Another object of the present invention is to provide a medium that enables such farming. Furthermore, another object of the present invention is to provide a liquid fertilizer production system and method that enable such farming.

  Such an object is achieved by the present invention described in the following (1) to (15).

(1) A medium used in organic cultivation of agricultural products, comprising a collection of microorganism carriers, wherein the collection of microorganism supports is composed of a porous material and / or powdered carbide. Medium to be used.

(2) A medium used for organic cultivation of agricultural crops, comprising a microbial carrier mixed with natural soil, wherein the microbial carrier is composed of a porous material and / or powdered carbide. Medium to be used.

(3) The culture medium according to (1) or (2), wherein the porous material is made of wood and / or carbide, and each porous material is processed into a strip shape.

(4) The above (1) or (2), wherein the porous material is made of cedar, and the carbide is made of any one of charcoal, bamboo charcoal, and charcoal, or any combination of two or more. The medium described.

(5) The medium according to (4) above, wherein cellulose and hemicellulose in the components contained in the porous material made of cedar are partially saccharified.

(6) The culture medium according to (1) or (2) above, which is impregnated with a diluted solution of wood vinegar, bamboo vinegar, or fir vinegar.

(7) An agricultural method characterized by using an aggregate of a porous material and / or powdered carbide supporting microorganisms as a medium instead of natural soil.

(8) A farming method characterized by using a porous material and / or powdered carbide mixed with microorganisms in natural soil as a culture medium.

(9) The agricultural method according to (7) or (8), wherein the porous material is made of wood and / or carbide, and each porous material is processed into a strip shape.

(10) The above (7) or (8), wherein the porous material is made of cedar and the carbide is made of any one of charcoal, bamboo charcoal, and charcoal, or any combination of two or more. The farming method described.

(11) The farming method according to the above (7) or (8), which is impregnated with a diluted solution of wood vinegar, bamboo vinegar, or fir vinegar.

(12) A liquid fertilizer manufacturing system used in organic cultivation of agricultural crops,
A conditioning tank for diluting organic waste with water;
Connected to the downstream side of the adjustment tank, contains a porous material carrying microorganisms, and aeration treatment of sludge water generated in the adjustment tank, a plurality of connected in series An aeration tank;
A reaction tank connected to the downstream side of the aeration tank, containing a porous material carrying microorganisms therein, and for filtering the sludge water from the aeration tank,
Part of the sludge water obtained through the reaction tank is used as liquid fertilizer, and the rest is returned to the adjustment tank.

(13) The liquid fertilizer production system according to (15), wherein the porous material is made of any one of wood and carbide or a combination thereof and is processed into a strip shape.

(14) A method for producing liquid fertilizer used in organic cultivation of agricultural crops,
Putting organic waste into the adjustment tank and diluting with water;
A process of aeration by flowing the sludge water generated in the adjustment tank into the aeration tank;
Including a step of filtering the sludge water from the aeration tank,
A method for producing liquid fertilizer, wherein a part of sludge water obtained through the reaction tank is used as liquid fertilizer, and the rest is returned to the adjustment tank.

(15) A farming method for organically cultivating crops,
Laying the medium described in (1) or (2) above,
Burying the crop so that the root of the crop is in contact with the medium,
A farming method, wherein the liquid fertilizer obtained by the system according to (12) or the method according to (14) above is applied to the embedded medium and / or the crop.

  By performing organic cultivation of a crop using the liquid fertilizer (organic nutrient solution) produced by the present invention and the medium of the present invention, it is possible to perform quality control of the crop in the cultivation process. In other words, the crops are inherently dependent on the natural environment (such as the soil quality of the natural soil), but according to the present invention, the quality in the production process can be managed in the same way as industrial products. Therefore, it is possible to produce a large amount of uniform quality crops in a uniform manner and to maintain the quality and homogeneity continuously. Therefore, according to the present invention, it is possible to achieve branding of organic vegetables, which has been difficult in the past.

  In addition, by using a liquid fertilizer (reduced organic nutrient solution) obtained by the present invention together with a medium (reduced medium) containing cedar chips, charcoal, etc., indoors that are not affected by soil or weather (all weather) It is possible to produce crops in a type cultivation house. As a result, it is possible to produce a large amount of high-quality, safe and good-tasting crops according to the demands of consumers without worrying about typhoons, heavy rains, droughts and the like.

  Moreover, the agricultural method of the present invention does not require any chemical fertilizers, and the liquid fertilizer used in the agricultural method is made from organic sludge that has been conventionally incinerated. Therefore, the global environment can be greatly improved by widely spreading the agricultural method of the present invention worldwide.

  Furthermore, according to the present invention, not only can a high-quality, safe and healthy Japanese agricultural food self-sufficiency ratio be increased, but also a high-level crop can be cultivated with low labor and low cost. As a result, it can contribute to the revitalization of the region, which in turn will bring hope and new possibilities for mountain farming that is difficult for successors.

[Liquid fertilizer production system]
First, based on FIG. 1, the manufacturing system for manufacturing the liquid fertilizer used with the organic farming method of this invention is demonstrated.

  The liquid fertilizer production system 1 shown in FIG. 1 includes an adjustment tank 11, a first aeration tank 21, a second aeration tank 22, a third aeration tank 23, a first storage tank 31, and a reaction tank 41. The second tank 32 is connected in series with each other.

  In the liquid fertilizer manufacturing method using the liquid fertilizer manufacturing system 1, liquid fertilizer (reduced organic nutrient solution) is manufactured through two major processing steps. One is wet processing by “aeration (underwater treatment)” in the aeration tanks 21 to 23, and the other is dry processing by “microbe filtration reaction” in the reaction tank 41 following the wet processing. The treated water finally obtained through the reaction tank 41 can be used as liquid fertilizer (nutrient solution) in organic cultivation of agricultural products.

  Hereinafter, the characteristic of each tank which comprises the liquid fertilizer manufacturing system 1 is demonstrated based on FIG.

  Organic waste containing livestock manure such as pigs and food waste such as food residues is crushed into the adjustment tank 11. The introduced organic waste is diluted with water in the adjustment tank 11, and as a result, sludge water containing organic matter is generated. The sludge water generated in the adjustment tank 11 is sent to the first aeration tank 21 connected to the downstream side.

  Inside the first aeration tank 21 is a porous material (strip-shaped cedar, charcoal, bamboo charcoal, etc., or two of them, carrying soil microorganisms for biotreating sludge water. A combination of more than species) is spread and a promoter for growing microorganisms is added. An infinite number of pores are formed in the porous material, and the pores contain abundant microorganisms necessary for bioprocessing and food of the microorganisms.

  The first aeration tank 21 is connected to the adjustment tank 11 on the upstream side so that a difference in height occurs. Therefore, the sludge water sent out from the adjustment tank 11 automatically flows into the first aeration tank 21 by its own weight.

  In the 1st aeration tank 21 into which sludge water flowed in, the wet process by aeration in water is performed. That is, in the first aeration tank 21, there is a rapid growth of aerobic bacteria and anaerobic bacteria due to aeration and contact agent, and the BOD source of sludge is extinguished. The sludge water subjected to the aeration process in the first aeration tank 21 is sent to the second aeration tank 22 connected to the downstream side.

  Like the 1st aeration tank 21, the inside of the 2nd aeration tank 22 contains the strip-shaped porous material, and the promoter which grows microorganisms is added. Further, the second aeration tank 22 is connected to the first aeration tank 21 on the upstream side so that a difference in height occurs. In the 2nd aeration tank 22 into which sludge water flowed, the aeration process similar to the 1st aeration tank 21 is performed, and it sends out to the 3rd aeration tank 23 connected downstream.

  Inside the third aeration tank 23, a porous material is housed and an accelerator for growing microorganisms is added, as in the aeration tanks 21 and 22. The third aeration tank 23 is connected to the second aeration tank 22 on the upstream side so that a difference in height occurs. In the 3rd aeration tank 23 into which sludge water flowed in, the aeration process similar to the 1st and 2nd aeration tanks 21 and 22 is performed, and it sends out to the 1st storage tank 31 connected downstream.

  The sludge water sent from the third aeration tank 23 is temporarily stored in the first tank 31 and sent to the reaction tank 41 by pumping up. In addition, the organic substance contained in the sludge water from the adjustment tank 11 is reduced in the aeration tanks 21 to 23 and changed to an odorless aqueous solution.

  Like the aeration tanks 21 to 23, a strip-shaped porous material is accommodated in the reaction tank 41. Sludge water (treated water) flowing from the third aeration tank 23 via the first reservoir 31 is mainly in the form of floating fine particles, and is subjected to final treatment in the reaction tank 41. The sludge water that has flowed into the reaction tank 41 contacts the porous material in the reaction tank, and is further decomposed by microorganisms.

  That is, in the reaction tank 41, the sludge water from the third aeration tank 23 is sprinkled and the BOD source of sludge is completely extinguished by the microbial contact filtration reaction. As a result, harmless and odorless liquid fertilizer suitable for organic farming is produced. Since the obtained liquid fertilizer is in a reduced state, it does not oxidize and does not rot even if left for several years. Further, according to the component analysis of the present inventor, it has been confirmed that the liquid fertilizer contains abundant components preferable for the growth of agricultural crops and does not include any components that are harmful to the human body or the environment. It was.

  Sludge water (liquid fertilizer) from the reaction tank 41 is temporarily stored in the second tank 32 on the downstream side. Part of the sludge water stored in the second tank 32 is used as liquid fertilizer in organic cultivation, and the rest is returned to the adjustment tank 41 by pumping up. In addition, when using the obtained treated water as liquid fertilizer, you may give to a crop as it is, or you may give to a crop after performing a predetermined component adjustment.

  The treated water (nutrient solution) returned from the second reservoir 32 to the adjustment tank 11 is used for dilution of livestock manure and the like separately supplied, and is sent again to the aeration tank. That is, the liquid fertilizer production system of the present invention is a “circulation” liquid fertilizer production system.

  In this liquid fertilizer production system, the kind of porous material to be accommodated in the aeration tanks 21 to 23 and the reaction tank 41 is not particularly limited, and any one of strip-like cedar (cedar chips), charcoal, and bamboo charcoal is used. It is also possible to use a mixture of two or more of these.

  Among the porous materials described above, it is preferable to use a wood strip (cedar chip) formed from a cedar thinning material, and it is preferable that the wood strip is processed so as to be porous. . When cedar wood is used as a raw material for wood chips, lignin, which is a component of cedar wood, becomes water-soluble lignin in the above manufacturing process. Even if it doesn't rot, it keeps odorless.

  When cedar chips are used as the porous material, it is preferable that cellulose and hemicellulose in the components contained in the cedar are partially saccharified. Moreover, it is preferable that this cedar chip | tip contains 65-85% of cellulose bodies, 10-25% of lignin bodies, and 5-10% of pentozan bodies. Further, the cedar chips are preferably processed to have a porosity of about 75 to 80%, a surface area of about 30 m / g, and a size of about 0.5 to 5 mm.

  In addition, the cedar chip | tip used by this invention is processed so that it may become porous, and also the cellulose and hemicellulose contained in the component of a cedar are partially saccharified in the manufacture process. Therefore, the environment has been optimized so that microorganisms can easily live on cedar chips as a result of being made porous, and the generation of microorganisms for fermentation, decomposition and digestion of BOD sources by partially saccharifying cellulose and hemicellulose・ Proliferation nutrients will be created.

  In addition, cedar wood has an advantage of low viscosity and low specific gravity. Therefore, it is possible to keep power cost required for stirring in the apparatus of the aeration tank low.

According to the liquid fertilizer manufacturing system described above, the following excellent effects are achieved.
That is, today, a large amount of food residue such as raw garbage consumes petroleum energy for incineration and the like, leading to an increase in disposal costs and deterioration of environmental pollution.
On the other hand, by using the liquid fertilizer production system of the present invention, it becomes possible to reuse all organic matter including manure of livestock for agriculture, and high quality and high safety organic by the produced liquid fertilizer. It becomes possible to grow vegetables. Therefore, by widely disseminating the liquid fertilizer production system according to the present invention, it is possible to solve the problems related to the treatment of sludge (treatment cost problems, air pollution problems, etc.), and at the same time to obtain highly functional liquid fertilizer as a byproduct Can do.

  Moreover, the amount of organic waste to be incinerated is drastically reduced by utilizing the liquid fertilizer production system described above on a global scale as well as in Japan. As a result, wasteful use of petroleum resources can be prevented and the amount of carbon dioxide generated during incineration can be suppressed. Therefore, the global warming can be effectively prevented by the spread of the liquid fertilizer production system according to the present invention.

[Medium of the present invention]
In the organic farming method according to the present application, a medium containing a microorganism carrier carrying soil microorganisms (fermented microorganisms) or a medium comprising an aggregate of the microorganism carriers is used. This microorganism carrier is composed of either a porous material or powdered carbide, or a combination of both. If necessary, the culture medium may be impregnated with a diluted liquid of wood vinegar, bamboo vinegar, or fir vinegar (for example, diluted about 500 times).

Although the material which should comprise the said porous material is not specifically limited as long as it can carry | support a soil microorganism, As a preferable specific example, wood, a carbide | carbonized_material, etc. are mentioned.
When “wood” is used as the porous material, for example, the same wood chips (cedar chips) as described above can be used.
Further, when “carbide” is used as the porous material, for example, charcoal, bamboo charcoal, charcoal or the like can be used.
In addition, when manufacturing a culture medium, 1 type of these porous materials or arbitrary combinations of 2 or more types can be used.

  Moreover, the material which should comprise the said powder-form carbide | carbonized_material is not specifically limited as long as it can carry | support a fermentation microorganism, As a preferable specific example, powder, such as charcoal, bamboo charcoal, and charcoal, is mentioned, for example. In addition, when manufacturing a culture medium, 1 type of these powdery carbides, or arbitrary combinations of 2 or more types can be used.

  Next, the merits of using “cedar wood (cedar chip)” as a constituent material of the microorganism carrier will be described.

Hardwoods are perishable because there are no holes where cocci dwell, but coniferous trees are oily. In addition, hiba and cypress have a strong antibacterial action and are not suitable for living microorganisms. In contrast, the cedar tree there is a hole of about 8 million units / m ^2, it can be said to be suitable for settle microorganisms.

In addition, cedar wood has the conditions necessary for microorganisms to biodegrade organic matter comfortably, and according to the experiments of the present inventor, from the soil as a place for the propagation of microorganisms in terms of any of the following properties: Was confirmed to be far superior.
1) The effective area is large due to the grain shape.
2) Good water retention due to porosity.
3) Good drainage.
4) Good air permeability.
5) Good heat insulation and water retention.
6) High nutrient supply capacity.

  Next, the merit of using “carbide” as a constituent material of the microorganism carrier will be described.

  Carbides such as charcoal, bamboo charcoal, and charcoal are excellent in breathability, water retention and water permeability (drainage), and contain ash, so they can supply carbonate, which is a mineral necessary for plant growth. . In addition, since many microorganisms are easy to settle in, they have excellent characteristics such as helping develop root hairs of crops and making them less susceptible to diseases. Moreover, since inorganic components necessary for plants are contained in a well-balanced manner, it contributes to improving the taste of agricultural products.

  In addition, charcoal such as charcoal and bamboo charcoal has countless fine pores, and has a surface area equivalent to about 8 tatami mats with only 1 g, and this complex particle structure provides humidity control, harmful substance adsorption, Demonstrate deodorizing properties. In particular, pelletized charcoal and bamboo charcoal have a higher porosity than pulverized coal because of their high carbonization temperature, and they retain their cell walls in a robust state, so they have excellent water retention, water permeability, and adsorptivity, and have a synergistic effect with bacteria. Improvements and composting can be expected.

  In addition, countless fine pores of charcoal enhance air permeability, enrich oxygen in the medium, and promote root development. In addition, since the soil itself is made strong by creating a soil environment in which the crops are easy to grow, the use of agricultural chemicals and chemical fertilizers can be reduced. Moreover, since the carbide has an antibacterial action, the occurrence of pest damage is reduced, and the yield is surely increased. Furthermore, since a myriad of pores can be used to maintain and proliferate various microorganisms, a special effect of preventing continuous cropping failure can be achieved.

  Among the above-mentioned carbides, bamboo charcoal has several tens of times as many micro pores as charcoal, so that various microorganisms can easily propagate, and a better soil improvement effect can be expected as compared with the case of using charcoal. In addition, because bamboo charcoal has a much higher porosity than charcoal, it is superior to charcoal in terms of water retention and harmful substance adsorption, etc., so using bamboo charcoal can enhance the function of the medium. it can. Moreover, the growth of trees takes about 10 to 20 years, whereas bamboo grows as much as mature trees in about a year, so by actively using thinned bamboo It will contribute to the protection of the natural environment.

  In addition, as a useful action of the carbide, a reduction action of the redox potential (Eh) can be mentioned. That is, since charcoal such as charcoal and bamboo charcoal is alkaline, it has the effect of reducing the redox potential of the medium (or the soil containing the medium). As a result, the oxidation of the medium is prevented, the environment around the roots is remarkably improved, the fertilization effect is enhanced, the growth is activated, and the like. In particular, soil with organic matter can be expected to have an effect of preventing spoilage during the soil fermentation decomposition process.

  As described above, charcoal such as charcoal, bamboo charcoal, and charcoal has a special action not found in mere wood. Therefore, it is preferable to use carbides such as charcoal, bamboo charcoal, and charcoal together with wood such as cedar as the constituent material of the microorganism carrier.

  Next, the merit of impregnating the culture medium having the above-described configuration with a diluted solution of wood vinegar, bamboo vinegar, or fir vinegar will be described.

  By impregnating the medium with a diluted liquid of wood vinegar, bamboo vinegar, or fir vinegar, fungi and bacteria in the medium are propagated, and inorganic substances necessary for plant growth are produced. It is considered to grow well. According to the experiment by the present inventor, when fungi and bacteria in the soil were cultured using the medium having the above-described structure, it was confirmed that the fungus propagates most in the medium using the wood vinegar diluted about 500 times. It was.

In addition, the culture medium used by this invention does not necessarily need to be comprised from aggregates, such as charcoal and a cedar chip | tip, and may be comprised by scrubbing the microorganisms carrier mentioned above into the existing natural soil.
That is, it is said that the soil suitable for plant growth has a nodule structure, and it is said that it is due to the adhesive action of humus and polysaccharides. If these are insufficient, the soil will be tight, water and air will not be supplied, the growth environment will deteriorate, and even microorganisms will not be able to live. If the above-described charcoal, bamboo charcoal, cedar chips, etc. are rubbed into such soil, voids are created in the soil, water retention and ventilation are facilitated, and the living environment of plants and microorganisms is improved.

  In addition, when the microorganism-supporting body is squeezed into natural soil, a diluted solution of the above-mentioned wood vinegar, bamboo vinegar, or fir vinegar may be sprayed. According to the experiment of the present inventor, it has been confirmed that wood vinegar and bamboo vinegar have a soil disinfecting action, and prevention of diseases such as withering disease can be expected.

[Organic farming method of the present invention]
In the agricultural method of the present invention, liquid fertilizer (reduced organic nutrient solution) obtained by the liquid fertilizer production system is used in combination with the above-described medium (reduced state medium).

  To describe a specific embodiment, first, the above-described medium is laid. This medium is impregnated with the liquid manure obtained by the above system in advance. Next, cultivation is carried out by burying crops so that the roots are in contact with the medium. In the process of cultivation, the liquid fertilizer obtained by the above system is applied to the medium and / or the agricultural crops as necessary. The method for applying liquid fertilizer is not particularly limited. For example, foliar spraying may be used, or various methods such as a method of instilling with a drip pipe may be employed.

  Since the liquid fertilizer impregnated in the medium and the liquid fertilizer imparted in the course of cultivation are in a reduced state, the medium containing cedar chips and carbides is not oxidized. Thus, it is possible to prevent plant diseases caused by soil oxidation. In addition, cedar chips and charcoal that make up the above-mentioned medium have numerous pores and are adsorbable, so the impregnated organic nutrient solution works effectively in the medium for a long time and activates soil microorganisms. Can be made. Moreover, since charcoal such as charcoal and bamboo charcoal contained in the medium is alkaline, it is possible to prevent the medium (or soil) from being oxidized. As a result, it is possible to prevent the occurrence of pests and the occurrence of continuous cropping failures and to cultivate crops well.

  According to the above-described farming method, not only can an ideal environment for growing crops be prepared, but the ideal environment can be maintained continuously. As a result, since pests and continuous cropping failures can be prevented, the quality of agricultural products can be improved. In addition, in the case of a woody medium, since management is much easier compared to natural soil, so-called soil quality can be made uniform. And as a synergistic effect of these, it becomes possible to brand agricultural products.

It is a figure which shows the structure of the liquid fertilizer manufacturing system which concerns on this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Liquid fertilizer manufacturing system 11 Adjustment tank 21 1st aeration tank 22 2nd aeration tank 23 3rd aeration tank 31 1st tank 32 2nd tank 41 Reaction tank

Claims (15)

  A medium used for organic cultivation of agricultural crops, comprising a collection of microorganism carriers, wherein the aggregate of microorganism supports is composed of a porous material and / or powdered carbide.   A medium used for organic cultivation of agricultural crops, comprising a microorganism carrier mixed with natural soil, wherein the microorganism carrier is composed of a porous material and / or powdered carbide.   The culture medium according to claim 1 or 2, wherein the porous material is made of wood and / or carbide, and each porous material is processed into a strip shape.   The medium according to claim 1 or 2, wherein the porous material is made of cedar and the carbide is made of any one of charcoal, bamboo charcoal, and charcoal, or any combination of two or more.   The culture medium according to claim 4, wherein cellulose and hemicellulose in the components contained in the cedar porous material are partially saccharified.   The culture medium according to claim 1 or 2, which is impregnated with a diluted solution of wood vinegar, bamboo vinegar, or fir vinegar.   An agricultural method characterized by using an aggregate of a porous material and / or powdered carbide supporting microorganisms as a medium instead of natural soil.   A farming method characterized by using a porous material and / or powdered carbide mixed with microorganisms in natural soil as a culture medium.   The farming method according to claim 7 or 8, wherein the porous material is made of wood and / or carbide, and each porous material is processed into a strip shape.   The agricultural method according to claim 7 or 8, wherein the porous material is made of cedar, and the carbide is made of any one of charcoal, bamboo charcoal, and black charcoal.   9. Agricultural method according to claim 7 or 8, which is impregnated with a diluted solution of wood vinegar, bamboo vinegar or fir vinegar. A liquid fertilizer manufacturing system used in organic cultivation of agricultural crops,
A conditioning tank for diluting organic waste with water;
Connected to the downstream side of the adjustment tank, contains a porous material carrying microorganisms, and aeration treatment of sludge water generated in the adjustment tank, a plurality of connected in series An aeration tank;
A reaction tank connected to the downstream side of the aeration tank, containing a porous material carrying microorganisms therein, and for filtering the sludge water from the aeration tank,
Part of the sludge water obtained through the reaction tank is used as liquid fertilizer, and the rest is returned to the adjustment tank.   The liquid fertilizer manufacturing system according to claim 15, wherein the porous material is made of any one of wood and carbide or a combination thereof and is processed into a strip shape. A method for producing liquid fertilizer used in organic cultivation of agricultural products,
Putting organic waste into the adjustment tank and diluting with water;
A process of aeration by flowing the sludge water generated in the adjustment tank into the aeration tank;
Including a step of filtering the sludge water from the aeration tank,
A method for producing liquid fertilizer, wherein a part of sludge water obtained through the reaction tank is used as liquid fertilizer, and the rest is returned to the adjustment tank. A farming method for organically cultivating crops,
Laying the medium according to claim 1 or 2,
Burying the crop so that the root of the crop is in contact with the medium,
The agricultural method characterized by giving the liquid fertilizer obtained by the system of Claim 12, or the method of Claim 14 to the said culture medium and / or the said crop which were embed | buried.

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