CN104737791A - Pleurotus citrinopileatus cultivating method - Google Patents

Pleurotus citrinopileatus cultivating method Download PDF

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Publication number
CN104737791A
CN104737791A CN201510110892.5A CN201510110892A CN104737791A CN 104737791 A CN104737791 A CN 104737791A CN 201510110892 A CN201510110892 A CN 201510110892A CN 104737791 A CN104737791 A CN 104737791A
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mushroom
turning
tang
bed
cultivating
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邬方成
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    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G18/00Cultivation of mushrooms
    • CCHEMISTRY; METALLURGY
    • C05FERTILISERS; MANUFACTURE THEREOF
    • C05BPHOSPHATIC FERTILISERS
    • C05B1/00Superphosphates, i.e. fertilisers produced by reacting rock or bone phosphates with sulfuric or phosphoric acid in such amounts and concentrations as to yield solid products directly
    • C05B1/02Superphosphates
    • CCHEMISTRY; METALLURGY
    • C05FERTILISERS; MANUFACTURE THEREOF
    • C05FORGANIC FERTILISERS NOT COVERED BY SUBCLASSES C05B, C05C, e.g. FERTILISERS FROM WASTE OR REFUSE
    • C05F17/00Preparation of fertilisers characterised by biological or biochemical treatment steps, e.g. composting or fermentation
    • CCHEMISTRY; METALLURGY
    • C05FERTILISERS; MANUFACTURE THEREOF
    • C05GMIXTURES OF FERTILISERS COVERED INDIVIDUALLY BY DIFFERENT SUBCLASSES OF CLASS C05; MIXTURES OF ONE OR MORE FERTILISERS WITH MATERIALS NOT HAVING A SPECIFIC FERTILISING ACTIVITY, e.g. PESTICIDES, SOIL-CONDITIONERS, WETTING AGENTS; FERTILISERS CHARACTERISED BY THEIR FORM
    • C05G3/00Mixtures of one or more fertilisers with additives not having a specially fertilising activity
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W30/00Technologies for solid waste management
    • Y02W30/40Bio-organic fraction processing; Production of fertilisers from the organic fraction of waste or refuse

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  • Chemical & Material Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Organic Chemistry (AREA)
  • Biochemistry (AREA)
  • Environmental Sciences (AREA)
  • Pest Control & Pesticides (AREA)
  • Health & Medical Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Mycology (AREA)
  • Biotechnology (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • General Chemical & Material Sciences (AREA)
  • Microbiology (AREA)
  • Molecular Biology (AREA)
  • Micro-Organisms Or Cultivation Processes Thereof (AREA)
  • Mushroom Cultivation (AREA)

Abstract

The invention relates to a pleurotus citrinopileatus cultivating method. The method is a technology which applies lentinus edodes tangs to pleurotus citrinopileatus cultivation. Compared with the prior art, the pleurotus citrinopileatus cultivating method has the advantages that a lentinus edodes tang soaked material is utilized to be blended with a cultivating raw material for piling fermentation, the propagation of beneficial microorganisms is facilitated, flora of the microorganisms in the material is improved, and catalytic decomposition of the cultivating material is accelerated; after the fermentation, the cultivating material has high-active beneficial microorganisms and active metabolites of the high-active beneficial microorganisms, a facilitated effect is provided for the growth of pleurotus citrinopileatus hyphae, the growth condition of the hyphae is vigorous, and the anti-contaminating-microorganism capability is strong; after a second flush and a third flush are harvested, the rejuvenation effect on the hyphae is good by using leach liquor of the lentinus edodes tangs, the facilitating effect is provided for the formation of pleurotus citrinopileatus primordia and the growth of sporocarps, and the biotransformation rate of the third flush and a fourth flush is high; the resources such as manpower and coal are saved, the environmental pollution is reduced, and the low-carbon environmental protection concept is met.

Description

The yellow mushroom cultivation method of a kind of elm
Technical field
The yellow mushroom cultivation method of a kind of elm of the present invention, is mushroom tang is applied to the technology in the yellow mushroom cultivation of elm, belongs to fungus growing technique field.
Background technology
The yellow mushroom of elm has another name called gold oyster mushroom, goldentop mushroom, Pleurotus citrinopileatus etc., because being common in the yellow mushroom of elm that saprophytic elm deadwood gains the name.The yellow mushroom of tame elm is that imbricate is grown thickly, and cap base portion is recessed is horn-like, and edge is open and flat, and in wavy, many caps are stacked to cluster together, just like the flower of a branch of gold, and form elegant.The yellow mushroom of elm is rich in the nutrient components such as protein, fat, carbohydrate and multivitamin, and nutritious, delicate mouthfeel is tender and crisp, delicious flavour, smell delicate fragrance.In addition, the yellow mushroom of elm also has the medicinal health value of nourishing and fit keeping function.
The traditional cultivation method of the yellow mushroom of elm is cured material bag-cultured, and planting material carries out inoculated and cultured after high pressure or normal-pressure sterilization, and the contour molecular organic material of the cellulose now in material is degraded, miscellaneous bacteria in material is also killed, therefore, when planting material sends out bacterium, mycelial growth is fast, and living contaminants is few.But along with the significantly rise of the price of labour power and fuel price, grog cultivation cost increases severely, and high-temperature sterilization also causes the loss of planting material nutriment, causes biological transformation ratio to reduce simultaneously.
Mushroom is famous and precious edible one of the medicinal fungus of holding concurrently in the world, and current China mushroom production accounts for 70% of world's mushroom gross yield, has the equal mushroom culture in the province of more than 70% in China.Because mushroom stems stiffness of foot in children, content of cellulose are higher, palatability is poor, and therefore, mushroom is being eaten raw or in process, the tang of mushroom can remove as offcuts by the producer, causes the mushroom tang accounting for mushroom weight about 30% to become discarded object.
Summary of the invention
For the deficiencies in the prior art, the present invention's mushroom tang soaks expects to mix and stir to carry out banking up with culturing raw material to ferment, and do not add insecticide, bactericide during windrow, the planting material after fermentation is directly taped against ridge-up bed cultivation, and the yellow mushroom quality of the elm produced is good, output is high.
The technical solution adopted in the present invention is:
The yellow mushroom cultivation method of a kind of elm, comprises batching, ferments, makes the bed, sows, sends out bacterium, earthing, management of producing mushroom, concrete operation step:
(1) prepare burden: bagasse 36-44%, wood chip 34-42%, soya-bean cake 12-14%, mushroom tang 3-4%, lime 3-4%, gypsum 1%, superphosphate 1%, be all the quality of dry matter, proportioning sum is 100%; Described bagasse powder is broken into the particle of particle diameter 3mm-5mm; Described wood chip is the broad-leaved tree weed tree sawdust of particle diameter 3mm-5mm; Described mushroom tang is the offcuts in Lentnus edodes process, is ground into the particle of 2mm-3mm after drying;
(2) ferment: mushroom tang particle is added clear water by 20-30 weight ratio doubly, soak 18h-24h at normal temperatures, then leachate is admixed in bagasse, wood chip, soya-bean cake compound together with mushroom stems slag uniformly, stockpile is become high 1.0m-1.2m, wide 2m-3m, the trapezoidal heap that length is not limit, the composts or fertilisers of cultivating often piled controls at dry weight 300kg-500kg, after carrying out heap, surrounding is patted, on heap, insert some vertical pores with the wooden stick of diameter 10cm-15cm again, at the bottom of straight through reactor, stomatal frequency is 1/m 3, finally cover straw mat by its spontaneous fermentation, after material temperature reaches 60 DEG C, keep 24h, then carry out turning, and turning every day later once, add lime during first time turning, add gypsum, superphosphate during second time turning, altogether turning 3-4 time, time remaining 5d-6d, when stopping fermentation, the water content of planting material is 63%-65%, the planting material fermented, after heat radiation, is directly made the bed, is sowed and send out bacterium, when mycelia covers with the bed of material, cover the loam that 1-2cm is thick, carry out management of producing mushroom;
(3) management of producing mushroom: after the second damp mushroom, the 3rd damp mushroom are gathered, depending on mycelial growth situation, sprays the mushroom tang leachate of 0.01-0.02g/ml comprehensively in mushroom bed, every square metre is sprayed 4-6kg, with rejuvenation mycelia; The preparation method of described leachate is: mushroom tang particle is added clear water by the weight ratio of 20 times, soak 18h-24h at normal temperatures, filter and remove residue, then complement to the original water yield, obtain the mushroom tang leachate that concentration is 0.05g/ml, add clear water dilution and use.
Mushroom tang is applied to the method for the yellow mushroom cultivation of elm by the present invention, and apart from outside explanation, other operating procedure is all undertaken by this area routine techniques.
The present invention's advantage is compared with prior art:
1. mushroom tang leachate is full-natural nutritive liquid, containing glucide, amino acid, peptide class, nucleic acid and trace element, bio-hormone also containing abundant species, also the bioactivator do not leached in a large number is had in mushroom stems slag, soak with mushroom tang and expect to mix and stir to carry out banking up with culturing raw material to ferment, promote beneficial microbe breeding, improve the microorganism species in material, accelerate the catalytic decomposition of planting material;
2. the planting material after fermentation has high activity beneficial bacterium and active metabolite thereof, has Promotive effect, show as prosperous, the anti-miscellaneous bacteria ability of mycelium growth vigor strong to the growth of the yellow mushroom mycelia of elm;
3. after the second damp mushroom, the 3rd damp mushroom are gathered, effective with mushroom tang leachate rejuvenation mycelia, have facilitation to the formation of the former base of the yellow mushroom of elm and the growth of fruit body, the biological transformation ratio of third and fourth damp mushroom is high;
4. save the fuel needed for high-temperature sterilization, saved the energy, eliminate the drawback increasing CO2 emission in traditional Edible Fungi.
Embodiment
Below in conjunction with embodiment, the invention will be further described, and what do not illustrate in detail in embodiment is all state of the art.
Embodiment 1: the yellow mushroom cultivation method of a kind of elm, comprises batching, ferments, makes the bed, sows, sends out bacterium, earthing, management of producing mushroom, concrete operation step:
1. prepare burden: bagasse 40%, wood chip 38%, soya-bean cake 13%, mushroom tang 3.5%, lime 3.5%, gypsum 1%, superphosphate 1%, be all the quality of dry matter, proportioning sum is 100%;
2. mushroom tang soaks: mushroom tang particle is added clear water by 20-30 weight ratio doubly, soaks 18h-24h at normal temperatures;
3. spice: first bagasse, wood chip, soya-bean cake siccative are mixed thoroughly, then admixes mushroom tang leachate uniformly in compound together with mushroom stems slag, fully mixes thoroughly;
4. ferment: stockpile is become high 1.0m-1.2m, wide 2m-3m, the trapezoidal heap that length is not limit, the composts or fertilisers of cultivating often piled controls at dry weight 300kg-500kg, after carrying out heap, surrounding is patted, on heap, insert some vertical pores with the wooden stick of diameter 10cm-15cm again, at the bottom of straight through reactor, stomatal frequency is 1/m 3, finally cover straw mat by its spontaneous fermentation;
5. turning: after material temperature reaches 60 DEG C, keeps 24h, then carries out turning, and turning every day later once, during first time turning, add lime, during second time turning, add gypsum, superphosphate, turning 3 times altogether, time remaining 5d, when stopping fermentation, the water content of planting material is 63%-65%, the planting material fermented, after heat radiation, is directly made the bed, is sowed and send out bacterium, when mycelia covers with the bed of material, cover the loam that 1-2cm is thick, enter management of producing mushroom;
6. management of producing mushroom: after having adopted the second damp mushroom, sprays the mushroom tang leachate of 0.014g/ml in mushroom bed, every square metre is sprayed 4kg; After having adopted the 3rd damp mushroom, spray the mushroom tang leachate of 0.02g/ml, every square metre is sprayed 6kg, and by mushroom tang leachate rejuvenation mycelia, fruiting is effective, and the biological efficiency of third and fourth damp mushroom reaches 66.3%, and total biological efficiency reaches 150.8%.
Embodiment 2: the yellow mushroom cultivation method of a kind of elm, comprises batching, ferments, makes the bed, sows, sends out bacterium, earthing, management of producing mushroom, concrete operation step:
1. prepare burden: bagasse 40%, wood chip 38%, soya-bean cake 13%, mushroom tang 3.5%, lime 3.5%, gypsum 1%, superphosphate 1%, be all the quality of dry matter, proportioning sum is 100%;
2. mushroom tang soaks: mushroom tang particle is added clear water by 20-30 weight ratio doubly, soaks 18h-24h at normal temperatures;
3. spice: first bagasse, wood chip, soya-bean cake siccative are mixed thoroughly, then admixes mushroom tang leachate uniformly in compound together with mushroom stems slag, fully mixes thoroughly;
4. ferment: stockpile is become high 1.0m-1.2m, wide 2m-3m, the trapezoidal heap that length is not limit, the composts or fertilisers of cultivating often piled controls at dry weight 300kg-500kg, after carrying out heap, surrounding is patted, on heap, insert some vertical pores with the wooden stick of diameter 10cm-15cm again, at the bottom of straight through reactor, stomatal frequency is 1/m 3, finally cover straw mat by its spontaneous fermentation;
5. turning: after material temperature reaches 60 DEG C, keeps 24h, then carries out turning, and turning every day later once, during first time turning, add lime, during second time turning, add gypsum, superphosphate, turning 3 times altogether, time remaining 5d, when stopping fermentation, the water content of planting material is 63%-65%, the planting material fermented, after heat radiation, is directly made the bed, is sowed and send out bacterium, when mycelia covers with the bed of material, cover the loam that 1-2cm is thick, enter management of producing mushroom;
6. management of producing mushroom: after having adopted the second damp mushroom, the clear water of every square metre of sprinkling 4kg; After having adopted the 3rd damp mushroom, the clear water of every square metre of sprinkling 6kg, the biological efficiency of third and fourth damp mushroom has been 45.0%, and total biological efficiency is 129.5%.
Embodiment 3: the yellow mushroom cultivation method of a kind of elm, comprises batching, ferments, makes the bed, sows, sends out bacterium, earthing, management of producing mushroom, concrete operation step:
1. prepare burden: bagasse 40%, wood chip 38%, soya-bean cake 13%, mushroom tang 3.5%, lime 3.5%, gypsum 1%, superphosphate 1%, be all the quality of dry matter, proportioning sum is 100%;
2. mushroom tang soaks: mushroom tang particle is added clear water by 20-30 weight ratio doubly, soaks 18h-24h at normal temperatures;
3. spice: first bagasse, wood chip, soya-bean cake siccative are mixed thoroughly, then admixes the leachate after removing slag uniformly in compound, fully mixes thoroughly;
4. ferment: stockpile is become high 1.0m-1.2m, wide 2m-3m, the trapezoidal heap that length is not limit, the composts or fertilisers of cultivating often piled controls at dry weight 300kg-500kg, after carrying out heap, surrounding is patted, on heap, insert some vertical pores with the wooden stick of diameter 10cm-15cm again, at the bottom of straight through reactor, stomatal frequency is 1/m 3, finally cover straw mat by its spontaneous fermentation;
5. turning: after material temperature reaches 60 DEG C, keeps 24h, then carries out turning, and turning every day later once, during first time turning, add lime, during second time turning, add gypsum, superphosphate, turning 3 times altogether, time remaining 5d, when stopping fermentation, the water content of planting material is 63%-65%, the planting material fermented, after heat radiation, is directly made the bed, is sowed and send out bacterium, when mycelia covers with the bed of material, cover the loam that 1-2cm is thick, enter management of producing mushroom;
6. management of producing mushroom: after having adopted the second damp mushroom, sprays the mushroom tang leachate of 0.014g/ml in mushroom bed, every square metre is sprayed 4kg; After having adopted the 3rd damp mushroom, spray the mushroom tang leachate of 0.02g/ml, every square metre is sprayed 6kg, and by mushroom tang leachate rejuvenation mycelia, fruiting is effective, and the biological efficiency of third and fourth damp mushroom reaches 60.5%, and total biological efficiency reaches 142.3%.
Embodiment 4: the yellow mushroom cultivation method of a kind of elm, comprises batching, ferments, makes the bed, sows, sends out bacterium, earthing, management of producing mushroom, concrete operation step:
1. prepare burden: bagasse 40%, wood chip 38%, soya-bean cake 13%, mushroom tang 3.5%, lime 3.5%, gypsum 1%, superphosphate 1%, be all the quality of dry matter, proportioning sum is 100%;
2. mushroom tang soaks: mushroom tang particle is added clear water by 20-30 weight ratio doubly, soaks 18h-24h at normal temperatures;
3. spice: first bagasse, wood chip, soya-bean cake siccative are mixed thoroughly, then admixes the leachate after removing slag uniformly in compound, fully mixes thoroughly;
4. ferment: stockpile is become high 1.0m-1.2m, wide 2m-3m, the trapezoidal heap that length is not limit, the composts or fertilisers of cultivating often piled controls at dry weight 300kg-500kg, after carrying out heap, surrounding is patted, on heap, insert some vertical pores with the wooden stick of diameter 10cm-15cm again, at the bottom of straight through reactor, stomatal frequency is 1/m 3, finally cover straw mat by its spontaneous fermentation;
5. turning: after material temperature reaches 60 DEG C, keeps 24h, then carries out turning, and turning every day later once, during first time turning, add lime, during second time turning, add gypsum, superphosphate, turning 3 times altogether, time remaining 5d, when stopping fermentation, the water content of planting material is 63%-65%, the planting material fermented, after heat radiation, is directly made the bed, is sowed and send out bacterium, when mycelia covers with the bed of material, cover the loam that 1-2cm is thick, enter management of producing mushroom;
6. management of producing mushroom: after having adopted the second damp mushroom, the clear water of every square metre of sprinkling 4kg; After having adopted the 3rd damp mushroom, the clear water of every square metre of sprinkling 6kg, the biological efficiency of third and fourth damp mushroom has been 43.3%, and total biological efficiency is 125.1%.
the yellow mushroom biological efficiency of table one elm compares
As can be seen from Table I: the ferment effect utilizing mushroom tang leachate to add than single leachate together with the ferment effect that mushroom stems slag adds is good, and output is high; The effect of rejuvenation of leachate to the yellow mushroom mycelia of elm is good, and third and fourth damp mushroom biological efficiency is high, obvious effect of increasing production.

Claims (1)

1. the yellow mushroom cultivation method of elm, comprises batching, ferments, makes the bed, sows, sends out bacterium, earthing, management of producing mushroom, it is characterized in that:
(1) prepare burden: bagasse 36-44%, wood chip 34-42%, soya-bean cake 12-14%, mushroom tang 3-4%, lime 3-4%, gypsum 1%, superphosphate 1%, be all the quality of dry matter, proportioning sum is 100%; Described bagasse powder is broken into the particle of particle diameter 3mm-5mm; Described wood chip is the broad-leaved tree weed tree sawdust of particle diameter 3mm-5mm; Described mushroom tang is the offcuts in Lentnus edodes process, is ground into the particle of 2mm-3mm after drying;
(2) ferment: mushroom tang particle is added clear water by 20-30 weight ratio doubly, soak 18h-24h at normal temperatures, then leachate is admixed in bagasse, wood chip, soya-bean cake compound together with mushroom stems slag uniformly, stockpile is become high 1.0m-1.2m, wide 2m-3m, the trapezoidal heap that length is not limit, the composts or fertilisers of cultivating often piled controls at dry weight 300kg-500kg, after carrying out heap, surrounding is patted, on heap, insert some vertical pores with the wooden stick of diameter 10cm-15cm again, at the bottom of straight through reactor, stomatal frequency is 1/m 3, finally cover straw mat by its spontaneous fermentation, after material temperature reaches 60 DEG C, keep 24h, then carry out turning, and turning every day later once, add lime during first time turning, add gypsum, superphosphate during second time turning, altogether turning 3-4 time, time remaining 5d-6d, when stopping fermentation, the water content of planting material is 63%-65%, the planting material fermented, after heat radiation, is directly made the bed, is sowed and send out bacterium, when mycelia covers with the bed of material, cover the loam that 1-2cm is thick, carry out management of producing mushroom;
(3) management of producing mushroom: after the second damp mushroom, the 3rd damp mushroom are gathered, depending on mycelial growth situation, sprays the mushroom tang leachate of 0.01-0.02g/ml comprehensively in mushroom bed, every square metre is sprayed 4-6kg; The preparation method of described leachate is: mushroom tang particle is added clear water by the weight ratio of 20 times, soak 18h-24h at normal temperatures, filter and remove residue, then complement to the original water yield, obtain the mushroom tang leachate that concentration is 0.05g/ml, add clear water dilution and use.
CN201510110892.5A 2015-03-15 2015-03-15 Pleurotus citrinopileatus cultivating method Pending CN104737791A (en)

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Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103214302A (en) * 2013-03-26 2013-07-24 河北大学 Sawdust mushroom residue nutrition agent used for cultivating mozzie buster
CN103497026A (en) * 2013-10-23 2014-01-08 邬方成 Method for preparing pleurotus citrinopileatus cultivation material through utilization of pecan production and processing waste

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103214302A (en) * 2013-03-26 2013-07-24 河北大学 Sawdust mushroom residue nutrition agent used for cultivating mozzie buster
CN103497026A (en) * 2013-10-23 2014-01-08 邬方成 Method for preparing pleurotus citrinopileatus cultivation material through utilization of pecan production and processing waste

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Application publication date: 20150701