JP3365527B2 - Manufacturing method of organic fertilizer - Google Patents
Manufacturing method of organic fertilizerInfo
- Publication number
- JP3365527B2 JP3365527B2 JP07290094A JP7290094A JP3365527B2 JP 3365527 B2 JP3365527 B2 JP 3365527B2 JP 07290094 A JP07290094 A JP 07290094A JP 7290094 A JP7290094 A JP 7290094A JP 3365527 B2 JP3365527 B2 JP 3365527B2
- Authority
- JP
- Japan
- Prior art keywords
- fermentation
- organic
- fertilizer
- bacteria
- organic fertilizer
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Classifications
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N1/00—Microorganisms, e.g. protozoa; Compositions thereof; Processes of propagating, maintaining or preserving microorganisms or compositions thereof; Processes of preparing or isolating a composition containing a microorganism; Culture media therefor
- C12N1/14—Fungi; Culture media therefor
-
- C—CHEMISTRY; METALLURGY
- C05—FERTILISERS; MANUFACTURE THEREOF
- C05F—ORGANIC FERTILISERS NOT COVERED BY SUBCLASSES C05B, C05C, e.g. FERTILISERS FROM WASTE OR REFUSE
- C05F17/00—Preparation of fertilisers characterised by biological or biochemical treatment steps, e.g. composting or fermentation
- C05F17/10—Addition or removal of substances other than water or air to or from the material during the treatment
-
- C—CHEMISTRY; METALLURGY
- C05—FERTILISERS; MANUFACTURE THEREOF
- C05F—ORGANIC FERTILISERS NOT COVERED BY SUBCLASSES C05B, C05C, e.g. FERTILISERS FROM WASTE OR REFUSE
- C05F17/00—Preparation of fertilisers characterised by biological or biochemical treatment steps, e.g. composting or fermentation
- C05F17/20—Preparation of fertilisers characterised by biological or biochemical treatment steps, e.g. composting or fermentation using specific microorganisms or substances, e.g. enzymes, for activating or stimulating the treatment
-
- C—CHEMISTRY; METALLURGY
- C05—FERTILISERS; MANUFACTURE THEREOF
- C05F—ORGANIC FERTILISERS NOT COVERED BY SUBCLASSES C05B, C05C, e.g. FERTILISERS FROM WASTE OR REFUSE
- C05F17/00—Preparation of fertilisers characterised by biological or biochemical treatment steps, e.g. composting or fermentation
- C05F17/70—Controlling the treatment in response to process parameters
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N1/00—Microorganisms, e.g. protozoa; Compositions thereof; Processes of propagating, maintaining or preserving microorganisms or compositions thereof; Processes of preparing or isolating a composition containing a microorganism; Culture media therefor
- C12N1/20—Bacteria; Culture media therefor
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P20/00—Technologies relating to chemical industry
- Y02P20/141—Feedstock
- Y02P20/145—Feedstock the feedstock being materials of biological origin
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W30/00—Technologies for solid waste management
- Y02W30/40—Bio-organic fraction processing; Production of fertilisers from the organic fraction of waste or refuse
Landscapes
- Chemical & Material Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Health & Medical Sciences (AREA)
- Engineering & Computer Science (AREA)
- Biotechnology (AREA)
- Organic Chemistry (AREA)
- Biochemistry (AREA)
- Microbiology (AREA)
- Bioinformatics & Cheminformatics (AREA)
- Zoology (AREA)
- Wood Science & Technology (AREA)
- Genetics & Genomics (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Tropical Medicine & Parasitology (AREA)
- Molecular Biology (AREA)
- General Chemical & Material Sciences (AREA)
- Virology (AREA)
- Biomedical Technology (AREA)
- Medicinal Chemistry (AREA)
- General Engineering & Computer Science (AREA)
- General Health & Medical Sciences (AREA)
- Botany (AREA)
- Mycology (AREA)
- Fertilizers (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は、有機質肥料の製造方法
に関する。詳細には、肥料効果に優れ、しかも植物病原
菌に対する防除効果の高い有機質肥料を短期間で製造す
る方法に関する。FIELD OF THE INVENTION The present invention relates to a method for producing an organic fertilizer.
Regarding In detail, it has excellent fertilizer effect, and also has plant pathogens.
Produce organic fertilizer with high control effect against fungi in a short period of time
Regarding how to
【0002】[0002]
【従来の技術】これまで多用されてきた化成肥料は、即
効性はあるものの濃度障害による植物の成育不良や枯
れ、連用による土のやせ、環境汚染等の問題を生じてい
る。そこで、化成肥料のそのような欠点を解消するもの
として、鶏フン、豚フン、牛フン、骨粉等の動物由来の
有機質物や、油カス、麦かん、稲藁、落葉等の植物由来
の有機質物を原料とする有機質肥料が見直されている。
しかしながら、これらの有機質肥料は、分解し易い糖類
などを多量に含みその分解中に土中の酸素を奪うために
一時的な酸欠状態を生じ易くて植物の育成に害を及ぼす
ことがあり、また堆肥化するのに長い時間(一般に2週
間〜3カ月)を必要とし、しかも臭気があるという欠点
がある。2. Description of the Related Art Chemical fertilizers which have been used frequently until now have problems such as poor growth and withering of plants due to concentration disturbance, soil loss due to continuous use, environmental pollution and the like although they have immediate effects. Therefore, as a solution to such defects of the chemical fertilizer, organic matter derived from animals such as chicken dung, pork dung, beef dung, bone meal, and organic matter derived from plants such as oil dregs, barley, rice straw, and deciduous leaves. Organic fertilizers made from raw materials are being reviewed.
However, these organic fertilizers may contain a large amount of easily decomposable sugars and the like and may easily cause a temporary oxygen deficiency state to deprive the soil of oxygen during the decomposition, which may be harmful to plant growth. Further, there is a drawback that it takes a long time (generally, 2 weeks to 3 months) for composting and has an odor.
【0003】そして、近年になって、有機質原料の堆肥
化の促進のために、発酵装置の改良や微生物資材の添加
による方法が開発されている。その一例として、水産加
工場や酒造工場等の食品工場から排出される有機質廃物
にそれを分解する菌を植えて堆肥化を促進する方法が知
られているが、この方法は高価な発酵反応機を使用して
平均75℃以上の温度で発酵させる必要があるために、
熱効率や装置面で経費がかかり且つ工程的にも複雑であ
った。また、小麦フスマや脱脂米ヌカ等の有機物が有機
質肥料用の原料として有効であることが従来からも認識
されているが、それらは分解されにくいセルロースやヘ
ミセルロースを多く含んでいるために堆肥化に長い時間
がかかり(通常約40日〜2カ月)、その堆肥化を促進
するために市販の微生物資材を加えても堆肥化期間はさ
ほど短縮されない。In recent years, in order to promote composting of organic raw materials, a method by improving a fermentation apparatus or adding a microbial material has been developed. As an example, there is a known method of promoting composting by planting bacteria that decompose organic wastes discharged from food factories such as fisheries processing plants and brewing factories, which is an expensive fermentation reactor. Since it is necessary to ferment at an average temperature of 75 ° C. or higher,
The cost was high in terms of thermal efficiency and equipment, and the process was complicated. It has also been recognized that organic substances such as wheat bran and defatted rice bran are effective as raw materials for organic fertilizers, but since they contain a large amount of cellulose and hemicellulose that are difficult to decompose, they are used for composting. It takes a long time (usually about 40 days to 2 months), and adding a commercially available microbial material to promote the composting does not significantly shorten the composting period.
【0004】[0004]
【発明の内容】本発明者らは、セルロースやヘミセルロ
ースを多く含む有機物、特にアラビノキシランを多く含
む有機物から、肥効が高く、且つ簡単な方法で施肥でき
る有機質肥料を短期間で得ることを目的として研究を続
けてきた。その結果、アラビノキシランを多く含む有機
物に吸着性鉱物材料および/または炭類からなる発酵助
材を加えて、特定のアスペルギルス属の菌類の存在下で
一次発酵させた後、pHを特定の領域に調節して特定の
別の菌類の存在下で二次発酵させると、肥効の高い有機
質肥料を短期間で簡単に製造することができること、し
かもこの方法により得られた有機質肥料は、植物病原菌
に対して拮抗性を有する放線菌やその他の有用微生物を
多量に含んでいて、植物病原菌に対して極めて優れた防
除作用をも有することを見出して本発明を完成した。The present invention aims to obtain an organic fertilizer having a high fertilizing effect and capable of being fertilized by a simple method in a short time from an organic substance containing a large amount of cellulose or hemicellulose, particularly an organic substance containing a large amount of arabinoxylan. I have continued my research. As a result, after adding a fermentation aid consisting of adsorptive mineral materials and / or charcoal to an organic substance rich in arabinoxylan and performing primary fermentation in the presence of a specific Aspergillus fungus, the pH was adjusted to a specific range. Then, by performing secondary fermentation in the presence of another specific fungus, it is possible to easily produce a highly fertilizing organic fertilizer in a short period of time, and the organic fertilizer obtained by this method is effective against plant pathogens. The present invention has been completed by discovering that it contains a large amount of actinomycetes and other useful microorganisms having antagonistic properties and also has an extremely excellent control action against phytopathogenic fungi.
【0005】 すなわち、本発明は、(A)アラビノキシ
ラン含量が20重量%以上である有機物50〜80重量
%、ならびに(B)吸着性鉱物材料および炭類のうちの少
なくとも1種50〜20重量%からなる混合物、または
該混合物を主体としこれに無機質肥料成分を加えたもの
を発酵原料として用いて、(i)アスペルギルス・フラバ
ス、アスペルギルス・オリゼーおよびアスペルギルス・
ソーヤからなる菌のうちの1種または2種以上の存在下
で一次発酵させた後、(ii)ストレプトミセス属放線
菌、シュードモナス属細菌およびバシルス属細菌のうち
の1種または2種以上の存在下で二次発酵させることを
特徴とする有機質肥料の製造方法である。That is, the present invention provides (A) 50 to 80% by weight of an organic substance having an arabinoxylan content of 20% by weight or more, and (B) at least one kind of an adsorptive mineral material and charcoal of 50 to 20% by weight. A mixture of, or
Using the mixture as a main component and adding an inorganic fertilizer component thereto as a fermentation raw material, (i) Aspergillus flavus, Aspergillus oryzae and Aspergillus
After primary fermentation in the presence of one or more species of bacteria consisting of soya, (ii) the presence of one or more species of Streptomyces actinomycetes, Pseudomonas spp. And Bacillus spp. It is a method for producing an organic fertilizer characterized by secondary fermentation below.
【0006】本発明で使用するアラビノキシラン含量が
20重量%(以後「重量%」を単に「%」という)以上
である有機物(A)としては、小麦フスマ(アラビノキシ
ラン含量:通常約30〜40%)、米ヌカ(同約35〜
45%)、トウモロコシ外皮(同約35〜45%)等を
挙げることができるが、これらに限定されずアラビノキ
シラン含量が20%以上の有機物はいずれも使用でき
る。アラビノキシラン含有有機物(A)は、1種類のみを
使用しても、または2種以上を使用してもよい。有機物
中のアラビノキシラン含量が20%より低いと、放線菌
等の有用菌叢を多く含む有機質肥料が得られず、水溶性
糖類の含有量が高過ぎて堆肥化が進みにくくなり、しか
も生成する有機質肥料は異臭を有するものとなる。ここ
で、本発明では、有機物中のアラビノキシラン含量を、
Tario, Bhattiらの方法[Biochim. Biophys. Acta. 222
(1970) 339-347]で測定した。The organic substance (A) having an arabinoxylan content of 20% by weight (hereinafter, "% by weight" is simply referred to as "%") used in the present invention includes wheat bran (arabinoxylan content: usually about 30 to 40%). , Rice bran (about 35
45%), corn hulls (about 35 to 45% of the same), and the like, but not limited to these, and any organic substance having an arabinoxylan content of 20% or more can be used. The arabinoxylan-containing organic substance (A) may be used alone or in combination of two or more. If the arabinoxylan content in the organic matter is lower than 20%, an organic fertilizer containing a large amount of useful flora such as actinomycetes cannot be obtained, the content of water-soluble saccharides is too high, and composting does not proceed easily The fertilizer has an offensive odor. Here, in the present invention, the arabinoxylan content in the organic matter,
Tario, Bhatti et al. [Biochim. Biophys. Acta. 222
(1970) 339-347].
【0007】そして、成分(B)のうち、吸着性鉱物材料
の例としては、ゼオライト、バーミキュライト等の鉱物
材料を挙げることができ、これらは天然のものでも、合
成によるものでもよい。また、炭類の例としては、木
炭、クン炭、モミガラ炭、活性炭、骨炭等を挙げること
ができる。成分(B)は、吸着性鉱物材料および炭類のう
ちの1種のみを使用しても、または2種以上を併用して
もよい。成分(B)として2種以上を併用するのが好まし
く、特に吸着性鉱物材料と炭類の両方を用いるのが望ま
しい。この成分(B)は、発酵生成物の通気性の向上およ
び過度の固化の防止、有用微生物の繁殖の促進、発酵に
より生成した有用栄養分の保持能の向上等をもたらす。Among the component (B), examples of the adsorptive mineral material include mineral materials such as zeolite and vermiculite, which may be natural or synthetic. Further, examples of charcoal include charcoal, kun charcoal, chaffed charcoal, activated carbon, bone charcoal and the like. As the component (B), only one type of adsorptive mineral material and charcoal may be used, or two or more types may be used in combination. As the component (B), it is preferable to use two or more kinds in combination, and it is particularly preferable to use both the adsorptive mineral material and the charcoal. This component (B) improves the air permeability of the fermentation product and prevents excessive solidification, promotes the growth of useful microorganisms, improves the ability to retain useful nutrients produced by fermentation, and the like.
【0008】そして本発明では、アラビノキシラン含有
有機物(A)と成分(B)との合計重量に基づいて、アラビ
ノキシラン含有有機物(A)を80〜50%、および成分
(B)を20〜50%の割合で使用することが必要であ
る。成分(B)の量が20%より少ないと発酵が促進され
にくくなり堆肥化に時間がかかるようになる。一方、成
分(B)の量が50%を超えると有用な放線菌等の増殖が
少なくなり有用菌叢の多く含まれる肥料を得ることがで
きない。アラビノキシラン含有有機物(A)の量が60〜
70%で成分(B)の量が、40〜30%であるのが特に
好ましい。In the present invention, the arabinoxylan-containing organic substance (A) is contained in an amount of 80 to 50%, and the component is based on the total weight of the arabinoxylan-containing organic substance (A) and the component (B).
It is necessary to use (B) in a proportion of 20 to 50%. When the amount of the component (B) is less than 20%, fermentation is difficult to be promoted and it takes a long time for composting. On the other hand, when the amount of the component (B) exceeds 50%, the growth of useful actinomycetes and the like is reduced and a fertilizer containing a large amount of useful flora cannot be obtained. The amount of the arabinoxylan-containing organic matter (A) is 60 to
It is particularly preferred that the amount of component (B) at 70% is 40-30%.
【0009】 本発明では、アラビノキシラン含有有機
物(A)および成分(B)のみからなる混合物を発酵原料と
して用いて発酵を行っても、または該混合物に必要に応
じて無機質肥料成分を加えたものを発酵原料として用い
て発酵を行ってもよい。加え得る無機質肥料成分として
は、例えば、硫酸アンモニウムや過リン酸石灰等のチッ
ソ源、リン源、カリ源、鉄源となる無機質肥料成分等を
挙げることができ、これらは1種類のみを加えてもまた
は2種以上を加えてもよい。これらの無機質肥料成分の
添加によって本発明の肥料の肥効を高めることができ
る。また、これらの無機質肥料成分を加える場合は、ア
ラビノキシラン含有有機物(A)および成分(B)の合計重
量に基づいて、約5%以下にするのがよい。In the present invention, even if fermentation is performed using a mixture consisting of the arabinoxylan-containing organic matter (A) and the component (B) alone as a fermentation raw material, or a mixture obtained by adding an inorganic fertilizer component to the mixture as needed. Fermentation may be performed using it as a fermentation raw material. Examples of inorganic fertilizer components that can be added include inorganic fertilizer components such as a nitrogen source such as ammonium sulfate and lime superphosphate, a phosphorus source, a potassium source, and an iron source. Even if only one type is added, Alternatively, two or more kinds may be added. The fertilizing effect of the fertilizer of the present invention can be enhanced by adding these inorganic fertilizer components. Further, when these inorganic fertilizer components are added, it is preferable that the amount is about 5% or less based on the total weight of the arabinoxylan-containing organic matter (A) and the component (B).
【0010】 そして、アラビノキシラン含有有機物
(A)および成分(B)、必要に応じて更に無機質肥料成分
を加えて均一に混合して発酵原料を形成する。発酵原料
はそのまま直接一次発酵に使用してもよいが、一次発酵
用の菌を加える前に滅菌処理を施して雑菌等を死滅させ
ておくのが望ましい。発酵に際しては原料の水分含量を
発酵に適したものに調節しておくことが必要であり、発
酵前の滅菌処理を加熱水蒸気で行うのが滅菌処理と水分
含量の調節を同時に行うことができ望ましい。And, arabinoxylan-containing organic matter
(A) and component (B) and, if necessary, inorganic fertilizer component are further added and uniformly mixed to form a fermentation raw material. The fermentation raw material may be directly used for the primary fermentation as it is, but it is desirable to sterilize the bacteria to kill the bacteria before adding the bacteria for the primary fermentation. In the fermentation, it is necessary to adjust the water content of the raw material to one suitable for fermentation, and it is desirable to perform the sterilization treatment before heating with heated steam because it is possible to perform the sterilization treatment and the water content adjustment at the same time. .
【0011】本発明では、上記の発酵原料を、アスペル
ギルス・フラバス(Aspergillus flavus)、アスペルギ
ルス・オリゼー(Aspergillus oryzae)およびアスペル
ギルス・ソーヤ(Aspergillus sojae)からなる菌のう
ちの1種または2種以上の存在下でまず一次発酵させ
る。この一次発酵に用いるアスペルギルス・フラバス、
アスペルギルス・オリゼーおよびアスペルギルス・ソー
ヤはいずれも既知の菌を用いればよく、市販のものや分
譲可能なものを入手して使用することができる。市販の
または分譲可能なアスペルギルス・フラバスの例として
は、(財)発酵研究所(Institute of Fermentation, O
saka:IFO)のIFO 30106、IFO 30107、IFO30180、
(財)応用微生物学研究奨励会(Institute of Applied
Microbiology,University of Tokyo:IAM)のIAM 300
3、北海道大学農学部農芸化学科菌株保存室(Departmen
t of Agricultural Chemistry, Faculty of Agricultur
e, Hokkaido Univ.:AHU)のAHU 7407、American Type
Culture Collection, USA(ATCC)のATCC 1003等を挙げ
ることができる。また、市販のまたは分譲入手可能なア
スペルギルス・オリゼーの例としては、IFO 30102〜301
05、IAM 2648、IAM 2630、IAM 2609、AHU 7134、AHU 71
38、AHU 7139、AHU 7146 、AHU 7156、AHU 7159、AHU 7
216等を挙げることができる。更に、アスペルギルス・
ソーヤの例としては、IFO 4200、IFO 4239、IFO 4241、
IFO 4243、IFO 4244、IFO 4252、IFO 4274、IFO 4279、
IFO 4386、IFO 4391、IFO 4403、IFO 5241、IFO 3011
2、IAM 2669、AHU 7181等を挙げることができる。In the present invention, the above fermentation raw material is used in the presence of one or more species of bacteria consisting of Aspergillus flavus, Aspergillus oryzae and Aspergillus sojae. First ferment below. Aspergillus flavus used for this primary fermentation,
For Aspergillus oryzae and Aspergillus soja, known bacteria may be used, and commercially available products and those that can be distributed can be obtained and used. Examples of Aspergillus flavus that are commercially available or available for sale include the Institute of Fermentation, O.
saka: IFO) IFO 30106, IFO 30107, IFO30180,
Institute of Applied
Microbiology, University of Tokyo: IAM) IAM 300
3, Department of Agricultural Chemistry, Faculty of Agriculture, Hokkaido University (Departmen
t of Agricultural Chemistry, Faculty of Agricultur
e, Hokkaido Univ .: AHU) AHU 7407, American Type
Examples include ATCC 1003 from Culture Collection, USA (ATCC). Further, as an example of Aspergillus oryzae commercially available or available for sale, IFO 30102 to 301
05, IAM 2648, IAM 2630, IAM 2609, AHU 7134, AHU 71
38, AHU 7139, AHU 7146, AHU 7156, AHU 7159, AHU 7
216 etc. can be mentioned. In addition, Aspergillus
Examples of soya include IFO 4200, IFO 4239, IFO 4241,
IFO 4243, IFO 4244, IFO 4252, IFO 4274, IFO 4279,
IFO 4386, IFO 4391, IFO 4403, IFO 5241, IFO 3011
2, IAM 2669, AHU 7181 and the like.
【0012】一次発酵に用いる菌の量は、乾燥菌体に換
算して、発酵原料の約0.05〜0.2%程度とするの
がよい。この一次発酵では、上記した一次発酵用の菌体
をそのまま使用しても、またはそれらの菌体の少なくと
も1種を含む予備発酵物を予め製造してそれを使用して
もよい。予備発酵物を用いる場合は、アラビノキシラン
含量が20重量%以上である上記したような有機物10
〜50重量%およびバーミキュライトやゼオライトなど
の吸着性鉱物材料90〜50重量%からなる混合物に、
上記した一次発酵用の菌体の少なくとも1種を約0.0
5〜0.2重量%の割合で添加し、水分含量を35〜5
0重量%に調節して約20〜70℃の温度で発酵させて
予備発酵物をつくり、これを一次発酵用の菌体材料とし
て使用するのがよい。そして、この予備発酵物を一次発
酵用原料にその重量に対して約10〜20重量%の割合
で添加して一次発酵を行う場合は、雑菌の侵入を妨げな
がら年間を通して有機質肥料を安定した状態で製造する
ことができる。The amount of the bacteria used for the primary fermentation is preferably about 0.05 to 0.2% of the fermentation raw material in terms of dry cells. In this primary fermentation, the above-mentioned microbial cells for primary fermentation may be used as they are, or a pre-fermented product containing at least one of these microbial cells may be produced in advance and used. When the pre-fermented product is used, the arabinoxylan content of 20% by weight or more as described above organic matter 10
-50% by weight and 90-50% by weight of an adsorbent mineral material such as vermiculite or zeolite,
About 0.0 of at least one kind of the above-mentioned primary fermentation cells is used.
Add 5 to 0.2% by weight to increase the water content to 35 to 5
It is preferable that the pre-fermented product is prepared by adjusting the amount to 0% by weight and fermenting at a temperature of about 20 to 70 ° C., and using this as a bacterial cell material for primary fermentation. When the primary fermentation is carried out by adding the preliminary fermented material to the raw material for primary fermentation at a ratio of about 10 to 20% by weight, the organic fertilizer is kept stable throughout the year while preventing the invasion of various bacteria. Can be manufactured in.
【0013】一次発酵は、通常、好気性発酵であり、発
酵に際しては原料中の水分含量の調節が必要である。水
分量が多すぎると発酵熱が発生しにくくなって嫌気性発
酵が主として起こり異臭を有し且つ肥効の低い腐敗物を
生成し易くなる。一方、水分含量が少ないと、発酵温度
が急激に上昇して有効成分であるチッソ分等の揮発や有
用微生物の死滅を招く。一般的には、発酵原料の合計重
量に基づいて水分含量を約35〜50%、特に約40〜
45%にして一次発酵を行うのが望ましい。一次発酵を
均一に行うために、発酵原料中の水分を均一にする必要
があるのでよく混合する。そして、一次発酵期間中、発
酵物の品温を約20〜75℃に保つのがよい。品温が7
5℃よりも高いと、チッソ分等の揮発や有用微生物の死
滅を招き易く、一方、20℃よりも低いと好気性発酵が
不充分になって、アラビノキシラン含有有機物(A)中の
成分の有用成分への変換、有用微生物の増殖等を達成で
きない恐れがある。発酵物の品温を約20〜75℃に保
つための具体的方法としては、発酵中の雰囲気温度を2
0〜40℃、特に25〜30℃にコントロールすること
により充分達成できる。The primary fermentation is usually aerobic fermentation, and it is necessary to control the water content in the raw material during fermentation. When the water content is too large, the heat of fermentation is less likely to be generated, and anaerobic fermentation mainly occurs to easily produce a spoilage substance having an offensive odor and a low fertilizing effect. On the other hand, when the water content is low, the fermentation temperature rapidly rises, which causes volatilization of the active ingredient, such as nitrogen, and death of useful microorganisms. Generally, the water content is about 35-50%, especially about 40-, based on the total weight of the fermented feedstock.
It is desirable to carry out primary fermentation at 45%. In order to carry out the primary fermentation uniformly, it is necessary to make the water content in the fermentation raw material uniform, so mix well. And, during the primary fermentation period, the temperature of the fermented product is preferably kept at about 20 to 75 ° C. Product temperature is 7
If it is higher than 5 ° C, volatilization of nitrogen content and the death of useful microorganisms are likely to occur, while if it is lower than 20 ° C, aerobic fermentation becomes insufficient, and usefulness of components in the arabinoxylan-containing organic matter (A) It may not be possible to achieve conversion to components or growth of useful microorganisms. As a specific method for maintaining the product temperature of the fermented product at about 20 to 75 ° C., the atmospheric temperature during fermentation is set to 2
It can be sufficiently achieved by controlling at 0 to 40 ° C, especially at 25 to 30 ° C.
【0014】この一次発酵は、水分含量を調節した発酵
原料を堆積させ、品温を上記した温度範囲に維持するよ
うに堆積した発酵原料の切り返しや撹拌を一次発酵の終
了まで数回行う。一次発酵の終了は、原料として使用し
たフスマ等の粒状物がすべて団塊状または団粒状になっ
た時点を目安とすることにより知ることができる。ま
た、発酵開始時には発酵原料中の水溶性全糖量は、通
常、原料1g当たり約30〜50mgであるが、一次発
酵が進行するにつれて発酵原料中の水溶性全糖量が減少
してゆくので、発酵物1g当たりの水溶性全糖量が約2
0〜25mgになった時点をもって一次発酵の終了とす
るのがよい。また、この一次発酵の終了時には発酵原料
中に添加した上記菌類が増殖してくるので、それらの菌
数の合計が通常1×106個/g以上になった時点をもっ
て一次発酵の終了とすることもできる。例えば、水分含
量を約40%に調節した上記発酵原料に、その0.1%
の乾燥した上記一次発酵用菌類を加えて、雰囲気温度を
約25〜30℃にコントロールして発酵させた場合に
は、通常、約30〜80時間で一次発酵が終了する。In this primary fermentation, the fermentation raw material whose water content is adjusted is deposited, and the deposited fermentation raw material is cut back and stirred several times until the end of the primary fermentation so as to maintain the product temperature in the above temperature range. The end of the primary fermentation can be known by using the time when all the granules such as bran used as a raw material become aggregated or aggregated. The amount of water-soluble total sugar in the fermentation raw material at the start of fermentation is usually about 30 to 50 mg per 1 g of the raw material, but the amount of water-soluble total sugar in the fermentation raw material decreases as the primary fermentation proceeds. , The total amount of water-soluble sugar per gram of fermented product is about 2
It is preferable to finish the primary fermentation when the amount reaches 0 to 25 mg. Further, since the above-mentioned fungi added to the fermentation raw material grow at the end of this primary fermentation, the primary fermentation is completed when the total number of these bacteria is usually 1 × 10 6 cells / g or more. You can also For example, 0.1% of the above fermentation raw material whose water content is adjusted to about 40%
When the above-mentioned dried primary fermentation fungus is added and the fermentation is carried out while controlling the ambient temperature to about 25 to 30 ° C, the primary fermentation is usually completed in about 30 to 80 hours.
【0015】一次発酵終了時の発酵物のpHは通常4.
0〜5.5付近になっており、これは一次発酵に用いる
糸状菌(アスペルギルス属菌)の生育には適当である
が、次の二次発酵に用いる菌類の発酵には適していな
い。しかも、発酵物のpHが5.5以下であると嫌気的
な条件になり易く、好気的条件下で働く二次発酵菌類の
活性を阻害し、そのままでは二次発酵に円滑に移行する
ことが困難である。そのため、本発明では、一次発酵終
了後に発酵物のpHを6.0〜7.5、特に6.5〜
7.0に調整することが好ましい。pHの調整には、塩
基性無機化合物および塩基性有機化合物のいずれもが使
用でき、そのうちでも経済的で安全性が高いことから消
石灰を使用するのが好ましい。一次発酵物のpHを6.
0〜7.5に調整するに当たっては、消石灰などの塩基
性化合物を粉末等の固体状でそのまま一次発酵終了物に
添加して混合する方法、塩基性化合物を水等の液体に溶
解または分散させて一次発酵終了物に添加混合する方法
などを用いることができる。The pH of the fermented product at the end of the primary fermentation is usually 4.
It is around 0 to 5.5, which is suitable for growth of filamentous fungi (Aspergillus spp.) Used for primary fermentation, but not suitable for fermentation of fungi used for the next secondary fermentation. In addition, if the pH of the fermented product is 5.5 or less, anaerobic conditions are likely to occur, which inhibits the activity of the secondary fermenting fungi that work under aerobic conditions, and allows the secondary fermentation to proceed smoothly as it is. Is difficult. Therefore, in the present invention, the pH of the fermented product after the primary fermentation is 6.0 to 7.5, particularly 6.5.
It is preferably adjusted to 7.0. For adjusting the pH, either a basic inorganic compound or a basic organic compound can be used. Among them, slaked lime is preferably used because it is economical and highly safe. The pH of the primary fermented product is 6.
In adjusting to 0 to 7.5, a method in which a basic compound such as slaked lime is added as it is in a solid state such as powder to the primary fermentation finished product and mixed, or a basic compound is dissolved or dispersed in a liquid such as water It is possible to use a method of adding and mixing to the primary fermentation finished product.
【0016】次いで、pHを6.0〜7.5に調整した
一次発酵物をアラビノキシランを資化できるストレプト
ミセス(Streptomyces)属の放線菌、シュードモナス
(Pseudomonas)属の細菌およびバシルス(Bacillus)
属の細菌のうちの1種または2種以上の存在下で二次発
酵させるが、この際pHを6.0〜9.0、特に7.0〜
7.5にして二次発酵させることが好ましい。
その際のストレプトミセス(Streptomyces)属の放線菌
としては、特にストレプロミセス・ヘイミ(Streptomyc
es heimi)、ストレプトミセス・フラベオラス(Strept
omyces flaveolus)、ストレプトミセス・ミシオネンシ
ス(Streptomyces misionensis)、ストレプトミセス・
ヒューマナス(Streptomyces fumanus)、ストレプトミ
セス・アルブラス(Streptomyces albulus)およびスト
レプトミセス・グリセオフスカス(Streptomyces grise
ofuscus)等の菌類が資化効果が高く有用である。ま
た、有用なシュードモナス(Pseudomonas)属の細菌の
例としてはシュードモナス・フルオレセンス(Pseudomo
nas fluorescens)、シュードモナス・プチダ(Pseudom
onas putida)等を、そして有用なバシルス(Bacillu
s)属の細菌の例としてはバシルス・サーキュランス(B
acillus circulans)、バシルス・ズブチルス(Bacillu
s subtilis)等を挙げることができる。Next, the primary fermented product whose pH is adjusted to 6.0 to 7.5 is actinomycete of the genus Streptomyces capable of assimilating arabinoxylan, bacteria of the genus Pseudomonas, and Bacillus.
Secondary fermentation is carried out in the presence of one or more bacteria belonging to the genus, and at this time, the pH is 6.0 to 9.0, particularly 7.0.
It is preferable to carry out the secondary fermentation to 7.5. As the actinomycetes of the genus Streptomyces at that time, especially Streptomyces heimi (Streptomyc)
es heimi), Streptomyces flaveolus (Strept
omyces flaveolus), Streptomyces misionensis (Streptomyces misionensis), Streptomyces
Humanus (Streptomyces fumanus), Streptomyces albulus and Streptomyces griseofuscus
fungus such as ofuscus) is useful because of its high assimilation effect. Pseudomonas fluorescens (Pseudomonas) is an example of a useful bacterium of the genus Pseudomonas.
nas fluorescens), Pseudomonas putida
onas putida) and useful bacillus (Bacillu
s) bacteria include Bacillus circulans (B
acillus circulans), Bacillus subtilis
s subtilis) and the like.
【0017】この二次発酵に用いるストレプトミセス属
の放線菌、シュードモナス属の細菌およびバシルス属の
細菌もいずれも既知のものを使用すればよく、市販のも
のまたは分譲入手可能なものを使用することができる。
ストレプトミセス・ヘイミの例としてはIFO 13048、ATC
C 25460を、ストレプトミセス・フラベオラスの例とし
てはIFO 3408、IFO 3715、IFO 12768、ATCC 3319を、ス
トレプトミセス・ミシオネンシスの例としてはIFO 1306
3、ATCC 14991、ATCC 25475を、ストレプトミセス・ヒ
ューマナスの例としてはIFO 13042、ATCC 19904、ATCC
25454を、ストレプトミセス・アルブラスの例としてはI
FO 13410、IFO 14147、ATCC 12757を、ストレプトミセ
ス・グリセオフスカスの例としてはIFO 12870、ATCC 23
916を挙げることができる。また、シュードモナス・フ
ルオレセンスの例としてはIFO 13922、IFO 14160、IAM
1092、IAM 1154を、シュードモナス・プチダの例として
はIFO 3738、IFO 12653、IF0 12996、IFO 13696、IFO 1
4164、IFO 14796、ATCC 8209、ATCC 12633を挙げること
ができる。更にバシルス・サーキュランスの例としては
IFO 3329、IFO 3967、IFO 13625〜13640、IAM 1140、AH
U 1363、AHU 1365、AHU 1646、ATCC 4513、ATCC 8384、
ATCC 9966、ATCC 14175、ATCC 14176を、バシルス・ズ
ブチルスの例としてはIFO 13722、IFO 14117、IFO 1414
0、IFO 14144、IFO 14191、IFO 14192、IFO 14357、IFO
14411〜14419、ATCC 19659等を挙げることができる。As the actinomycetes of the genus Streptomyces, the bacterium of the genus Pseudomonas and the bacterium of the genus Bacillus used for this secondary fermentation, known ones may be used, and commercially available ones or those available for sale You can
Examples of Streptomyces heimi are IFO 13048, ATC
C 25460, IFO 3408, IFO 3715, IFO 12768, ATCC 3319 for Streptomyces flaveolus, and IFO 1306 for Streptomyces misionensis.
3, ATCC 14991, ATCC 25475, as examples of Streptomyces humanus IFO 13042, ATCC 19904, ATCC
25454, I as an example of Streptomyces albus
FO 13410, IFO 14147, ATCC 12757, and IFO 12870, ATCC 23 as an example of Streptomyces griseofuscus
916 can be mentioned. Examples of Pseudomonas fluorescens are IFO 13922, IFO 14160, IAM.
1092, IAM 1154, IFO 3738, IFO 12653, IF0 12996, IFO 13696, IFO 1 as examples of Pseudomonas putida
4164, IFO 14796, ATCC 8209, ATCC 12633 can be mentioned. Furthermore, as an example of Bacillus Circulance
IFO 3329, IFO 3967, IFO 13625-13640, IAM 1140, AH
U 1363, AHU 1365, AHU 1646, ATCC 4513, ATCC 8384,
ATCC 9966, ATCC 14175, ATCC 14176, examples of Bacillus subtilis IFO 13722, IFO 14117, IFO 1414
0, IFO 14144, IFO 14191, IFO 14192, IFO 14357, IFO
14411-14419, ATCC 19659, etc. can be mentioned.
【0018】二次発酵に用いる菌の量は、乾燥菌体に換
算して、一次発酵で得られた生成物の重量に基づいて約
0.05〜0.2%程度とするのがよい。この二次発酵
では、上記した純粋な乾燥菌体の他に、それらの菌体の
少なくとも1種を含む発酵製品を使用してもよい。例え
ば、これから述べるこの二次発酵により得られる二次発
酵生成物の一部を採取して、それを二次発酵用の菌体と
して一次発酵終了物に加えて二次発酵を行うことができ
る。その場合には、乾燥した前に製造したロットの二次
発酵生成物を約5〜20%添加して次に製造するロット
の二次発酵を行うとよい。The amount of the bacterium used for the secondary fermentation is preferably about 0.05 to 0.2% based on the weight of the product obtained by the primary fermentation in terms of dry cells. In this secondary fermentation, a fermented product containing at least one of the above-mentioned pure dry cells may be used in addition to the pure dry cells described above. For example, a part of the secondary fermentation product obtained by the secondary fermentation to be described below can be collected, and the secondary fermentation can be performed by adding the collected secondary fermentation product as a microbial cell for the secondary fermentation to the primary fermentation finished product. In that case, it is advisable to add about 5 to 20% of the secondary fermentation product of the lot produced before drying to perform the secondary fermentation of the lot produced next.
【0019】この二次発酵も、通常、好気性発酵であ
り、発酵に際しては原料中の水分含量の調節および発酵
温度の調節が必要である。水分量が多過ぎたりまたは少
な過ぎると、一次発酵の場合と同様の問題を生じ、更に
発酵温度が高過ぎたりまたは低過ぎても一次発酵におけ
るのと同じような不良な結果を招く。一般的には、一次
発酵生成物の重量に基づいて水分含量を約30〜45
%、特に約40〜45%にし、かつ品温を約20〜75
℃に保つのがよい。該品温を保つための具体的な方法
は、前記一次発酵時の雰囲気温度のコントロールと同様
にすればよい。二次発酵時に、水分含量を調節した一次
発酵生成物を堆積させ、品温を上記した温度範囲に維持
するように堆積物の切り返しや撹拌を二次発酵の終了ま
で数回行うのがよい。二次発酵の終了は、粒度の細かい
サラサラした粒状生成物が得られることにより知ること
ができる。また、より厳密には、発酵生成物1g当たり
の水溶性全糖量が約5mg以下になった時点をもって二
次発酵の終了とするのがよい。一般に、二次発酵生成物
またはその抽出液中の水溶性全糖量がゼロに近いほど有
機質肥料としての効果が高く望ましい。This secondary fermentation is also usually aerobic fermentation, and it is necessary to control the water content in the raw material and the fermentation temperature during fermentation. Too much or too little water causes the same problems as in primary fermentation, and too high or too low fermentation temperature results in the same poor results as in primary fermentation. Generally, the water content is about 30-45 based on the weight of the primary fermentation product.
%, Especially about 40-45%, and the product temperature is about 20-75
It is good to keep at ℃. A specific method for maintaining the product temperature may be the same as the control of the atmospheric temperature during the primary fermentation. At the time of the secondary fermentation, it is preferable to deposit the primary fermentation product whose water content has been adjusted, and cut back and agitate the deposit several times until the secondary fermentation is completed so as to maintain the product temperature in the above-mentioned temperature range. The end of the secondary fermentation can be known by obtaining a granular product with a fine particle size. More strictly, it is preferable to finish the secondary fermentation when the water-soluble total sugar amount per 1 g of the fermentation product is about 5 mg or less. Generally, the closer the amount of water-soluble total sugar in the secondary fermentation product or its extract is to zero, the higher the effect as an organic fertilizer and the more desirable.
【0020】この二次発酵中、そのpHは菌の増殖にし
たがって上昇する傾向にあり、二次発酵2〜3日後には
pHが9以上になり易い。しかし、pHが9よりも高い
と上記した二次発酵用の菌類の生育が阻害されて発酵が
進まなくなり易いので、pHを9以下に調整することが
好ましい。pHの調整に当たっては、弱酸性の無機化合
物および有機化合物のいずれも使用できる。そのうちで
も弱酸性無機化合物が好ましく、入手し易くしかも植物
に対する障害が少ないことから、リン酸一ナトリウムな
どの弱酸性リン酸塩がより好ましい。二次発酵時のpH
調整に際しては、継続的にまたは断続的に二次発酵物の
pHを測定して、pHが9を超えそうになったらリン酸
一ナトリウム等の弱酸性化合物を発酵物中に添加混合す
るとよく、その際に弱酸性化合物は粉末等の固体状でそ
のまま二次発酵途中の発酵物に添加混合しても、または
水等の液体に溶解または分散させて添加混合してもよ
い。そして、pH調整剤としてリン酸一ナトリウムなど
の弱酸性化合物を使用した場合には、二次発酵時のpH
の調整と併せて、消臭効果を有するので好ましい。During the secondary fermentation, the pH thereof tends to increase as the bacteria grow, and the pH tends to be 9 or more after 2 to 3 days of the secondary fermentation. However, if the pH is higher than 9, the growth of the above-mentioned fungi for secondary fermentation is hindered and the fermentation is apt to not proceed. Therefore, it is preferable to adjust the pH to 9 or less. In adjusting the pH, both weakly acidic inorganic compounds and organic compounds can be used. Of these, weakly acidic inorganic compounds are preferable, and weakly acidic phosphates such as monosodium phosphate are more preferable because they are easily available and cause less damage to plants. PH during secondary fermentation
In the adjustment, the pH of the secondary fermented product is continuously or intermittently measured, and when the pH is about to exceed 9, a weak acidic compound such as monosodium phosphate may be added and mixed into the fermented product, At that time, the weakly acidic compound may be added to and mixed with the fermented product in the course of secondary fermentation as it is in a solid state such as powder, or may be dissolved or dispersed in a liquid such as water and added and mixed. When a weakly acidic compound such as monosodium phosphate is used as the pH adjuster, the pH during the secondary fermentation is
It is preferable because it has a deodorizing effect together with the adjustment of.
【0021】上記したようにして二次発酵を行うと、二
次発酵の終了時には発酵生成物中で二次発酵用に添加し
た上記の菌類が増殖しており、それらの菌数の合計が通
常1×107個/g以上になった時点をもって二次発酵の
終了とすることもできる。例えば、水分含量を35%に
調節した一次発酵生成物に、その0.1%に相当する乾
燥した上記二次発酵用菌類を加えて、雰囲気温度を約2
5〜30℃にコントロールして発酵させた場合には、通
常、約48〜100時間程度で二次発酵が終了する。When the secondary fermentation is carried out as described above, at the end of the secondary fermentation, the above-mentioned fungi added for secondary fermentation are growing in the fermentation product, and the total number of these bacteria is usually The secondary fermentation can be terminated when the concentration reaches 1 × 10 7 cells / g or more. For example, to the primary fermentation product having a water content adjusted to 35%, the dried secondary fermentation fungus corresponding to 0.1% thereof is added to the ambient temperature of about 2%.
When the fermentation is controlled at 5 to 30 ° C, the secondary fermentation is usually completed in about 48 to 100 hours.
【0022】したがって本発明による場合は、原料中の
水分含量を約35〜50%にして雰囲気温度を約25〜
30℃にコントロールして発酵を行う標準条件下では、
アラビノキシラン含有有機物の堆肥化が一次発酵から通
算して約78〜180時間で達成できる。また、一次発
酵および二次発酵は、堆積した原料の数回の切り返しま
たは撹拌による方法に限定されず、原料の好気性発酵が
円滑に行い得る限りはいずれの方法も採用でき、例えば
原料を絶えず撹拌しながら発酵させることもできる。Therefore, according to the present invention, the water content in the raw material is set to about 35 to 50% and the ambient temperature is set to about 25 to 50%.
Under standard conditions where fermentation is controlled at 30 ° C,
Composting of arabinoxylan-containing organic matter can be achieved in about 78 to 180 hours in total from the primary fermentation. Further, the primary fermentation and the secondary fermentation are not limited to the method of cutting back or stirring the deposited raw material several times, and any method can be adopted as long as the aerobic fermentation of the raw material can be smoothly performed, for example, the raw material is constantly It can also be fermented with stirring.
【0023】ところで、アスペルギルス・フラバス(As
pergillus flavus)、アスペルギルス・オリゼー(Aspe
rgillus oryzae)およびアスペルギルス・ソーヤ(Aspe
rgillus sojae)等の菌は、醤油の製麹等に用いられる
安全性の高い菌であり、しかもプロテアーゼ活性やアミ
ラーゼ活性が極めて高く、蛋白質や澱粉質の分解性能に
優れていることは広く知られている。しかしながら、本
発明者らの研究によると、これらの菌のみではセルロー
スやヘミセルロース、特にアラビノキシランを含む有機
物の分解率が低く、アラビノキシラン含有有機物を堆肥
化できなかった。また、これらの菌を使用してアラビノ
キシラン含有有機物の堆肥化を行った場合には植物体の
生育を阻害する糸状菌が優勢菌として残り、そのままで
は肥料として利用できない。それに対して、本発明で
は、これらの菌による一次発酵生成物を、ストレプトミ
セス(Streptomyces)属の放線菌、シュードモナス(Ps
eudomonas)属の細菌およびバシルス(Bacillus)属の
細菌のうちの1種または2種以上を使用して二次発酵さ
せて、従来肥料化の困難であったアラビノキシラン含有
有機物から肥効の高い有機質肥料を短期間に製造するこ
とを可能にしたのである。By the way, Aspergillus flavus (As
pergillus flavus), Aspergillus oryzae (Aspe
rgillus oryzae) and Aspergillus soya (Aspe
It is widely known that bacteria such as rgillus sojae) are highly safe bacteria used for soy sauce koji, etc., and have extremely high protease activity and amylase activity and excellent protein and starch degrading performance. ing. However, according to the research conducted by the present inventors, the decomposition rate of organic substances containing cellulose and hemicellulose, particularly arabinoxylan, was low, and the arabinoxylan-containing organic substance could not be composted with only these bacteria. Further, when the arabinoxylan-containing organic matter is composted using these bacteria, filamentous fungi that inhibit the growth of plants remain as the dominant bacteria and cannot be used as fertilizers as they are. On the other hand, in the present invention, the primary fermentation products of these bacteria are treated with the actinomycetes of the genus Streptomyces, Pseudomonas (Ps).
Organic fertilizer with high fertilizing effect from arabinoxylan-containing organic matter which has been difficult to fertilize by secondary fermentation using one or more species of bacteria of the genus eudomonas and bacteria of the genus Bacillus It made it possible to manufacture in a short period of time.
【0024】二次発酵後に得られた本発明の有機質肥料
は、そのまま早めに使用するか、または有用微生物を殺
さない条件下で充分に乾燥した後に湿気を通さない袋や
他の容器に入れて保存しておくとよい。本発明の有機質
肥料は、悪臭のないサラサラした微粒状であって、取り
扱いが極めて容易である。本発明の有機質肥料は、草
花、野菜、稲、麦、豆類、樹木、果樹等のいずれの植物
に対しても有効に使用できる。そのうちでも、本発明の
肥料は、特に芝草用肥料として適している。芝草に施す
場合は、そのまま散布等の手段で直接芝草に施肥でき、
通常、芝草1m2当り約50〜500gの割合で施す。
更に、芝草の目土の代わりに芝草1m2当り約100g
〜1000gの割合で施すと、目土の効果と施肥の効果
を同時に得ることができる。The organic fertilizer of the present invention obtained after the secondary fermentation is used as it is, or it is dried sufficiently under the condition that useful microorganisms are not killed and then put in a moisture-proof bag or other container. Save it. The organic fertilizer of the present invention is a fine granular material having no bad odor and is extremely easy to handle. The organic fertilizer of the present invention can be effectively used for any plant such as flowers, vegetables, rice, wheat, beans, trees and fruit trees. Among them, the fertilizer of the present invention is particularly suitable as a lawn grass fertilizer. When applying to turfgrass, you can directly apply fertilizer to turfgrass by spraying, etc.
Usually, it is applied at a rate of about 50 to 500 g per 1 m 2 of turfgrass.
Further, instead of the grass soil of the grass, about 100 g per 1 m 2 of grass.
When applied at a rate of up to 1000 g, the effect of soil and the effect of fertilization can be obtained at the same time.
【0025】[0025]
《実施例 1》アラビノキシラン含量35%の小麦フス
マ50kg、市販の木炭14.3kg、ゼオライト3.
6kgおよびバーミキュライト3.6kgからなる混合
物(合計71.5kg:混合物中の小麦フスマ含量70
%)を大型ミキサーを使用して均一に混合した後、水を
27.1kg加え加熱蒸気により滅菌処理した。滅菌処
理後の混合物の水分含量は約40%であった。次に、ア
スペルギルスオリゼー(Aspergillus oryzae)(IFO 30
105)の乾燥菌体70gを加えて均一に混合した後、雰
囲気温度を27℃にコントロールして好気的条件下に4
8時間一次発酵させた。一次発酵の途中に2回切り返し
を行った。次いで、ストレプトミセスフラベオラス(St
reptomyces flaveolus)菌(IFO12768)およびバシルス
サーキュランス(bacillus circulans)菌(IFO 13640)
を各々70gずつ添加して均一に混合し、好気的条件下
に雰囲気温度を25℃にコントロールして72時間二次
発酵させた。二次発酵期間中に2回切り返しを行って温
度の均一化を図った。二次発酵終了後に得られた発酵生
成物(有機質肥料)中の菌数および水溶性全糖量を下記
の方法により測定した。<< Example 1 >> 50 kg of wheat bran with an arabinoxylan content of 35%, commercially available charcoal 14.3 kg, zeolite 3.
Mixture consisting of 6 kg and 3.6 kg vermiculite (total 71.5 kg: wheat bran content 70 in the mixture)
%) Was uniformly mixed using a large-scale mixer, 27.1 kg of water was added, and sterilization treatment was performed with heated steam. The water content of the mixture after sterilization was about 40%. Next, Aspergillus oryzae (IFO 30
After adding 70 g of the dried bacterial cells of 105) and mixing them uniformly, the atmospheric temperature was controlled at 27 ° C.
Primary fermentation was carried out for 8 hours. During the primary fermentation, cutting was performed twice. Then Streptomyces flaveolus (St
reptomyces flaveolus) (IFO12768) and Bacillus circulans (IFO 13640)
70 g of each was added and mixed uniformly, and secondary fermentation was carried out for 72 hours while controlling the atmospheric temperature at 25 ° C. under aerobic conditions. During the secondary fermentation period, cutting was repeated twice to make the temperature uniform. The number of bacteria and the amount of total water-soluble sugar in the fermentation product (organic fertilizer) obtained after the completion of secondary fermentation were measured by the following methods.
【0026】〈菌数の測定方法〉菌数は次のようにして
希釈寒天平板培養法により測定した。一般生菌数
:水1リットル当りポリペプトン5g、イー
ストエキス2.5g、ブドウ糖1gおよび寒天15gを
加えて調製した標準寒天平板培地(pH7.0)を使用
して、37℃で24時間培養した時のコロニー数を測定
した。糸状菌数
:水1リットル当り麦芽エキス20g、イース
トエキス5g、ブドウ糖10gおよび寒天25gを加え
て調製したMYG寒天平板培地(pH4.3)を使用し
て、37℃で3日間培養した時のコロニー数を測定し
た。放線菌数
:水1リットル当り殿粉10g、カゼイン0.
3g、KNO32g、NaCl 2g、K2HPO4 2g、MgSO4・7H
2O 0.05g、CaCO3 0.02g、FeSO4・7H2O 0.
01g、寒天18gおよびサイクロヘキシミド(防黴
剤)0.06gを加えて調製した寒天平板培地(pH
7.2)を使用して、30℃で6日間培養した時のコロ
ニー数を測定した。<Method of measuring the number of bacteria> The number of bacteria was measured by the diluted agar plate culture method as follows. General viable cell count : When cultured at 37 ° C. for 24 hours using a standard agar plate medium (pH 7.0) prepared by adding 5 g of polypeptone, 2.5 g of yeast extract, 1 g of glucose and 15 g of agar per liter of water. The number of colonies was measured. Number of filamentous fungus : Colony when cultured at 37 ° C for 3 days using MYG agar plate medium (pH 4.3) prepared by adding 20 g of malt extract, 5 g of yeast extract, 10 g of glucose and 25 g of agar per liter of water. The number was measured. Actinomycetes : starch 10 g, casein 0.
3g, KNO 3 2g, NaCl 2g , K 2 HPO 4 2g, MgSO 4 · 7H
2 O 0.05 g, CaCO 3 0.02 g, FeSO 4 .7H 2 O 0.
Agar plate medium prepared by adding 01 g, agar 18 g and cycloheximide (antifungal agent) 0.06 g (pH
The number of colonies when cultured for 6 days at 30 ° C. was measured using 7.2).
【0027】〈全糖量の測定〉西尾道徳著「土壌微生物
の基礎知識」第74〜75頁、社団法人 農山漁村文化
協会発行(1989年)に記載された方法に従って、7
日後の発酵生成物1gを採取して水30mlに入れ、撹
拌した後に60℃で3時間放置する。次いで東洋濾紙N
o.5を使用して濾過し、得られた濾液0.5mlに対し
て5%フェノール水溶液0.5mlおよび濃硫酸3ml
を加えて撹拌する。これを30分間放置した後、波長4
90nmにおける吸光度を測定して全糖量(mg)をグ
ルコース換算量として求めた。実施例1で得られた発酵
生成物の菌数、全糖量および性状を表1に示す。<Measurement of Total Sugar Content> According to the method described in Michinori Nishio, “Basic Knowledge of Soil Microorganisms”, pp. 74-75, published by Noyama Fishing Village Cultural Association (1989), 7
1 g of the fermented product after the day is collected, put in 30 ml of water, stirred and left at 60 ° C. for 3 hours. Then Toyo Filter Paper N
0.5 ml of a 5% aqueous phenol solution and 3 ml of concentrated sulfuric acid are added to 0.5 ml of the resulting filtrate.
And stir. After leaving this for 30 minutes,
The absorbance at 90 nm was measured to determine the total sugar amount (mg) as a glucose equivalent amount. Table 1 shows the number of bacteria, the total sugar content and the properties of the fermentation product obtained in Example 1.
【0028】《実施例 2》小麦フスマの代わりに脱脂
米ヌカ50kgを使用した他は実施例1と同様にして有
機質肥料を製造し、生成した有機質肥料中の菌数および
全糖量を実施例1と同様にして測定した。その結果をこ
の実施例2で得られた有機質肥料の性状と共に表1に示
す。Example 2 An organic fertilizer was produced in the same manner as in Example 1 except that 50 kg of defatted rice bran was used instead of wheat bran, and the number of bacteria and the total sugar content in the produced organic fertilizer were determined in Example. The measurement was performed in the same manner as in 1. The results are shown in Table 1 together with the properties of the organic fertilizer obtained in this Example 2.
【0029】《実施例 3》実施例1の二次発酵後に得
られた発酵生成物10kgを、実施例1における二次発
酵用菌体の代わりに用いて二次発酵を行った他は実施例
1と同様にして有機質肥料を製造し、生成した有機質肥
料中の菌数および全糖量を実施例1と同様にして測定し
た。その結果をこの実施例3で得られた有機質肥料の性
状と共に表1に示す。Example 3 Example 10 was repeated except that 10 kg of the fermentation product obtained after the secondary fermentation of Example 1 was used in place of the cells for secondary fermentation in Example 1 to carry out secondary fermentation. An organic fertilizer was produced in the same manner as in Example 1, and the number of bacteria and the total sugar content in the produced organic fertilizer were measured in the same manner as in Example 1. The results are shown in Table 1 together with the properties of the organic fertilizer obtained in this Example 3.
【0030】《対照例 1》実施例1の小麦フスマ50
kgの代わりに大豆カス(アラビノキシラン含量0%)
22.5kgおよび小麦フスマ(アラビノキシラン含量
35%)27.5kgからなる合計50kgの混合物を
用いた他は実施例1と同様にして、一次発酵および二次
発酵を行って発酵生成物を製造した。得られた発酵生成
物中の菌数および全糖量を実施例1と同様にして測定し
た。その結果をその性状と共に表1に示す。<< Control Example 1 >> Wheat bran 50 of Example 1
Soybean residue (arabinoxylan content 0%) instead of kg
A fermentation product was produced by carrying out primary fermentation and secondary fermentation in the same manner as in Example 1 except that a mixture of 22.5 kg and wheat bran (arabinoxylan content 35%) 27.5 kg in a total of 50 kg was used. The number of bacteria and the total sugar amount in the obtained fermentation product were measured in the same manner as in Example 1. The results are shown in Table 1 together with their properties.
【0031】《対照例 2》食品製造原料からの有機物
を利用して製造された市販の芝草用発酵肥料中の菌数お
よび全糖量を実施例1と同様にして測定した。その結果
を表1に示す。Comparative Example 2 The number of bacteria and the amount of total sugar in a commercially available fermented fertilizer for turfgrass, which was produced by using organic substances derived from food production raw materials, were measured in the same manner as in Example 1. The results are shown in Table 1.
【0032】[0032]
【表1】 [Table 1]
【0033】表1の結果から、アラビノキシラン含量が
20%以上の有機物を用いている本発明の実施例1〜3
では、アラビノキシラン含量が20%より少ないかまた
はアラビノキシランを全く含まない有機物を用いている
対照例1〜2に比べて、有用菌である放線菌が選別増殖
されて多量に含まれていることがわかる。更に、表1の
結果から、本発明の実施例1〜3では発酵生成物中の全
糖量が少なく堆肥化が進んでいるのに対して、対照例1
〜2では発酵生成物中の全糖量が多く堆肥化が進んでい
ないことがわかる。From the results shown in Table 1, Examples 1 to 3 of the present invention using an organic substance having an arabinoxylan content of 20% or more.
Shows that the actinomycetes, which are useful bacteria, are selected and proliferated in a large amount as compared with Control Examples 1 and 2 in which an arabinoxylan content is less than 20% or an organic substance containing no arabinoxylan is used. . Furthermore, from the results of Table 1, in Examples 1 to 3 of the present invention, the amount of total sugar in the fermentation product was small and composting was in progress, whereas in Comparative Example 1
It can be seen that in Nos. 2 to 3, the total amount of sugar in the fermentation product is large and composting is not progressing.
【0034】《実施例 4》各成分を表2に示した割合
(%)で含む混合物71.5kgを5区準備して発酵原
料として使用した。また二次発酵用の菌体として、試験
区1〜4ではストレプトミセスミシオネンシス(Strept
omyces misionensis)(IFO 13063)の乾燥菌体70g
を使用し、試験区5では二次発酵を菌を加えずに行っ
た。それ以外の点は、実施例1と同様にして一次発酵お
よび二次発酵を行って発酵生成物を製造した。各試験区
で得られた発酵生成物の全糖量および放線菌数を実施例
1と同様にして測定した。その結果を表2に示す。Example 4 71.5 kg of a mixture containing each component in the ratio (%) shown in Table 2 was prepared in 5 sections and used as a fermentation raw material. As test cells for secondary fermentation, Streptomyces misionensis (Strept
70 g of dried cells of omyces misionensis) (IFO 13063)
Was used in Test Group 5, and secondary fermentation was carried out without adding bacteria. Otherwise, primary fermentation and secondary fermentation were carried out in the same manner as in Example 1 to produce a fermentation product. The total sugar amount and the number of actinomycetes of the fermentation product obtained in each test section were measured in the same manner as in Example 1. The results are shown in Table 2.
【0035】[0035]
【表2】 [Table 2]
【0036】表2の結果から、発酵原料中の吸着性鉱物
材料および炭類の含有量が多いほど発酵生成物中の全糖
量が少なくなっており堆肥化が進んでいるものの、それ
らの量が20%未満または50%を超えると有用菌であ
る放線菌数が少なくなっており、吸着性鉱物および炭類
の量は合計で20〜50%が適当であることがわかる。
更に、表2の結果から、二次発酵時にストレプトミセス
ミシオネンシス菌を加えない場合には、二次発酵が進ま
ず堆肥化が困難であることがわかる。From the results shown in Table 2, the higher the content of the adsorptive mineral material and the carbonaceous materials in the fermentation raw material, the smaller the total sugar amount in the fermentation product and the more the composting progressed. Is less than 20% or more than 50%, the number of actinomycetes, which is a useful bacterium, is small, and it is clear that the total amount of adsorptive minerals and charcoal is 20 to 50%.
Furthermore, from the results of Table 2, it is understood that when the Streptomyces mycionensis bacterium is not added during the secondary fermentation, the secondary fermentation does not proceed and composting is difficult.
【0037】《実施例 5》実施例1〜3の本発明の有
機質肥料、対照例1〜2の有機質肥料および市販の化成
肥料(チッソ:リン:カリ=8%:8%:8%)を使用
して、ベント芝に対する生育試験を次のようにして行っ
た。一般の畑地に一区画当たり2m2の試験区を7区画
準備し、ベント芝の種をまきある程度生育してきたとこ
ろで草高30mmに刈り取った。ここで、第1〜3の試
験区画に対しては実施例1〜3の本発明の有機質肥料の
各々を、第4〜5の試験区画に対しては対照例1〜2の
有機質肥料の各々を、そして第6の試験区画には市販の
化成肥料を、各肥料のチッソ量が3g/m2になるよう
に施した。また、比較のため第7の試験区画には施肥し
なかった。施肥後15日、30日、45日および60日
後に、各区画の芝草を草高20mmに刈り取った。30
日および60日後の刈り取った芝草の新鮮重量を測定し
た。また、その時の芝草の緑葉度を下記により評価し
た。Example 5 The organic fertilizers of the present invention of Examples 1-3, the organic fertilizers of Control Examples 1-2 and commercially available chemical fertilizers (Chiso: phosphorus: potassium = 8%: 8%: 8%) were used. Using this, a growth test on bent grass was performed as follows. Seven test plots of 2 m 2 per plot were prepared in a general field, and seeds of bent turf were sowed and cut to a plant height of 30 mm when they had grown to some extent. Here, each of the organic fertilizers of Examples 1 to 3 of the present invention is applied to the first to third test sections, and each of the organic fertilizers of Comparative Examples 1 to 2 is applied to the fourth to fifth test sections. , And the sixth test section was applied with commercially available chemical fertilizer such that the nitrogen content of each fertilizer was 3 g / m 2 . Also, for comparison, fertilizer was not applied to the seventh test section. 15, 30, 45 and 60 days after fertilization, the grass of each section was cut to a grass height of 20 mm. Thirty
The fresh weight of the mowed turfgrass after day and 60 days was measured. The degree of green leaf of the turfgrass at that time was evaluated by the following.
【0038】芝草の緑葉度の評価
芝草の葉の緑色の濃さの程度を、目視により観察して、
下記の表3に示した評価基準により黄褐色〜濃緑色まで
5段階に分けて評価して点数を付した。数字が大きいほ
ど緑が濃くなる。 Evaluation of the degree of green leaf of turfgrass The degree of greenness of the leaf of turfgrass was visually observed,
According to the evaluation criteria shown in Table 3 below, yellow-brown to dark green were divided into 5 grades and evaluated. The higher the number, the darker the green.
【0039】[0039]
【表3】 芝草の緑葉度の評価基準 1・・・かなり黄色および褐色がかった緑色で窒素不足を示す 2・・・3よりもやや黄色がかった緑色 3・・・平均的な芝草の緑色、適度な窒素施用 4・・・3よりもやや濃い緑色 5・・・3よりもかなり緑色が濃く窒素過剰を示す 上記の結果を下記の表4に示す。[Table 3] Evaluation criteria for the degree of green leaf of turfgrass 1 ... fairly yellow and brownish green with nitrogen deficiency 2 ... slightly yellowish green than 3 3 ... average turfgrass green, moderate nitrogen application 4 ... 3 more Slightly darker green 5 ... 3, which is much greener than 3 and shows excess nitrogen The above results are shown in Table 4 below.
【0040】[0040]
【表4】 [Table 4]
【0041】上記表4の結果から、実施例1〜3の本発
明の有機質肥料を芝草に施用した試験区画1〜3の場合
には、肥料を施してない試験区画7、対照例1または2
の肥料を施した試験区画4および5と比較して、芝草の
生育、その緑葉度ののいずれも良好であることがわか
る。また、本発明の有機質肥料を施した試験区画1〜3
は、化成肥料を施した試験区画6に比べて施用直後の生
育が大きすぎず適度であり、緑葉度も濃すぎず明るい緑
色で良好であること、更に肥効の持続性の点で優れてい
ることがわかる。From the results in Table 4 above, in the case of test sections 1 to 3 in which the organic fertilizer of the present invention of Examples 1 to 3 was applied to turfgrass, test section 7 without fertilizer, Control Example 1 or 2
It can be seen that both the growth of turfgrass and the degree of green leaf thereof are better than those of the test sections 4 and 5 in which the fertilizer of No. 1 was applied. In addition, test sections 1 to 3 to which the organic fertilizer of the present invention is applied
Shows that the growth immediately after application is not too large as compared with the test section 6 to which the chemical fertilizer is applied, the green leaf degree is not too dark and the light green color is good, and further, it is excellent in terms of the sustainability of fertilization. You can see that
【0042】《実施例 6》アラビノキシラン含量30
%の小麦フスマ50kg、市販のバーミキュライト20
kgおよびゼオライト5kgからなる混合物(合計75
kg:混合物中の小麦フスマ含量67%)を大型ミキサ
ーを使用して均一に混合した後、水を40kg加え加熱
蒸気により滅菌処理した。滅菌処理後の混合物の水分含
量は約45%であった。次に、アスペルギルス・オリゼ
ー(Aspergillus oryzae)(IFO 30105)の乾燥菌体7
0gを加えて均一に混合した後、雰囲気温度を27℃に
コントロールして好気的条件下に途中2回切り返しを行
って72時間一次発酵させた。この一次発酵終了時の発
酵生成物のpHを測定したところ5.1であったので、
この一次発酵生成物に消石灰1kgを添加してpHを
6.5に調整した。なお、pHの測定は土壌pH測定装
置(藤原製作所製;「PHS−33型」)を用いて行っ
た。Example 6 Arabinoxylan content 30
% Wheat bran 50 kg, commercial vermiculite 20
kg and 5 kg zeolite (75 total)
(kg: wheat bran content of 67% in the mixture) was uniformly mixed using a large-scale mixer, 40 kg of water was added, and sterilization was performed by heating steam. The water content of the mixture after sterilization was about 45%. Next, dried cells 7 of Aspergillus oryzae (IFO 30105)
After adding 0 g and uniformly mixing, the atmosphere temperature was controlled at 27 ° C., and the mixture was cut twice under aerobic conditions and subjected to primary fermentation for 72 hours. When the pH of the fermentation product at the end of this primary fermentation was measured, it was 5.1.
To the primary fermentation product, 1 kg of slaked lime was added to adjust the pH to 6.5. The pH was measured by using a soil pH measuring device (manufactured by Fujiwara Seisakusho; “PHS-33 type”).
【0043】次いで、ストレプトミセス・フラベオラス
(Streptomyces flaveolus)菌(IFO 12768)、バシル
ス・スブチルス(bacillus subtillus)菌(IFO 13722)
およびシュードモナス・プチダ(Pseudomonas putida)
菌(IFO 3788)を各々70gずつ添加して均一に混合
し、好気的条件下に雰囲気温度を25℃にコントロール
して96時間二次発酵させた。二次発酵期間中に24時
間毎に1回切り返しおよび水分調整を行って水分を40
%に保ち、温度の均一化を図った。なお、二次発酵中、
発酵物のpHを上記したpH測定装置により連続して測
定し、pHが9を超えた時点でリン酸一ナトリウム1k
gを添加してpHを8まで低下させた。二次発酵終了後
に得られた発酵生成物(有機質肥料)中の菌数および水
溶性全糖量を前記の方法により測定した。この実施例6
で得られた発酵生成物の菌数、全糖量および性状を表5
に示す。Next, Streptomyces flaveolus (IFO 12768) and Bacillus subtillus (IFO 13722)
And Pseudomonas putida
70 g of each of the bacteria (IFO 3788) was added and uniformly mixed, and secondary fermentation was carried out for 96 hours while controlling the atmospheric temperature at 25 ° C. under aerobic conditions. During the secondary fermentation period, cut the water once every 24 hours and adjust the water content to 40%.
% To keep the temperature uniform. During the secondary fermentation,
The pH of the fermented material was continuously measured by the above-mentioned pH measuring device, and when the pH exceeded 9, monosodium phosphate 1k
g was added to lower the pH to 8. The number of bacteria and the amount of total water-soluble sugar in the fermentation product (organic fertilizer) obtained after the completion of the secondary fermentation were measured by the above-mentioned method. This Example 6
Table 5 shows the bacterial count, total sugar content and properties of the fermentation product obtained in
Shown in.
【0044】《実施例 7》小麦フスマの代わりに脱脂
米ヌカ50kgを使用した他は実施例6と同様にして有
機質肥料を製造し、生成した有機質肥料中の菌数および
全糖量を実施例6と同様にして測定した。その結果をこ
の実施例7で得られた有機質肥料の性状と共に表5に示
す。Example 7 An organic fertilizer was produced in the same manner as in Example 6 except that 50 kg of defatted rice bran was used instead of wheat bran, and the number of bacteria and the total amount of sugar in the produced organic fertilizer were determined in Example. The measurement was performed in the same manner as in 6. The results are shown in Table 5 together with the properties of the organic fertilizer obtained in this Example 7.
【0045】《実施例 8》実施例6の二次発酵後に得
られた発酵生成物10kgを、実施例6における二次発
酵用菌体の代わりに用いて二次発酵を行った他は実施例
6と同様にして有機質肥料を製造し、生成した有機質肥
料中の菌数および全糖量を実施例6と同様にして測定し
た。その結果をこの実施例8で得られた有機質肥料の性
状と共に表5に示す。Example 8 Example 10 was repeated except that 10 kg of the fermentation product obtained after the secondary fermentation of Example 6 was used in place of the cells for secondary fermentation of Example 6 to perform secondary fermentation. An organic fertilizer was produced in the same manner as in Example 6, and the number of bacteria and the total sugar amount in the produced organic fertilizer were measured in the same manner as in Example 6. The results are shown in Table 5 together with the properties of the organic fertilizer obtained in this Example 8.
【0046】《対照例 3》実施例6の小麦フスマ50
kgの代わりに大豆カス(アラビノキシラン含量0%)
22.5kgおよび小麦フスマ(アラビノキシラン含量
35%)27.5kgからなる合計50kgの混合物を
用いた他は実施例6と同様にして、一次発酵および二次
発酵を行って発酵生成物を製造した。得られた発酵生成
物中の菌数および全糖量を実施例6と同様にして測定し
た。その結果をその性状と共に表5に示す。<Control Example 3> Wheat bran 50 of Example 6
Soybean residue (arabinoxylan content 0%) instead of kg
A fermentation product was produced by carrying out primary fermentation and secondary fermentation in the same manner as in Example 6 except that a total of 50 kg of a mixture of 22.5 kg and wheat bran (arabinoxylan content 35%) 27.5 kg was used. The number of bacteria and the total amount of sugar in the obtained fermentation product were measured in the same manner as in Example 6. The results are shown in Table 5 together with their properties.
【0047】《対照例 4》食品製造原料からの有機物
を利用して製造された市販の芝草用発酵肥料中の菌数お
よび全糖量を実施例6と同様にして測定した。その結果
を表5に示す。Comparative Example 4 The number of bacteria and the total amount of sugar in a commercially available fermented fertilizer for turfgrass produced by using organic substances derived from food production raw materials were measured in the same manner as in Example 6. The results are shown in Table 5.
【0048】[0048]
【表5】 [Table 5]
【0049】表5の結果から、アラビノキシラン含量が
20%以上の有機物を用いている本発明の実施例6〜8
では、アラビノキシラン含量が20%より少ないかまた
はアラビノキシランを全く含まない有機物を用いている
対照例3〜4に比べて、有用菌である放線菌が選別増殖
されて多量に含まれていることがわかる。更に、表5の
結果から、本発明の実施例6〜8では発酵生成物中の全
糖量が少なく堆肥化が進んでいるのに対して、対照例3
〜4では発酵生成物中の全糖量が多く堆肥化が進んでい
ないことがわかる。From the results shown in Table 5, Examples 6 to 8 of the present invention using an organic substance having an arabinoxylan content of 20% or more.
In comparison with Comparative Examples 3 to 4 in which the arabinoxylan content is less than 20% or an organic substance containing no arabinoxylan is used, it is found that actinomycetes, which are useful bacteria, are selectively propagated and contained in large amounts. . Further, from the results of Table 5, in Examples 6 to 8 of the present invention, the amount of total sugar in the fermented product was small and composting proceeded, while Comparative Example 3
It can be seen that in Nos. 4 to 4, the amount of total sugar in the fermentation product is large and composting is not progressing.
【0050】《実施例 9》各成分を表6に示した割合
(%)で含む混合物71.5kgを5区準備して発酵原
料として使用した。また二次発酵用の菌体として、試験
区6〜9ではストレプトミセス・ミシオネンシス(Stre
ptomyces misionensis)(IFO 13063)の乾燥菌体70
gを使用し、試験区10では二次発酵を菌を加えずに行
った。それ以外の点は、実施例6と同様にして一次発酵
および二次発酵を行って発酵生成物を製造した。各試験
区で得られた発酵生成物の全糖量および放線菌数を実施
例6と同様にして測定した。その結果を表6に示す。Example 9 71.5 kg of a mixture containing each component in the ratio (%) shown in Table 6 was prepared in 5 sections and used as a fermentation raw material. In addition, as cells for secondary fermentation, Streptomyces misionensis (Stre
ptomyces misionensis) (IFO 13063) dried cells 70
g was used, and in the test section 10, secondary fermentation was carried out without adding bacteria. Other than that, the fermentation product was manufactured by carrying out the primary fermentation and the secondary fermentation in the same manner as in Example 6. The total sugar amount and the number of actinomycetes of the fermentation product obtained in each test section were measured in the same manner as in Example 6. The results are shown in Table 6.
【0051】[0051]
【表6】 [Table 6]
【0052】表6の結果から、発酵原料中の吸着性鉱物
材料の含有量が多いほど発酵生成物中の全糖量が少なく
なっており堆肥化が進んでいるものの、それらの量が2
0%未満または50%を超えると有用菌である放線菌数
が少なくなっており、吸着性鉱物の量は20〜50%が
適当であることがわかる。更に、表6の結果から、二次
発酵時にストレプトミセスミシオネンシス菌を加えない
場合には、二次発酵が進まず堆肥化が困難であることが
わかる。From the results shown in Table 6, the higher the content of the adsorptive mineral material in the fermentation raw material, the smaller the total amount of sugar in the fermentation product and the progress of composting.
When it is less than 0% or more than 50%, the number of actinomycetes, which is a useful bacterium, is small, and it is understood that the amount of the adsorbent mineral is appropriately 20 to 50%. Furthermore, from the results of Table 6, it is understood that when Streptomyces mycionensis bacteria are not added during the secondary fermentation, the secondary fermentation does not proceed and composting is difficult.
【0053】《実施例 10》実施例6〜8の本発明の
有機質肥料、対照例3〜4の有機質肥料および市販の化
成肥料(チッソ:リン:カリ=8%:8%:8%)を使
用して、ベント芝に対する生育試験を次のようにして行
った。一般の畑地に一区画当たり2m2の試験区を7区
画準備し、ベント芝の種をまきある程度生育してきたと
ころで草高30mmに刈り取った。ここで、第1〜3の
試験区画に対しては実施例6〜8の本発明の有機質肥料
の各々を、第4〜5の試験区画に対しては対照例3〜4
の有機質肥料の各々を、そして第6の試験区画には市販
の化成肥料を、各肥料のチッソ量が3g/m2になるよ
うに施した。また、比較のため第7の試験区画には施肥
しなかった。施肥後15日、30日、45日および60
日後に、各区画の芝草を草高20mmに刈り取った。3
0日および60日後の刈り取った芝草の新鮮重量を測定
した。また、その時の芝草の緑葉度を前記表3に示した
評価基準にしたがって評価した。この結果を、下記の表
7に示す。Example 10 The organic fertilizers of the present invention of Examples 6-8, the organic fertilizers of Control Examples 3-4 and commercially available chemical fertilizers (Chisso: phosphorus: potassium = 8%: 8%: 8%) were used. Using this, a growth test on bent grass was performed as follows. Seven test plots of 2 m 2 per plot were prepared in a general field, and seeds of bent turf were sowed and cut to a plant height of 30 mm when they had grown to some extent. Here, each of the organic fertilizers of the present invention of Examples 6 to 8 was used for the first to third test sections, and Control Examples 3 to 4 were used for the fourth to fifth test sections.
Each of the organic fertilizers in Example 6 and the sixth test section were applied with commercially available chemical fertilizers so that the amount of nitrogen in each fertilizer was 3 g / m 2 . Also, for comparison, fertilizer was not applied to the seventh test section. 15, 30, 45 and 60 days after fertilization
After a day, the grass of each section was cut to a grass height of 20 mm. Three
The fresh weight of the mowed grass was measured after 0 and 60 days. In addition, the degree of green leaf of the turf grass at that time was evaluated according to the evaluation criteria shown in Table 3 above. The results are shown in Table 7 below.
【0054】[0054]
【表7】 [Table 7]
【0055】上記の表7の結果から、実施例6〜8の本
発明の有機質肥料を芝草に施用した試験区画1〜3の場
合には、肥料を施してない試験区画7、対照例3または
4の肥料を施した試験区画4および5と比較して、芝草
の生育、その緑葉度ののいずれも良好であることがわか
る。また、本発明の有機質肥料を施した試験区画1〜3
は、化成肥料を施した試験区画6に比べて施用直後の生
育が大きすぎず適度であり、緑葉度も濃すぎず明るい緑
色で良好であること、更に肥効の持続性の点で優れてい
ることがわかる。From the results of Table 7 above, in the case of test sections 1 to 3 in which the organic fertilizer of the present invention of Examples 6 to 8 was applied to turfgrass, test section 7 without fertilizer, Control Example 3 or It can be seen that both the growth of turfgrass and the degree of green leaf thereof are better than those of the test sections 4 and 5 in which the fertilizer of No. 4 was applied. In addition, test sections 1 to 3 to which the organic fertilizer of the present invention is applied
Shows that the growth immediately after application is not too large as compared with the test section 6 to which the chemical fertilizer is applied, the green leaf degree is not too dark and the light green color is good, and further, it is excellent in terms of the sustainability of fertilization. You can see that
【0056】《実施例 11》[フェアリーリング(芝
草病害)に対する発病抑制効果試験]
(1) ベント芝50m2に、実施例6で得られた本発
明の有機質肥料(発酵生成物)を30日ごとに100g
/m2(窒素量1.7g/m2)の割合で散布した(発明
区)。
(2) 本発明の有機質肥料の代わりに、市販の化成肥
料(チッソ:リン:カリ=8%:8%:8%)を窒素量
が発明区と同じになるように30日ごとに散布した(対
照区)。
(3) 上記(1)の発明区および(2)の対照区の芝
草50m2に自然発生したフェアリーリング病斑(はっ
きりとした円形病斑)を、施肥開始時、30日後、60
日後、90日後および120日後に肉眼で観察して病斑
の発生箇所数を数えたところ、下記の表8に示すとおり
であった。なお、対照区では、施肥開始90日後にフェ
アリーリング病斑が8箇所に発生したので、そのうちの
4箇所に対して実施例6で得られた本発明の有機質肥料
を150g/m2の割合で散布し、残りの4箇所に対し
てはそのまま化成肥料を上記(2)と同様にして散布し
たところ、下記の表8に示すように、本発明の有機質肥
料を散布した部分では、4箇所のフェアリーリング病斑
のうち2箇所は消失したのに対して、化成肥料を散布し
た部分では4箇所のフェアリーリング病斑は何ら消失し
なかった。<< Example 11 >> [Test for suppressing disease occurrence against fairy ring (turf grass disease)] (1) 50 m 2 of bent grass was treated with the organic fertilizer (fermentation product) of the present invention obtained in Example 6 for 30 days 100g each
/ M 2 (nitrogen amount 1.7 g / m 2 ) was sprayed (invention group). (2) Instead of the organic fertilizer of the present invention, a commercially available chemical fertilizer (Chiso: phosphorus: potassium = 8%: 8%: 8%) was sprayed every 30 days so that the nitrogen content was the same as in the invention zone. (Control area). (3) Fairy ring lesions (clear circular lesions) naturally occurring on 50 m 2 of turfgrass in the invention group of the above (1) and the control group of (2) were applied at the start of fertilization, 30 days later, and 60
Table 8 below shows the number of lesion occurrence spots visually observed after 90 days and 120 days. In the control area, 90 days after the start of fertilization, fairy ring lesions occurred in 8 places. Therefore, the organic fertilizer of the present invention obtained in Example 6 was used at a rate of 150 g / m 2 in 4 of them. When the chemical fertilizer was sprayed on the remaining 4 spots as it was in the same manner as in (2) above, as shown in Table 8 below, in the portion where the organic fertilizer of the present invention was sprayed, 4 spots were spread. While 2 of the Fairy ring lesions disappeared, none of the 4 Fairy ring lesions disappeared in the portion where the chemical fertilizer was applied.
【0057】[0057]
【表8】 フェアリーリング病斑数(箇所) 施肥開始時 30日後 60日後 90日後 120日後 発明区 0 0 0 0 0 対照区 0 0 8 8 (A)(4箇所) 2 (B)(4箇所) 4 A:実施例6で得られた本発明の有機質肥料を散布 B:化成肥料を散布[Table 8] Number of Fairy Ring lesions (location) Start of fertilization 30 days later 60 days later 90 days later 120 days later Invention Zone 0 0 0 0 0 Control area 0 0 8 8 (A) (4 places) 2 (B) (4 places) 4 A: The organic fertilizer of the present invention obtained in Example 6 is sprayed. B: The chemical fertilizer is sprayed.
【0058】上記表8の結果から、本発明の有機質肥料
を散布した発明区では、フェアリーリングの発生が全く
なく、本発明の有機質肥料を定期的に散布することによ
り芝草病害であるフェアリーリングの発生を効果的に予
防できること、更にフェアリーリングが発生した場合に
も本発明の有機質肥料を散布することによってフェアリ
ーリングを消失させて芝草のフェアリーリングからの回
復をはかることができることがわかる。From the results shown in Table 8 above, in the invention zone to which the organic fertilizer of the present invention was applied, there was no occurrence of fairy ring, and by regularly applying the organic fertilizer of the present invention, the fairy ring disease caused by turfgrass disease was observed. It can be seen that the occurrence of fairy rings can be effectively prevented, and that even if fairy rings occur, the organic fertilizer of the present invention can be applied to eliminate the fairy rings and recover the grass from the fairy rings.
【0059】《実施例 12》[ダラースポット(芝草
病害)に対する発病抑制効果試験]
(1) ベント芝50m2に、実施例6で得られた本発
明の有機質肥料を30日ごとに100g/m2(窒素量
1.7g/m2)の割合で散布した(発明区)。
(2) 本発明の有機質肥料の代わりに、市販の化成肥
料(チッソ:リン:カリ=8%:8%:8%)を窒素量
が試験区と同じになるように30日ごとに散布した(対
照区)。
(3) 上記(1)の発明区および(2)の対照区の芝
草50m2に自然発生したダラースポットの発病状況を
施肥開始時、30日後、60日後および90日後に肉眼
で観察して、下記の表9に示す評価基準にしたがって評
価した。その結果を下記の表10に示す。<< Example 12 >> [Test of disease suppressive effect against dollar spot (turfgrass disease)] (1) Bent turf 50 m 2 was treated with 100 g / m of the organic fertilizer of the present invention obtained in Example 6 every 30 days. 2 (nitrogen amount 1.7 g / m 2 ) was sprayed (invention group). (2) Instead of the organic fertilizer of the present invention, a commercially available chemical fertilizer (Chiso: phosphorus: potassium = 8%: 8%: 8%) was sprayed every 30 days so that the nitrogen content was the same as in the test plot. (Control area). (3) Observing the disease status of the dollar spots naturally occurring in 50 m 2 of turfgrass in the invention section of (1) and the control section of (2) at the start of fertilization, after 30, 60 and 90 days with the naked eye, Evaluation was performed according to the evaluation criteria shown in Table 9 below. The results are shown in Table 10 below.
【0060】[0060]
【表9】 [ダラースポットの発病状況の評価基準] 評点: 発 病 状 態 4 : 発病全くなし 3 : 芝草の葉部にわずかに(葉部の1割未満)病斑がみられる 2 : 芝草の葉部の1割以上2割未満に病斑がみられる 1 : 芝草の葉部の2割以上に病斑がみられる [Table 9] [Evaluation criteria for disease status of dollar spots] Rating: Disease state 4: No illness 3: There are slight lesions (less than 10% of leaves) on the leaves of turfgrass 2: Disease spots are found on more than 10% and less than 20% of the leaves of turfgrass 1: Disease spots are found on more than 20% of the leaves of turfgrass
【0061】[0061]
【表10】 ダラースポットの発病状況 施肥開始時 30日後 60日後 90日後 発明区 4 3 2 3 対照区 4 2 1 1[Table 10] Dollar spot disease situation fertilization at the start of 30 days after 60 days after 90 days after Invention Zone 4 3 2 3 Control Zone 4 2 1 1
【0062】[0062]
【発明の効果】本発明の方法による場合は、(A)アラ
ビノキシラン含量が20重量%以上である有機物50〜
80重量%ならびに(B)吸着性鉱物材料および炭類の
うちの少なくとも1種50〜20重量%からなる混合
物、または該混合物を主体としこれに無機質肥料成分を
加えたものを発酵原料として用いて、複雑で手間のかか
る工程や装置を使用することなく、簡単に少ないエネル
ギー消費量で、約4日間〜1週間程度の短期間で、有機
質肥料を製造することができる。本発明の方法により得
られる有機質肥料は、従来の化成肥料のような濃度障害
による植物の成育不良や枯れをおこさず肥効が持続し植
物を極めて良好に生育させることができる。本発明の方
法により得られる有機質肥料は、特に芝草に適してお
り、連用しても土の痩せおよび環境汚染等の問題を生じ
ない。本発明の方法により得られた有機質肥料では、発
酵によりアラビノキシラン含有有機物の成分が肥料とし
てより有効な成分に変換されているので、従来の有機質
肥料におけるような一時的な酸欠状態およびメタンガス
やアンモニアガスの発生による植物の発育不良や根の衰
弱を生起することがない。According to the method of the present invention , (A)
Organic matter having a vinoxylan content of 20% by weight or more
80% by weight and (B) of adsorptive mineral material and charcoal
Mixture consisting of 50 to 20% by weight of at least one of
Or a mixture of these and mainly inorganic fertilizer components
With added through as fermentation material, complex and without the use of time-consuming process and apparatus, in a simple low energy consumption, a short period of time about four days to 1 week, organic
Quality fertilizer can be produced. Obtained by the method of the present invention
It is manure can persist fertilizer effect without causing growth failure and withering of plants with such concentration disorders as conventional fertilizer causes very well growing plants. Those of the present invention
The organic fertilizer obtained by the method is particularly suitable for turfgrass, and even if it is continuously used, problems such as soil thinning and environmental pollution do not occur. In the organic fertilizer obtained by the method of the present invention, since the components of the arabinoxylan-containing organic matter are converted into the more effective components as fertilizers by fermentation, the temporary oxygen-deficient state and methane gas and ammonia as in conventional organic fertilizers are used. It does not cause plant growth failure or root weakness due to gas generation.
【0063】 本発明では、吸着性鉱物および炭類の少
なくとも1種を発酵原料の合計量の20〜50%の割合
で含有しているために、発酵を促進すると同時に、有用
菌、特にアラビノキシランを資化する放線菌等の生育を
促進する。これによって、本発明の有機物肥料には、植
物の成長に必要な栄養成分が吸収され易い形態で多量に
含まれている。しかも、本発明の方法により得られる有
機質肥料は、植物の生育にとって有害な病原菌の繁殖や
生息を阻止する働きをもつ放線菌やその他の有用微生物
を極めて多量に含有しているので、植物病原菌を効果的
に防除して、植物を丈夫に且つ良好に生育させることが
できる。本発明の方法により得られる有機質肥料は、異
臭が全くなくサラサラとして微細な粒子からなっている
ために、取り扱いが極めて容易であり、施肥しても周囲
に悪臭を放たない。In the present invention, since at least one of adsorptive minerals and charcoal is contained in a proportion of 20 to 50% of the total amount of fermentation raw materials, fermentation is promoted and at the same time useful bacteria, especially arabinoxylan, are added. Promotes the growth of assimilating actinomycetes. As a result, the organic fertilizer of the present invention contains a large amount of nutrients required for plant growth in a form that is easily absorbed. Moreover, organic <br/> machine fertilizer obtained by the method of the present invention, contain the actinomycetes and other useful microorganisms has a function to prevent the breeding and habitat of harmful pathogens for the growth of plants plethora Therefore, it is possible to effectively control phytopathogenic fungi and to grow plants robustly and satisfactorily. The organic fertilizer obtained by the method of the present invention is extremely easy to handle since it has no offensive odor and is composed of fine particles that are smooth, and does not give off a bad odor even when fertilized.
フロントページの続き (72)発明者 山田 英明 茨城県つくば市大久保13番地 日清製粉 株式会社 つくば研究所内 (72)発明者 遠藤 薫 埼玉県入間郡大井町鶴ケ岡5丁目3番1 号 日清製粉株式会社 食品研究所内 (72)発明者 村上 浩二 茨城県つくば市大久保13番地 日清製粉 株式会社 つくば研究所内 (72)発明者 岡山 直生 茨城県つくば市大久保13番地 日清製粉 株式会社 つくば研究所内 (72)発明者 岡田 憲三 茨城県つくば市大久保13番地 日清製粉 株式会社 つくば研究所内 (56)参考文献 特開 平4−209787(JP,A) 特開 平2−48487(JP,A) 特開 昭50−51857(JP,A) 特開 平6−107511(JP,A) 特開 平6−107512(JP,A) 特開 平6−279162(JP,A) (58)調査した分野(Int.Cl.7,DB名) C05B 1/00 - C05G 5/00 Front page continuation (72) Inventor Hideaki Yamada 13 Okubo, Tsukuba, Ibaraki Nisshin Seifun Co., Ltd. Tsukuba Laboratories (72) Inventor Kaoru 5-3 Tsurugaoka, Oi-cho, Iruma-gun, Saitama Nisshin Seifun Co., Ltd. Company Food Research Laboratory (72) Inventor Koji Murakami 13 Okubo, Tsukuba City, Ibaraki Prefecture Nisshin Seifun Co., Ltd.Tsukuba Research Institute (72) Inventor Nao Okayama 13 Okubo, Tsukuba City, Ibaraki Nisshin Seifun Co., Ltd. 72) Inventor Kenzo Okada 13 Okubo, Tsukuba City, Ibaraki Nisshin Seifun Co., Ltd. (56) References JP-A-4-209787 (JP, A) JP-A-2-48487 (JP, A) JP 50-51857 (JP, A) JP-A-6-107511 (JP, A) JP-A-6-107512 (JP, A) JP-A-6-279162 (JP, A) (58) Fields investigated (Int .Cl. 7 , DB name) C05B 1/00-C05G 5/00
Claims (2)
以上である有機物50〜80重量%、ならびに(B)吸着
性鉱物材料および炭類のうちの少なくとも1種50〜2
0重量%からなる混合物、または該混合物を主体としこ
れに無機質肥料成分を加えたものを発酵原料として用い
て、(i)アスペルギルス・フラバス、アスペルギルス・
オリゼーおよびアスペルギルス・ソーヤからなる菌のう
ちの1種または2種以上の存在下で一次発酵させた後、
(ii)ストレプトミセス属放線菌、シュードモナス属細菌
およびバシルス属細菌のうちの1種または2種以上の存
在下で二次発酵させることを特徴とする有機質肥料の製
造方法。1. The content of (A) arabinoxylan is 20% by weight.
50 to 80% by weight of the above organic substances, and (B) at least one kind of the adsorbent mineral material and the charcoal 50 to 2
0% by weight of the mixture, or the mixture as the main component
Using a mixture of these with an inorganic fertilizer component as a fermentation raw material, (i) Aspergillus flavus, Aspergillus
After primary fermentation in the presence of one or more of the bacteria consisting of Orise and Aspergillus soya,
(ii) A method for producing an organic fertilizer, which comprises secondary fermentation in the presence of one or more of Streptomyces actinomycetes, Pseudomonas bacteria and Bacillus bacteria.
に調整し、更にストレプトミセス属放線菌、シュードモ
ナス属細菌およびバシルス属細菌のうちの1種または2
種以上の存在下でpH6.0〜9.0の条件下に二次発酵
させる請求項1の有機質肥料の製造方法。2. The pH of the product after primary fermentation is 6.0 to 7.5.
1 or 2 of Streptomyces actinomycetes, Pseudomonas bacteria and Bacillus bacteria.
The method for producing an organic fertilizer according to claim 1, wherein the secondary fermentation is carried out under the condition of pH 6.0 to 9.0 in the presence of one or more species.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP07290094A JP3365527B2 (en) | 1993-03-23 | 1994-03-18 | Manufacturing method of organic fertilizer |
Applications Claiming Priority (5)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP8684893 | 1993-03-23 | ||
JP5-86848 | 1993-03-23 | ||
JP5-195587 | 1993-07-14 | ||
JP19558793 | 1993-07-14 | ||
JP07290094A JP3365527B2 (en) | 1993-03-23 | 1994-03-18 | Manufacturing method of organic fertilizer |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH0782066A JPH0782066A (en) | 1995-03-28 |
JP3365527B2 true JP3365527B2 (en) | 2003-01-14 |
Family
ID=27301072
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP07290094A Expired - Fee Related JP3365527B2 (en) | 1993-03-23 | 1994-03-18 | Manufacturing method of organic fertilizer |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3365527B2 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP3406100B2 (en) | 1993-12-21 | 2003-05-12 | 日清製粉株式会社 | Organic fertilizer and method for producing the same |
Families Citing this family (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR980001977A (en) * | 1996-06-29 | 1998-03-30 | 유충식 | Fermentation composition for biological treatment of food waste and composting method |
KR100387138B1 (en) * | 1999-11-09 | 2003-06-11 | 박철 | A manufacturing method of fertilize using zeolite |
CA2312250A1 (en) * | 2000-06-22 | 2001-12-22 | Nisshin Flour Milling Co., Ltd. | Composting accelerator |
KR101040251B1 (en) * | 2010-09-28 | 2011-06-16 | 주식회사 가림환경개발 | Phospatic composit for improving soil and promoting growth of plant |
HUP1100008A2 (en) * | 2011-01-07 | 2013-03-28 | Saniplant Biotechnologiai Kutato Es Fejlesztoe Kft | Serum for soil |
CN114891514B (en) * | 2022-04-15 | 2023-07-18 | 西南石油大学 | Shale gas development platform soil reclamation enhancer and preparation method thereof |
-
1994
- 1994-03-18 JP JP07290094A patent/JP3365527B2/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP3406100B2 (en) | 1993-12-21 | 2003-05-12 | 日清製粉株式会社 | Organic fertilizer and method for producing the same |
Also Published As
Publication number | Publication date |
---|---|
JPH0782066A (en) | 1995-03-28 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN109679860A (en) | A kind of composite bacteria agent and the preparation method and application thereof for the processing of gardens green waste | |
KR102021771B1 (en) | Charcoal production or production for improving soil environmental using effective microorganisms and manufacturing method | |
CN114907161B (en) | Organic fertilizer containing biocontrol microbial inoculum and preparation method thereof | |
Shang et al. | Microbial biofertilizer decreases nicotine content by improving soil nitrogen supply | |
JPH0442355B2 (en) | ||
JP3378412B2 (en) | Manufacturing method of organic fertilizer | |
JP3365527B2 (en) | Manufacturing method of organic fertilizer | |
CA2016790A1 (en) | Antibacterial, anti-nematode and/or plant-cell activating composition, and chitinolytic microorganisms for producing the same | |
KR100413299B1 (en) | Manufacturing method of organic fertilizer | |
JP3135708B2 (en) | Plant pathogen control agent and organic fertilizer having the control effect | |
WO1999055834A1 (en) | Mold capable of degrading dioxin, degradation of dioxin with the use of the same, method for producing composts capable of degrading dioxin and method for growing plants | |
JP3406100B2 (en) | Organic fertilizer and method for producing the same | |
JP4875809B2 (en) | Sludge fertilizer | |
CN104692970A (en) | Special bioactive organic fertilizer for rapes and application of special bioactive organic fertilizer | |
JP3441565B2 (en) | Fermentation promoter | |
JPH02108609A (en) | Soil blight controlling and plant growth promoting agent | |
JP3363942B2 (en) | Manufacturing method of organic fertilizer | |
KR960002865B1 (en) | A fertilizer and the preparing process thereof | |
JP3485401B2 (en) | Good quality ripening method of animal organic fertilizer | |
CN113322076A (en) | Soil conditioner and preparation method and application thereof | |
JP3510160B2 (en) | Method for producing soil base material | |
JPH07274963A (en) | Preparation of high-density antagonistic microorganism substrate | |
JP3449757B2 (en) | Culture treatment method of shochu lees and organic fertilizer | |
JPH0994026A (en) | Culture soil for growing tea containing many active ingredients | |
KR910004865B1 (en) | The method of manufacture and microorganism fertilizer |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
LAPS | Cancellation because of no payment of annual fees |