CN103497059B - Method for preparing agrocybe cylindracea cultivation material through utilization of pecan production and processing waste - Google Patents
Method for preparing agrocybe cylindracea cultivation material through utilization of pecan production and processing waste Download PDFInfo
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- CN103497059B CN103497059B CN201310501740.9A CN201310501740A CN103497059B CN 103497059 B CN103497059 B CN 103497059B CN 201310501740 A CN201310501740 A CN 201310501740A CN 103497059 B CN103497059 B CN 103497059B
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- caryae cathayensis
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- 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
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Abstract
The invention provides an agrocybe cylindracea cultivation material. The agrocybe cylindracea cultivation material is characterized in that pecan branch scraps, outer shell scraps and shell scraps are used as main raw materials, cottonseed hulls, bran, bean cakes, calcium superphosphate, land plaster and the like are used as auxiliary materials, and the water content of the cultivation material is 63%-65%. The invention further provides a method for preparing the cultivation material. The agrocybe cylindracea cultivation material and the method have the advantages that the pecan branch scraps, the outer shell scraps and the shell scraps undergo sun exposure and secondary fermentation or piled ageing treatment, poisonous bacteriostat is degraded, macromolecular substances such as xylogen, cellulose and the like are decomposed into simple materials which can be absorbed by agrocybe cylindracea hyphae easily, and the growth of the agrocybe cylindracea hyphae is promoted; the cultivation material is reasonable in proportion, fungous materials are good in breathability and strong in water-retaining property, agrocybe cylindracea is trim in fruiting and high in yield, and the biological efficiency of the agrocybe cylindracea reaches 96.7%-105.2%; a solution to innocent treatment of pecan branches, outer shells and shells is provided, and a novel matrix for agrocybe cylindracea cultivation is further found out.
Description
Technical field
The present invention utilizes Semen Caryae Cathayensis process for processing waste to make tea tree mushroom planting material, comprises the compatibility of planting material, and the making method of this planting material, belongs to fungus growing technique field.
Background technology
Tea tree mushroom has another name called Agrocybe aegerita (Brig) Sing, chaxingu mushroom, is a kind of rare edible fungus variety.It is crisp that tea tree mushroom covers tender handle, and the pure delicate fragrance of taste, includes 18 seed amino acids, and comprising human body, can not synthesize voluntarily or transform, and 8 kinds of necessary amino acid that must absorb from food, and also contain other many active factor materials, there is good food, pharmaceutical use.
Tea tree mushroom is a kind of wood-decay fungi, has stronger decomposition xylogen, cellulosic ability, so always, mushroom agriculture is all to using wood chip and cotton seed hulls as culturing raw material.But nowadays, " bacterium-Lin " contradiction, the price continuous rise of cotton seed hulls, cultivation cost is more and more higher, so each production unit is all attached great importance to looking for cheap and good-quality alternative materials.
Semen Caryae Cathayensis Pterostyrax Juglandaceae hickory, is a kind of woody oil tree species, and its fruit Semen Caryae Cathayensis is worldwide dry fruit, and the whole world has 18 kinds, 3 subspecies.Semen Caryae Cathayensis has long cultivation history in China, has so far more than 500 year, is mainly distributed in around the temmoku mountain area of Zhejiang, two provinces boundaries, Anhui, is located in north latitude 29
0-31
0, east longitude 118
0-120
0, total cultivated area approximately 8.67 ten thousand hm
2, more than 20,000 tons of annual production.
In Semen Caryae Cathayensis production and the course of processing, can produce three class wastes.The one, the branch producing after pruning.China's Semen Caryae Cathayensis cultivated area is large, prune every year the branch enormous amount falling, yet these branches is not reasonably utilized from Semen Caryae Cathayensis garden, and major part is used as fuel wood; The 2nd, Semen Caryae Cathayensis Pu shell (being formed by exocarp and mesocarp).Semen Caryae Cathayensis fresh fruit gathers, and one deck Pu shell of outside goes out of use after machine is peeled off, and 1 jin of dry seed of Semen Caryae Cathayensis of every output just has the Pu shell of at least 4 jin.These Pu shells, quantity is very large, (Semen Caryae Cathayensis produces in mountain area some woods that shelled also after all, the area that much The mountains are high and the roads are steep will accomplish that in a large number also woods is difficult to carry out), and not and the words of woods, by making charcoal personal or working as biological pesticide, consumption also all too is limited, and therefore a large amount of Semen Caryae Cathayensis Pu shells is arbitrarily abandoned or burns; The 3rd, Semen Caryae Cathayensis shell, Semen Caryae Cathayensis endocarp, is the duricrust that lignifying stone cell layer forms.Past, Semen Caryae Cathayensis was sold as dry fruit, and its shell is difficult to recycle, and present much Semen Caryae Cathayensis is by deep processing and utilization, for this Semen Caryae Cathayensis shell producing is concentrated in a large number, the most of enterprise of these shells processes it as waste, both increased production cost, again contaminate environment.
Semen Caryae Cathayensis branch, texture of wood is tight, and in unit volume, content of lignin is high; Semen Caryae Cathayensis Pu shell contains higher nutritive substance, and according to surveying and determination, the Pu shell drying contains xylogen approximately 43%, Mierocrystalline cellulose approximately 17%, nitrogen 0.56%, phosphorus 0.339%, potassium 0.797%; Shell contains the compositions such as Mierocrystalline cellulose, xylogen, wherein content of lignin approximately 52%, Mierocrystalline cellulose approximately 11%.These components, can provide essential carbon source for tea tree mushroom grows above.But because this three classes waste also contains the materials such as alkaloid and Polyphenols, these materials can suppress the growth of tea tree mushroom mycelia, so wish utilizes Semen Caryae Cathayensis branch, Pu shell, shell cultivate agrocybe mushroom, and key is to make these antibacterial substances be decomposed and volatilize.
Edible mushrooms Main Cultivation raw material (cotton seed hulls, wood chip) increasingly shortage today, if Semen Caryae Cathayensis branch, Pu shell, these waste wood matter substitution of resources woods cultivating tea tree mushrooms of shell, be not only this behave of falling of an Edible Fungi, but also be a circular agriculture and environmental protection cause behave.
Summary of the invention
The present invention has following two aspects:
1, a kind ofly take the tea tree mushroom planting material compatibility that Semen Caryae Cathayensis branch, Pu shell, shell be main raw material
2, the making method of planting material
The technical solution adopted in the present invention is:
A tea tree mushroom planting material compatibility, has following component and quality proportioning: Semen Caryae Cathayensis branch bits 8%-12%, Pu shell bits 18%-24%, shell bits 30%-40%, cotton seed hulls 15%, wheat bran 12%, soya-bean cake 5%, calcium superphosphate 1%, terra alba 1%, is all the quality of dry-matter, and proportioning sum is 100%.
Semen Caryae Cathayensis branch bits: dry, be ground into the particle of particle diameter 2mm-3mm, then put outdoor naturally stack (windrow place is slightly high in the middle of answering, surrounding is slightly low, and has ditch, not ponding), the high 1.5m-2m of stockpile, wide 3m-5m, length is not limit.During windrow, answer the watering of Bian Dui limit, make material fully drenched, keep at ordinary times stockpile moistening (wood grain water content reaches capacity), and stockpile surrounding often there are flowing out.In heap fermentation process, once, turning is 4 times altogether in turning in every 2 months, and time remaining 1 year, after fermentation ends, fully dries material, collects standby.
Pu shell bits: dry, be ground into the particle of particle diameter 5mm-7mm, then put outdoor naturally stack (windrow place is slightly high in the middle of answering, surrounding is slightly low, and has ditch, not ponding), the high 2m-3m of stockpile, wide 5m-10m, length is not limit.During windrow, answer the watering of Bian Dui limit, make material fully drenched, keep at ordinary times stockpile moistening (Pu shell bits water content reaches capacity), and stockpile surrounding often there are flowing out.In heap fermentation process, once, turning is 4 times altogether in every 20d turning, and time remaining three months, after fermentation ends, fully dries material, collects standby.
Shell bits: dry, be ground into the particle of particle diameter 3mm-5mm, be deposited in air seasoning place, ageing 1 year.
Wheat bran: wheat is separated wheat cortex in processing flour process.Wheat bran contains abundant enzyme system, protein, carbohydrate, VITAMIN and mineral substance etc.
Soya-bean cake: be a kind of byproduct obtaining after soybean extract oil, the main component of soya-bean cake is: crude protein 38.73%, nitrogen-free extract 26.59%, robust fibre 5.30%, fat 6.83%, mineral substance 4.93%.
Calcium superphosphate: be water soluble quick-acting phosphate fertilizer, provide phosphorus, sulphur nutritive ingredient, slightly acidic.
Terra alba: stablize planting material potential of hydrogen, increase calcium, sulphur nutritive ingredient.
The making method of planting material, comprises the steps:
1. shine material: the 1d-2d that before spice, raw material is exposed to the sun, utilize ultraviolet ray to kill part miscellaneous bacteria in raw material, make antibacterial substance decompose volatilization simultaneously;
2. prewet: first Semen Caryae Cathayensis branch bits, Pu shell bits, shell bits are turned evenly under drying regime, thereafter water prewet (fully drenched);
3. the fermentation of banking up: wet feed is piled to high 1.0m-1.2 m, wide 2m-3m, the trapezoidal heap that length is not limit, the planting material of every heap is controlled at dry weight 300kg-500kg, carry out after heap, surrounding is patted, then on heap, insert some vertical pores with the wooden stick of diameter 10cm-15cm, at the bottom of straight through reactor, stomatal frequency is 1/m
3, finally cover straw mat by its spontaneous fermentation;
4. turning: when material temperature reaches after 60 ℃, keep 24h, then carry out turning, and turning every day later once, during last turning, add the auxiliary materials such as cotton seed hulls, wheat bran, soya-bean cake, calcium superphosphate, terra alba, and keep the skin wet depending on the water content of windrow, turning is 4-5 time altogether, time remaining 6d-7d, while stopping fermentation, the water content of culture material is 63%-65%;
5. bottle, beat and plant bacterium hole: planting material is packed into the acrylic plastering bottle of 1100ml * 78mm, the heavy 720g-750g of dress wet feed, stamps and plant bacterium hole, and planting aperture, bacterium hole is 16mm, then covers the bottle cap of the ventilative sponge of band;
6. sterilizing, cooling: planting material is carried out to autoclaving, and first sterilizing 1h at 100 ℃, then rises to 121 ℃ of sterilizing 1.5h, naturally cools to below 25 ℃ after sterilizing.
After planting material access bacterial classification, culturing room's temperature is controlled at 22 ℃-24 ℃, and relative air humidity is controlled at 60%-75%; Through the cultivation of 26d-28d, mycelia is covered with bottle, can enter management of producing mushroom.
It is main raw material that Semen Caryae Cathayensis branch bits, Pu shell bits, shell bits are take in the present invention, is aided with the auxiliary materials such as cotton seed hulls, wheat bran, soya-bean cake, calcium superphosphate, terra alba, makes tea tree mushroom planting material.Its advantage is: the one, and Semen Caryae Cathayensis branch bits, Pu shell bits, shell bits, through sunlight exposure, Secondary Fermentation or accumulation ripening, both the poisonous bacteriostatics of having degraded, make again the macromolecular substance such as xylogen, Mierocrystalline cellulose be decomposed into and be conducive to the simple material that tea tree mushroom mycelia absorbs, promoted the growth of tea tree mushroom mycelia; The 2nd, planting material reasonable ratio, bacterium material good permeability, water-retentivity are strong, and tea tree mushroom fruiting is neat, and output is high, and its biological efficiency reaches 96.7%-105.2%; The 3rd, not only the harmless treatment for Semen Caryae Cathayensis branch, Pu shell, shell provides a terms of settlement, also for a kind of new matrix has been found in tea tree mushroom cultivation.
Embodiment
Mode 1: in the present embodiment, tea tree mushroom planting material comprises following component and quality proportioning: Semen Caryae Cathayensis branch bits 8%, Pu shell bits 18%, shell bits 40%, cotton seed hulls 15%, wheat bran 12%, soya-bean cake 5%, calcium superphosphate 1%, terra alba 1%, is all the quality of dry-matter, and proportioning sum is 100%.
Making method:
1. shine material: the 2d that before spice, raw material is exposed to the sun, utilize ultraviolet ray to kill part miscellaneous bacteria in raw material, make antibacterial substance decompose volatilization simultaneously;
2. prewet: first Semen Caryae Cathayensis branch bits, Pu shell bits, shell bits are turned evenly under drying regime, thereafter water prewet (fully drenched);
3. the fermentation of banking up: wet feed is piled to high 1.2 m, wide 3m, the trapezoidal heap of long 5m, carries out after heap, surrounding is patted, then on heap, insert some vertical pores with the wooden stick of diameter 15cm, and at the bottom of straight through reactor, stomatal frequency is 1/m
3, finally cover straw mat by its spontaneous fermentation;
4. turning: when material temperature reaches after 60 ℃, keep 24h, then carry out turning, and turning every day later once, during last turning, add the auxiliary materials such as cotton seed hulls, wheat bran, soya-bean cake, calcium superphosphate, terra alba, and keep the skin wet depending on the water content of windrow, turning is 4 times altogether, time remaining 6d, while stopping fermentation, the water content of culture material is 63%-65%;
5. bottle, beat and plant bacterium hole: planting material is packed into the acrylic plastering bottle of 1100ml * 78mm, the heavy 720g-750g of dress wet feed, stamps and plant bacterium hole, and planting aperture, bacterium hole is 16mm, then covers the bottle cap of the ventilative sponge of band;
6. sterilizing, cooling: planting material is carried out to autoclaving, and first sterilizing 1h at 100 ℃, then rises to 121 ℃ of sterilizing 1.5h, naturally cools to below 25 ℃ after sterilizing.
After planting material access bacterial classification, culturing room's temperature is controlled at 22 ℃, and relative air humidity is controlled at 65%; Through the cultivation of 28d, mycelia is covered with bottle, enters management of producing mushroom.The biological efficiency of tea tree mushroom reaches 105.2%.
Mode 2: in the present embodiment, tea tree mushroom planting material comprises following component and quality proportioning: Semen Caryae Cathayensis branch bits 10%, Pu shell bits 21%, shell bits 35%, cotton seed hulls 15%, wheat bran 12%, soya-bean cake 5%, calcium superphosphate 1%, terra alba 1%, is all the quality of dry-matter, and proportioning sum is 100%.Making method is with reference to mode 1.The biological efficiency of tea tree mushroom reaches 100.1%.
Mode 3: in the present embodiment, tea tree mushroom planting material comprises following component and quality proportioning: Semen Caryae Cathayensis branch bits 12%, Pu shell bits 24%, shell bits 30%, cotton seed hulls 15%, wheat bran 12%, soya-bean cake 5%, calcium superphosphate 1%, terra alba 1%, is all the quality of dry-matter, and proportioning sum is 100%.Making method is with reference to mode 1.The biological efficiency of tea tree mushroom reaches 96.7%.
The impact of the planting material of table different modes on tea tree mushroom biological efficiency
Claims (9)
1. a tea tree mushroom planting material, it is characterized in that containing following component and quality proportioning: Semen Caryae Cathayensis branch bits 8%-12%, Semen Caryae Cathayensis Pu shell bits 18%-24%, Semen Caryae Cathayensis shell bits 30%-40%, cotton seed hulls 15%, wheat bran 12%, soya-bean cake 5%, calcium superphosphate 1%, terra alba 1%, be all the quality of dry-matter, proportioning sum is 100%.
2. a kind of tea tree mushroom planting material according to claim 1, is characterized in that described Semen Caryae Cathayensis branch bits are for pruning the branch falling in Semen Caryae Cathayensis garden, through drying, be ground into the particle of particle diameter 2mm-3mm.
3. a kind of tea tree mushroom planting material according to claim 1, is characterized in that described Pu shell bits are for Semen Caryae Cathayensis Pu shell, through drying, be ground into the particle of particle diameter 5mm-7mm.
4. a kind of tea tree mushroom planting material according to claim 1, is characterized in that described Semen Caryae Cathayensis branch bits, Pu shell bits, must be through natural packing fermentation, during windrow, answer the watering of Bian Dui limit, make material fully drenched, keep at ordinary times stockpile moistening, bits grain water content reaches capacity, and Semen Caryae Cathayensis branch is considered turning in every two months to be worth doing once, composting time remaining 1 year, Pu shell is considered every 20d turning to be worth doing once, and time remaining three months, after fermentation ends, material is fully dried, collect standby.
5. a kind of tea tree mushroom planting material according to claim 1, is characterized in that described shell bits are Semen Caryae Cathayensis shell, through drying, be ground into the particle of particle diameter 3mm-5mm, is then deposited in air seasoning place, and ageing 1 year is standby.
6. a kind of tea tree mushroom planting material according to claim 1, is characterized in that described wheat bran is by wheat separated wheat cortex in processing flour process.
7. a kind of tea tree mushroom planting material according to claim 1, is characterized in that described soya-bean cake is a kind of byproduct obtaining after soybean extract oil.
8. a kind of tea tree mushroom planting material according to claim 1, its making method is:
1. shine material: the 1d-2d that before spice, raw material is exposed to the sun, utilize ultraviolet ray to kill part miscellaneous bacteria in raw material, make antibacterial substance decompose volatilization simultaneously;
2. prewet: first Semen Caryae Cathayensis branch bits, Pu shell bits, shell bits are turned evenly under drying regime, water is prewetted thereafter;
3. the fermentation of banking up: wet feed is piled to high 1.0m-1.2 m, wide 2m-3m, the trapezoidal heap that length is not limit, the planting material of every heap is controlled at dry weight 300kg-500kg, carry out after heap, surrounding is patted, then on heap, insert some vertical pores with the wooden stick of diameter 10cm-15cm, at the bottom of straight through reactor, stomatal frequency is 1/m
3, finally cover straw mat by its spontaneous fermentation;
4. turning: when material temperature reaches after 60 ℃, keep 24h, then carry out turning, and turning every day later once, during last turning, add cotton seed hulls, wheat bran, soya-bean cake, calcium superphosphate, terra alba auxiliary material, and keep the skin wet depending on the water content of windrow, turning is 4-5 time altogether, time remaining 6d-7d, while stopping fermentation, the water content of culture material is 63%-65%;
5. bottle, beat and plant bacterium hole: planting material is packed into the acrylic plastering bottle of 1100ml * 78mm, the heavy 720g-750g of dress wet feed, stamps and plant bacterium hole, and planting aperture, bacterium hole is 16mm, then covers the bottle cap of the ventilative sponge of band;
6. sterilizing, cooling: planting material is carried out to autoclaving, and first sterilizing 1h at 100 ℃, then rises to 121 ℃ of sterilizing 1.5h, naturally cools to below 25 ℃ after sterilizing.
9. a kind of tea tree mushroom planting material according to claim 1, is characterized in that accessing after bacterial classification, and culturing room's temperature is controlled at 22 ℃-24 ℃, and relative air humidity is controlled at 60%-75%; Through the cultivation of 26d-28d, mycelia is covered with bottle, can enter management of producing mushroom.
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| CN201310501740.9A CN103497059B (en) | 2013-10-23 | 2013-10-23 | Method for preparing agrocybe cylindracea cultivation material through utilization of pecan production and processing waste |
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Families Citing this family (14)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN104609987A (en) * | 2015-02-24 | 2015-05-13 | 邬方成 | Method for manufacturing agrocybe cylindracea cultivation material |
| CN104725112A (en) * | 2015-02-24 | 2015-06-24 | 邬方成 | Preparation method of agrocybe aegirit cultivation material |
| CN104725114A (en) * | 2015-02-24 | 2015-06-24 | 邬方成 | Preparation method of agrocybe aegirit cultivation material |
| CN104725113A (en) * | 2015-02-24 | 2015-06-24 | 邬方成 | Preparation method of agrocybe aegirit cultivation material |
| CN104744155A (en) * | 2015-03-06 | 2015-07-01 | 邬方成 | Method for manufacturing agrocybe cylindracea compost |
| CN104744156A (en) * | 2015-03-07 | 2015-07-01 | 邬方成 | Method for manufacturing agrocybe cylindracea compost |
| CN104744157A (en) * | 2015-03-07 | 2015-07-01 | 邬方成 | Method for manufacturing agrocybe cylindracea compost |
| CN104961550A (en) * | 2015-06-16 | 2015-10-07 | 王金生 | Method for manufacturing culture substrates for agrocybe cylindracea |
| CN106416737A (en) * | 2015-08-04 | 2017-02-22 | 桂林洁宇环保科技有限责任公司 | Use of fruit skins and pruned branches and tendrils of Passiflora edulia in Lentinus edodes cultivation |
| CN106416740A (en) * | 2015-08-04 | 2017-02-22 | 桂林洁宇环保科技有限责任公司 | Use of fruit skins and pruned branches and tendrils of Passiflora edulia in big clitocybe cultivation |
| CN106416739A (en) * | 2015-08-04 | 2017-02-22 | 桂林洁宇环保科技有限责任公司 | Use of fruit skins and pruned branches and tendrils of Passiflora edulia in Oudemansiella radicata cultivation |
| CN105272625A (en) * | 2015-10-31 | 2016-01-27 | 芜湖野树林生物科技有限公司 | Preparation method of culture medium capable of improving content of amino acids of lucid ganoderma |
| CN109362487A (en) * | 2018-12-12 | 2019-02-22 | 吕梁学院 | A kind of oyster cap fungus culture medium and preparation method thereof |
| CN115517142A (en) * | 2022-08-23 | 2022-12-27 | 西南林业大学 | Alternative planting method for gastrodia elata |
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| CN101731099A (en) * | 2009-12-16 | 2010-06-16 | 镇江市食用菌研究所 | Method to cultivate agrocybe chaxingu annually by using civil air defense facilities |
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