CN108990703A - A kind of Stropharia rugoso-annulata facility cultivation technique - Google Patents

Abstract

The invention discloses a kind of Stropharia rugoso-annulata facility cultivation techniques, belong to technical field of edible fungi cultivation, specifically include: Compost fermentation, build mushroom shed, ridge-up bed build, sowing, mycelia manage and protect, mushroom growing and harvesting step；After each compost component of the present invention separates compost fermentation, it is layered stone, ensure that the nutrient and oxygen supply during mycelia and fruit body development, whole fruiting is uniform, and cultivating rate is stablized, and total output is high, and quality is good, and crop cycle is short.

Description

A kind of Stropharia rugoso-annulata facility cultivation technique

Technical field

The present invention relates to technical field of edible fungi cultivation, in particular to a kind of Stropharia rugoso-annulata facility cultivation technique.

Background technique

Stropharia rugoso-annulata category Basidiomycotina layer guiding principle Agaricales Strophariaceae Stropharia, since its is beautiful in colour, smell is clear Perfume, exquisiteness is tender and crisp, taste is soft, smooth palatable, both can eat raw or dry, quite by consumer's favorable comment.Stropharia rugoso-annulata fructification Containing quite high protein and to substances such as the advantageous polysaccharide of human health, mineral element, vitamins, there is very high battalion Value and healthcare function are supported, there is the full nutrition health food of " meat or fish in element ".

Stropharia rugoso-annulata is generally cultivation with straw or wood sawdust or both mixture at present in the cultivation extensively of many countries Material, though existing field production technology can successfully harvest fructification, there are following disadvantages: 1, the period is long: The shortest time takes 4 months and starts to harvest, longest for 6 months；2, fruiting difficulty is big: mycelium is in nutrient growth to life It is easy failure in reproductive growth transition process, is difficult to grow fructification, even if kind comes out, annual output is also extremely unstable, serious to make About Stropharia rugoso-annulata being widely applied and commercially produces；3, culture material utilization rate is low: culture material mixes latter fermentation, respectively The rotten degree of raw material is difficult to control, and nutrients release is not thorough.

Summary of the invention

The purpose of the present invention is to provide a kind of Stropharia rugoso-annulata facility cultivation technique, each compost component separates compost hair After ferment, it is layered stone, ensure that the nutrient and oxygen supply during mycelia and fruit body development, whole fruiting is uniform, fruiting Rate is stablized, and total output is high, and quality is good, and crop cycle is short.

Above-mentioned technical purpose of the invention has the technical scheme that

A kind of Stropharia rugoso-annulata facility cultivation technique, comprising the following steps:

S1, Compost fermentation: compost component is used as after stalk, corncob, rice hulls difference compost fermentation；

S2, it builds mushroom shed: the planting site of loosing soil being selected to build greenhouse, and cover one layer of plastic foil and shading net to canopy Bottom, canopy is interior to fill one group of atomizer every a meter ampere；

S3, ridge-up bed are built: 20~40cm of deep ploughing, bedding, the wide 100~150cm of furrow, the long 40m of furrow, stay gutter, furrow between furrow Face is trimmed to intermediate slightly higher curvature of the spinal column type, and then sprinkling quick lime to furrow face is shown in white；

S4, sowing: the stone when material temperature is down to 25 DEG C or less, and in spread culture material sow walnut size strain, Then cover the soil in a small amount of gutter；

S5, mycelia are managed and protected: keeping overburden layer wet, the field planting of observation mycelia and bacterium germination situation are replenished in time inoculation and eliminate Miscellaneous bacteria；

S6, mushroom growing, harvesting: being frequently stirred compost, when discovery has the fructification of white soya bean size to occur, keeps earthing Layer and stalk are wet, after 5~7d, can harvest.

Further, every 100 parts of composts are grouped as by the group of following mass parts: 40~60 parts of stalk, corncob 20~ 30 parts, 20~30 parts of rice hulls.

Further, in the step S1, straw compost fermentation includes the following steps:

It 1) is in mass ratio, that 1:1000 is uniformly mixed as spray solution with sterile water by zymophyte；

2) stalk, is layered on field, so that it is suctioned moisture using a small amount of multiple spray mode, and be inoculated with top fermentation bacterium；

3) stalk of damping, is piled into 2~4m of bottom width, the trapezoidal heap of high 1~2m, material heap surface is in plane, is beaten in material heap There is gas vent, and covered with plastic cloth, material heap temperature is monitored by thermometer；

4), when material temperature reaches 55 DEG C, has white powder thermophilic actinomycete to occur in material, first time turning；

5), when material temperature rises to 55 DEG C or more, 2~3d is kept, until stalk has a large amount of powdery albefaction objects, no ammonia at dark brown Smelly and material tart flavour, i.e. fermentation ends.

Further, the zymophyte is made of actinomyces, burkholderia.

Further, the stalk is one of rice straw, corn stover, sesame stalk, wheat stalk.

Further, in the step S1, corncob compost fermentation includes the following steps:

1) corncob, is laid in field, rolls and is ground out repeatedly, then repeatedly watering, keeps corncob wet；

2) corncob, is piled into 2~4m of bottom width, the trapezoidal heap of high 1~2m, material heap surface is in plane, after cover plastic foil；

3), ferment 4~5d, until corncob is dark brown, no ammonia odor and material tart flavour, i.e. fermentation ends.

Further, in the step S1, rice hulls compost fermentation includes the following steps: to pile rice hulls into a pile, more Secondary watering keeps it wet, then covers 4~5d of plastics film fermentation, spare.

Further, the step S4, the stone when material temperature is down to 25 DEG C or less spread the straw of 2.5~3.5cm thickness first Stalk, on the corncob stirred evenly and rice hulls mixture, arranged smooth, width is consistent, then breaks into strain Walnut size, by pan feeding, every three row of furrow sowing completes first layer after planting, is then covered with the stalk of 2.5~3.5cm thickness, on The mixture of the corncob and rice hulls that stir evenly carries out second layer sowing, finally, the stalk for spreading 1~2cm thickness is covered Lid, and take the native stalks mulching in a small amount of gutter.Stalk, corncob and rice hulls are loose fluffy soft, excessively ventilative to easily cause moisture It is lost, therefore the present invention is conducive to the guarantor of compost moisture and nutrient in the soil in gutter of top layer's covering containing quick lime It holds, pollution of the microorganism to fermented and cultured material in outside air can also be completely cut off, and the quick lime in soil is with the water-soluble of sprinkling Compost is penetrated into after solution, the pH value of compost is adjusted, and is maintained the state of its acid partial neutral, is conducive to the life of Stropharia rugoso-annulata Long development；Secondly, earthing generates gravity and Pressure stimulation to mycelia, its differentiation is promoted to generate fruit body primordium, cultivating rate is high, mushroom Shape is good.

Further, 9~12cm of spacing between the strain.

Further, the step S2 planting site topography is flat, stabilization of having abundant water resources, and soil property is sandy soil, and pH value is Neutral or meta-alkalescence.Sandy soil refers to that silt content is more, and grained matte, seepage velocity is fast, and water retention property is poor, and venting capability is good Soil, soil temperature luffing is big, and daytime soil warming is fast, at night cooling it is also fast, therefore, advantageously form the morning and evening temperature difference, sooner or later The temperature difference is conducive to greatly the development of fruit body primordium and the formation of fructification；Secondly, aeration is good, oxygen is sufficient, is conducive to aerobic Property microorganism activity, organic matter decomposition is fast, in soil nonhazardous substance exist, continuous cropping may be implemented；But due to sand soil In contain the more grains of sand, moisture is easy to be lost, therefore the present invention is kept the skin wet at any time by the way that spraying facility is arranged in greenhouse, The moisture content of sandy soil is improved, and can be to avoid support water, waterlogging and perched water.

The beneficial effects of the present invention are:

1. combining the temperature in 9~November of Hubei province locality and 0 DEG C of humidity condition and minimum winter daily mean temperature attached Closely, in Stropharia rugoso-annulata bacterium growth course, a series of management methods for meeting its growth rhythm are implemented, and have by greenhouse Effect reduces environmental change and grows caused devastating impact to it, and whole fruiting is uniform, and cultivating rate is stablized, and total output is high, product Matter is good, and crop cycle is short, has method science, and planting type meets our province climatic characteristic, the distinguishing features such as can be widely applied.

2. each component separates compost fermentation, controllable difference compost moisture contents, fermentation temperature and fermentation time, thus The attenuation degree for controlling different composts is conducive to kill pest and disease damage, promotes beneficial microbe breeding, accelerates the catalysis of compost It decomposing, better Releasing nutrient, heap produces good compost, and compost quality of the invention is soft, no agglomeration, no ammonia taste, Without sour taste, no musty, mycelia material feeding speed is fast, conducive to the Growth and Differentiation of Stropharia rugoso-annulata mycelia and fructification, to a certain extent Shorten cultivation period；And the compost after fermenting contains high activity beneficial microbe and its active metabolite, growing to it has Facilitation, shows as that mycelium growth vigor is prosperous, anti-miscellaneous bacteria ability is strong；Secondly each component separately ferments, and forms in composting process The microbial flora for being conducive to itself fermentation, improves the microbe species and quantity of compost, resists external microbe invasion Ability is strong, reduces the generation of disease.

3. being inoculated with actinomyces and burkholderia is used as zymophyte, actinomyces, can will be fine with high-cellulose enzymatic activity Dimension element is degraded to the carbohydrate of oligosaccharides and small molecule, such as glucose, cellobiose, maltose, trisaccharide, and glucose is as big The most suitable carbon source of Stropharia rugoso-annulata can significantly promote mycelia and growth, while stalk cellulose dispersion and de- fibrillation make its softening, just Arranged when stone closer；Secondly, actinomyces can produce some antibacterial materials such as prodigiosin, have extremely strong restraining epiphyte, Bacterium and insecticidal activity, to disease common in Stropharia rugoso-annulata planting process such as mite class, ant, mushroom mosquito and pathogenic microorganism have compared with Strong control efficiency.Burkholderia has high chitinase and chitosan enzyme activity, the oligosaccharide that actinomycete fermentation generates Class can induce burkholderia and generate chitinase, chitosan enzyme etc., by chitin and chitosan in disease fungus cell wall It is degraded to the oligose fragment of 4 saccharide residues composition, therefore it is competing to can inhibit terrible umbrella, naked lid mushroom etc. during Hypha Growth of Stropharia Rugosa-annulata The infection of pathogen is resisted in the sprouting for striving miscellaneous bacteria, further increases the beneficial microorganisms content such as actinomyces, quickening ferment into Journey.

4. process can be saved by the way of being layered stone, it is easy to operate, it is suitable for continuous operation；Secondly, mixing is uniform, Retain water and nutrients, stalk softness flexible after compost fermentation are in rarefaction, repave corncob, rice hulls mixture, form " three Mingzhi's formula " structure, corncob, rice hulls partially can be penetrated into directly in stalk, and mixing is uniform, and nutrient supply is sufficient, and stalk It can keep corncob, the water content of rice hulls and nutrient；And be not necessarily to be stirred, the rarefaction of compost is maintained, Gas permeability is maintained, oxygen supply and temperature are suitable, are conducive to the development of mycelia and fructification；On the other hand, each component compost is not interfered The microbial flora of itself afterwards is conducive to maintain original yeastiness, sustained release nutrient, and resists invading for external microbe It attacks, reduces living contaminants.

5. initial stage mycelia is grown in high-moisture corncob, rice hulls mixture layer using layering stone, corncob is rich Containing pentosan, cellulose, followed by lignin and minerals, rice hulls rich in cellulose, pentosan, lignin, silica, Phosphorus, potassium are with some microelements such as calcium, manganese, iron, copper etc., carbohydrate needed for being supplied to mycelium germination, minerals, salt and wet Degree, compared to stalk, corncob, rice hulls, corncob, rice hulls mixture bacterium germination are most fast, and rice hulls decompose the silicon of release The disease resistance ability that Stropharia rugoso-annulata can be enhanced, cellulase, paint can be activated by decomposing the microelements such as calcium, manganese, iron, the copper of release Enzyme, manganese peroxidase enzymatic activity, later period mycelia grow into corncob, rice hulls and stalk mixture layer, start to eat to stalk Material, the carbohydrate that prior fermentation generates can be such that mycelia mushrooms out, and cellulose-decomposing ability is strong, form benign cycle, final mycelia Mushroom out and be paved with entire stalk layer, but at this point, due to organic matter and oxygen consumption, microbiological contamination probability greatly improves, and this hair Bright actinomyces and Burkholder formula bacterium are all the strain excellents of antagonism pathogen, it is ensured that Stropharia rugoso-annulata healthy growth, and Its growth factor generated can promote the formation of fruit body primordium, and final fruiting is fast, and fruiting is more, and mushroom total yield is also high.

Specific embodiment

Technical solution of the present invention is clearly and completely described below in conjunction with specific embodiment.Obviously, described Embodiment be only a part of the embodiments of the present invention, instead of all the embodiments.Based on the embodiment of the present invention, ability Domain those of ordinary skill every other embodiment obtained without creative efforts, belongs to guarantor of the present invention The range of shield.

One, embodiment

Embodiment 1

A kind of Stropharia rugoso-annulata facility cultivation technique, comprising the following steps:

S1, Compost fermentation: compost component is used as after corn stover, corncob, rice hulls difference compost fermentation；Often 100 parts of composts are grouped as by the group of following mass parts: 40 parts of corn stover, 30 parts of corncob, 30 parts of rice hulls；

S2, build mushroom shed: selection topography is flat, stabilization of having abundant water resources, and soil property be i.e. moisturizing and the not sandy soil of ponding, Soil pH value is neutral or meta-alkalescence, builds greenhouse on it, using the hot galvanized steel pipe of 6* Φ 25 be barricaded as high 3m, width 8m, It is divided into the greenhouse of 1m between long 40m, sidebar, and covers one layer of plastic foil and 2 layer of 8 needle shading net to canopy bottom, canopy both sides card slot card Tightly, soil block is compacted around canopy bottom, fills one group of atomizer every a meter ampere in canopy；

S3, ridge-up bed are built: on the soil for putting up mushroom shed, with rotary cultivator deep ploughing soil, ploughing deeply depth is 20cm, is then made Furrow, the wide 100cm of furrow, the long 40m of furrow, and the gutter of 30cm, depth 10cm are stayed among every furrow, furrow face is trimmed to intermediate slightly higher Curvature of the spinal column type, then with quick lime be sprayed to furrow face see it is white；

S4, sowing: the stone when material temperature is down to 25 DEG C or less, and in spread culture material sow walnut size strain, Then cover the soil in a small amount of gutter, concrete operations are as follows: spreading the corn stover of 2.5cm thickness first, on the corn that stirs evenly The mixture of core and husk, is arranged smooth, and width is consistent, and strain is then broken into walnut size, by pan feeding, every furrow three Row sowing, strain spacing 9cm complete first layer after planting, are then covered with the corn stover of 2.5cm thickness, on the jade that stirs evenly The mixture of meter Xin and husk carry out second layer sowing, finally, the corn stover for spreading 1cm thickness is covered, and take a small amount of row The soil in ditch, is covered in corn stover, until can not see grass；

S5, mycelia are managed and protected: noticing that the control of temperature of shed and humidity, small water spray are poured, keep earthing wet, the megathermal period in autumn Diligent watering, while mycelia field planting and bacterium germination situation are observed, inoculation and superseded miscellaneous bacteria is replenished in time；

S6, mushroom growing, harvesting: being frequently stirred compost, when discovery has the fructification of white soya bean size to occur, daily small water Spray is poured, and is kept overburden layer and corn stover wet, after 5~7d, can be harvested.

In the step S1, maize straw manure fermentation includes the following steps:

It 1) is in mass ratio, that 1:1000 is uniformly mixed as spray solution with sterile water by zymophyte；

2), the corn stover that screening length is 70~100cm is layered on field, and a small amount of repeatedly spray makes it suction moisture, and It is inoculated with top fermentation bacterium, the zymophyte is made of actinomyces, burkholderia；It is taken out with hand and arbitrarily extracts one corn stover, It tightens, if having water droplet exudation and not line, just illustrates that water content is suitable；

3) stalk of damping, is piled into 2~4m of bottom width, the trapezoidal heap of high 1~2m when heap, stands one every 100cm The bamboo pole of thick 5cm or so, after heap is good, double swerve bamboo pole forms gas vent, to prevent material heap center and bottom anoxic, then uses Plastic cloth capping, and thermometer is inserted among material heap, temperature is monitored at any time；

4), when material temperature reaches 55 DEG C, has white powder thermophilic actinomycete to occur in material, first time turning, when turning Also it to be inserted into bamboo pole, after turning over, double swerve bamboo pole forms gas vent；

5), when material temperature rises to 55 DEG C or more, 2~3d is kept, until stalk has a large amount of powdery albefaction objects, no ammonia at dark brown Smelly and material tart flavour, i.e. fermentation ends.

In the step S1, corncob compost fermentation includes the following steps:

S1, corncob is laid in field, is rolled and ground out repeatedly with automobile or the motor tricycle for having filled goods, with Repeated multiple times watering afterwards keeps corncob wet；

S2, corncob piles to 2~4m of bottom width, the trapezoidal heap of high 1~2m, material heap surface is in plane, after cover plastic foil；

S3,4~5d of fermentation, until corncob is dark brown, no ammonia odor and material tart flavour, i.e. fermentation ends.

In the step S1, rice hulls compost fermentation includes the following steps: rice hulls piling a pile, and repeatedly watering makes it It is wet, it grabs one at random with hand and is held in the hand, webs have water droplet, but do not fall, i.e., water content is moderate, then cover plastic foil hair 4~5d of ferment.

Embodiment 2

A kind of Stropharia rugoso-annulata facility cultivation technique, comprising the following steps:

S1, Compost fermentation: compost component is used as after sesame stalk, corncob, rice hulls difference compost fermentation；Often 100 parts of composts are grouped as by the group of following mass parts: 45 parts of sesame stalk, 27.5 parts of corncob, 27.5 parts of rice hulls；

S2, build mushroom shed: selection topography is flat, stabilization of having abundant water resources, and soil property be i.e. moisturizing and the not sandy soil of ponding, Soil pH value is neutral or meta-alkalescence, builds greenhouse on it, is barricaded as between high 3m, width 8m, long 40m, sidebar using pipe of cement It is divided into the greenhouse of 1m, and covers one layer of plastic foil and 2 layer of 8 needle shading net to canopy bottom, the card slot clamping of canopy both sides, soil around canopy bottom Block compacting, canopy is interior to fill one group of atomizer every a meter ampere；

S3, ridge-up bed are built: on the soil for putting up mushroom shed, with rotary cultivator deep ploughing soil, ploughing deeply depth is 25cm, is then made Furrow, the wide 110cm of furrow, the long 40m of furrow, and the gutter of 35cm, depth 12cm are stayed among every furrow, furrow face is trimmed to intermediate slightly higher Curvature of the spinal column type, then with quick lime be sprayed to furrow face see it is white；

S4, sowing: the stone when material temperature is down to 25 DEG C or less, and in spread culture material sow walnut size strain, Then cover the soil in a small amount of gutter, concrete operations are as follows: spreading the sesame stalk of 3cm thickness first, on the corncob that stirs evenly With the mixture of husk, arranged smooth, width is consistent, strain is then broken into walnut size, by pan feeding, every three row of furrow Sowing, strain spacing 11cm complete first layer after planting, are then covered with the sesame stalk of 3cm thickness, on the corncob that stirs evenly With the mixture of husk, second layer sowing is carried out, finally, the stalk for spreading 1cm thickness is covered, and takes a small amount of gutter Soil covers in sesame stalk, until can not see grass；

S5, mycelia are managed and protected: noticing that the control of temperature of shed and humidity, small water spray are poured, keep earthing wet, the megathermal period in autumn Diligent watering, while mycelia field planting and bacterium germination situation are observed, inoculation and superseded miscellaneous bacteria is replenished in time；

S6, mushroom growing, harvesting: being frequently stirred compost, when discovery has the fructification of white soya bean size to occur, daily small water Spray is poured, and is kept overburden layer and sesame stalk wet, after 5~7d, can be harvested.

In the step S1, sesame stalk, corncob, rice hulls compost fermentation step such as embodiment 1.

Embodiment 3

A kind of Stropharia rugoso-annulata facility cultivation technique, comprising the following steps:

S1, Compost fermentation: compost component is used as after rice straw, corncob, rice hulls difference compost fermentation；Often 100 parts of composts are grouped as by the group of following mass parts: 50 parts of rice straw, 25 parts of corncob, 25 parts of rice hulls；

S2, build mushroom shed: selection topography is flat, stabilization of having abundant water resources, and soil property be i.e. moisturizing and the not sandy soil of ponding, Soil pH value is neutral or meta-alkalescence, builds greenhouse on it, using the hot galvanized steel pipe of 6* Φ 25 be barricaded as high 3m, width 8m, It is divided into the greenhouse of 1m between long 40m, sidebar, and covers one layer of plastic foil and 2 layer of 8 needle shading net to canopy bottom, canopy both sides card slot card Tightly, soil block is compacted around canopy bottom, fills one group of atomizer every a meter ampere in canopy；

S3, ridge-up bed are built: on the soil for putting up mushroom shed, with rotary cultivator deep ploughing soil, ploughing deeply depth is 30cm, is then made Furrow, the wide 120cm of furrow, the long 40m of furrow, and the gutter of 40cm, depth 13cm are stayed among every furrow, furrow face is trimmed to intermediate slightly higher Curvature of the spinal column type, then with quick lime be sprayed to furrow face see it is white；

S4, sowing: the stone when material temperature is down to 25 DEG C or less, and in spread culture material sow walnut size strain, Then cover the soil in a small amount of gutter, concrete operations are as follows: spreading the rice straw of 3cm thickness first, on the corncob that stirs evenly With the mixture of husk, arranged smooth, width is consistent, strain is then broken into walnut size, by pan feeding, every three row of furrow Sowing, strain spacing 10cm complete first layer after planting, are then covered with the rice straw of 3cm thickness, on the corncob that stirs evenly With the mixture of husk, second layer sowing is carried out, finally, the rice straw for spreading 2cm thickness is covered, and takes a small amount of gutter Soil, cover on rice straw, until can not see grass；

S5, mycelia are managed and protected: noticing that the control of temperature of shed and humidity, small water spray are poured, keep earthing wet, the megathermal period in autumn Diligent watering, while mycelia field planting and bacterium germination situation are observed, inoculation and superseded miscellaneous bacteria is replenished in time；

S6, mushroom growing, harvesting: being frequently stirred compost, when discovery has the fructification of white soya bean size to occur, daily small water Spray is poured, and is kept overburden layer and rice straw wet, after 5~7d, can be harvested.

In the step S1, rice straw, corncob, rice hulls compost fermentation step such as embodiment 1.

Embodiment 4

A kind of Stropharia rugoso-annulata facility cultivation technique, comprising the following steps:

S1, Compost fermentation: compost component is used as after wheat stalk, corncob, rice hulls difference compost fermentation；Often 100 parts of composts are grouped as by the group of following mass parts: 55 parts of wheat stalk, 22.5 parts of corncob, 22.5 parts of rice hulls；

S2, build mushroom shed: selection topography is flat, stabilization of having abundant water resources, and soil property be i.e. moisturizing and the not sandy soil of ponding, Soil pH value is neutral or meta-alkalescence, builds greenhouse on it, using the hot galvanized steel pipe of 6* Φ 25 be barricaded as high 3m, width 8m, It is divided into the greenhouse of 1m between long 40m, sidebar, and covers one layer of plastic foil and 2 layer of 8 needle shading net to canopy bottom, canopy both sides card slot card Tightly, soil block is compacted around canopy bottom, fills one group of atomizer every a meter ampere in canopy；

S3, ridge-up bed are built: on the soil for putting up mushroom shed, with rotary cultivator deep ploughing soil, ploughing deeply depth is 35cm, is then made Furrow, the wide 135cm of furrow, the long 40m of furrow, and the gutter of 40cm, depth 15cm are stayed among every furrow, furrow face is trimmed to intermediate slightly higher Curvature of the spinal column type, then with quick lime be sprayed to furrow face see it is white；

S4, sowing: the stone when material temperature is down to 25 DEG C or less, and in spread culture material sow walnut size strain, Then cover the soil in a small amount of gutter, concrete operations are as follows: spreading the wheat stalk of 3.5cm thickness first, on the corn that stirs evenly The mixture of core and husk, is arranged smooth, and width is consistent, and strain is then broken into walnut size, by pan feeding, every furrow three Row sowing, strain spacing 12cm complete first layer after planting, are then covered with the wheat stalk of 3.5cm thickness, on the jade that stirs evenly The mixture of meter Xin and husk carry out second layer sowing, finally, the wheat stalk for spreading 2cm thickness is covered, and take a small amount of row The soil in ditch, is covered on wheat stalk, until can not see grass；

S5, mycelia are managed and protected: noticing that the control of temperature of shed and humidity, small water spray are poured, keep earthing wet, the megathermal period in autumn Diligent watering, while mycelia field planting and bacterium germination situation are observed, inoculation and superseded miscellaneous bacteria is replenished in time；

S6, mushroom growing, harvesting: being frequently stirred compost, when discovery has the fructification of white soya bean size to occur, daily small water Spray is poured, and is kept overburden layer and wheat stalk wet, after 5~7d, can be harvested.

In the step S1, wheat stalk, corncob, rice hulls compost fermentation step such as embodiment 1.

Embodiment 5

A kind of Stropharia rugoso-annulata facility cultivation technique, comprising the following steps:

S1, Compost fermentation: compost component is used as after rice straw, corncob, rice hulls difference compost fermentation；Often 100 parts of composts are grouped as by the group of following mass parts: 60 parts of rice straw, 20 parts of corncob, 20 parts of rice hulls；

S2, build mushroom shed: selection topography is flat, stabilization of having abundant water resources, and soil property be i.e. moisturizing and the not sandy soil of ponding, Soil pH value is neutral or meta-alkalescence, builds greenhouse on it, is barricaded as high 3m, width 8m, long 40m, sidebar interval using bamboo For the greenhouse of 1m, and cover one layer of plastic foil and 2 layer of 8 needle shading net to canopy bottom, the card slot clamping of canopy both sides, soil block around canopy bottom Compacting, canopy is interior to fill one group of atomizer every a meter ampere；

S3, ridge-up bed are built: on the soil for putting up mushroom shed, with rotary cultivator deep ploughing soil, ploughing deeply depth is 40cm, is then made Furrow, the wide 150cm of furrow, the long 40m of furrow, and the gutter of 50cm, depth 15cm are stayed among every furrow, furrow face is trimmed to intermediate slightly higher Curvature of the spinal column type, then with quick lime be sprayed to furrow face see it is white；

S4, sowing: the stone when material temperature is down to 25 DEG C or less, and in spread culture material sow walnut size strain, Then cover the soil in a small amount of gutter, concrete operations are as follows: spreading the rice straw of 3cm thickness first, on the corncob that stirs evenly With the mixture of husk, arranged smooth, width is consistent, strain is then broken into walnut size, by pan feeding, every three row of furrow Sowing, strain spacing 10cm complete first layer after planting, are then covered with the rice straw of 3cm thickness, on the corncob that stirs evenly With the mixture of husk, second layer sowing is carried out, finally, the rice straw for spreading 2cm thickness is covered, and takes a small amount of gutter Soil, cover on rice straw, until can not see grass；

S5, mycelia are managed and protected: noticing that the control of temperature of shed and humidity, small water spray are poured, keep earthing wet, the megathermal period in autumn Diligent watering, while mycelia field planting and bacterium germination situation are observed, inoculation and superseded miscellaneous bacteria is replenished in time；

S6, mushroom growing, harvesting: being frequently stirred compost, when discovery has the fructification of white soya bean size to occur, daily small water Spray is poured, and is kept overburden layer and rice straw wet, after 5~7d, can be harvested.

In the step S1, rice straw, corncob, rice hulls compost fermentation step such as embodiment 1.

Two, experimental example

Comparative example 1: mixed culture material component, direct stone, with a thickness of 10cm, remaining operation is the same as embodiment 3；

Comparative example 2: compost component azymic, direct layering stone, remaining is the same as embodiment 3；

Comparative example 3: after mixed culture material component compost, direct stone, with a thickness of 10cm, remaining is the same as embodiment 3；

Comparative example 4: compost is used as after rice straw compost, layer thickness 10cm, remaining is the same as embodiment 3；

Comparative example 5: compost is used as after corncob compost, layer thickness 10cm, remaining is the same as embodiment 3；

Comparative example 6: compost is used as after rice hulls compost, layer thickness 10cm, remaining is the same as embodiment 3；

Comparative example 7: compost is made in mixing after rice straw, rice hulls compost, and layer thickness 10cm, remaining is the same as embodiment 3；

Comparative example 8: compost is made in mixing after rice straw, corncob compost, and layer thickness 10cm, remaining is the same as embodiment 3；

Comparative example 9: compost is made in mixing after rice hulls, corncob compost, and layer thickness 10cm, remaining is the same as embodiment 3；

After having picked Stropharia rugoso-annulata, in Statistical Comparison example 1~3 and every group of embodiment when the yield of Stropharia rugoso-annulata and maturation Between, and the condition of Stropharia rugoso-annulata in every group of embodiment is observed, it the results are shown in Table 1.

Influence of 1 different disposal of table to the yield of Stropharia rugoso-annulata, maturation time and condition

	Kg/ mus of yield	Maturation time/d	Condition
				Comparative example 1	400~430	120~140	Color and uniformity are low, cap poor appearance, and meat is thin
Comparative example 2	490~520	106~120	Color and uniformity are low, and cap appearance is poor, and meat is relatively thin
				Comparative example 3	525~550	113~124	Color and uniformity are general, and cap appearance is preferable, and meat is relatively thin
Embodiment 1	610~638	102~110	Color and uniformity are high, and cap appearance is good, and meat is relatively thin
				Embodiment 2	619~645	92~100	Color and uniformity are high, and cap appearance is good, and meat is thicker
Embodiment 3	640~680	90~95	Color and uniformity are high, and cap appearance is good, and meat is thicker
				Embodiment 4	636~662	95~103	Color and uniformity are high, and cap appearance is good, and meat is thicker
Embodiment 5	625~650	100~111	Color and uniformity are high, and cap appearance is good, and meat is thicker

Influence of 2 different disposal of table to Hypha Growth of Stropharia Rugosa-annulata

	Mycelial growth rate/mmd-1	The bacterium germination time/d	Mycelial growth potential
				Comparative example 4	2.13	66.3	+
Comparative example 5	2.18	65.7	++
				Comparative example 6	2.19	64.6	++
Comparative example 7	2.25	58.1	++
				Comparative example 8	2.30	55.4	++
Comparative example 9	2.34	54.8	+++
				Embodiment 3	2.44	51.5	+++

In Examples 1 to 5, in the management process, in such a way that greenhouse plus compost component separate compost fermentation, and It is layered stone, provides the most suitable growth environment for Stropharia rugoso-annulata, the Stropharia rugoso-annulata individual difference finally planted out is little, outside cap It sees, meat is thicker, good in economic efficiency.Comparative example 1 compared with Example 3, direct stone, compost after mixed culture material component Not fermented, nutrients release is slow, and Stropharia rugoso-annulata material feeding speed is relatively slow accordingly, and growth cycle is longer, and raw material components are harder, easily Stropharia rugoso-annulata is scratched, leads to cap poor appearance, the Stropharia rugoso-annulata individual difference planted out is big, cap poor appearance, and meat is thin；Comparison Compared with Example 3, compost component azymic, direct layering stone provides sufficient oxygen to example 2, and mycelia differentiation generates The growth and development of fruit body primordium and subsequent fructification is preferable, shortens cultivation period compared to comparative example 1, but because of compost Not fermented, nutrients release is slow, and Stropharia rugoso-annulata material feeding speed is relatively slow accordingly, and growth cycle is longer, and raw material components are harder, easily Stropharia rugoso-annulata is scratched, leads to cap poor appearance, the Stropharia rugoso-annulata individual difference planted out is big, and meat is relatively thin, deficiency in economic performance；It is right Compared with Example 3, direct stone after mixed culture material component compost fermentation ferments ratio 3 though providing certain nutrient Compost rotten degree afterwards is different, and nutrients release difference is big, and is compacted after compost mixing, and gas permeability reduces, oxygen supply Amount significantly reduces, and is unfavorable for the growth and development that mycelia differentiation generates fruit body primordium and subsequent fructification, therefore, although yield It is still relatively high, but growth time is longer, the Stropharia rugoso-annulata individual difference planted out is big, and cap appearance is preferable, but meat is relatively thin； Illustrate that compost component separates compost fermentation and can preferably provide nutrient and oxygen, shortens Stropharia rugoso-annulata growth time, improve Yield.

As shown in Table 2, Stropharia rugoso-annulata mycelia equal energy normal growth on rice straw, corncob, rice hulls compost, but Growth rate is fast in corncob, rice hulls mixed culture material, aerial hyphae is sturdy dense, average that 51.5d is only needed to cover with culture Material illustrates that corncob, rice hulls mixed culture material are easy to be absorbed by Stropharia rugoso-annulata mycelia, facilitates mycelium germination and growth, can Can be the reason is that corncob and rice hulls content of lignin be low, pentosan and content of cellulose are high, and cell wall is easily destroyed, cell Content is easier to discharge, and nutriment is fully utilized, therefore using above-mentioned compost as seed layer, can shorten strain The time of growth-delaying after access, mycelia growth is fast, and cultivation period is short；It secondly is rice straw, corncob mixed culture material.

Claims (10)

1. a kind of Stropharia rugoso-annulata facility cultivation technique, which comprises the following steps:

S1, Compost fermentation: compost component is used as after stalk, corncob, rice hulls difference compost fermentation；

S2, it builds mushroom shed: the planting site of loosing soil being selected to build greenhouse, and cover one layer of plastic foil and shading net to canopy bottom, One group of atomizer is filled every a meter ampere in canopy；

S3, ridge-up bed are built: 20~40cm of deep ploughing, bedding, the wide 100~150cm of furrow, the long 40m of furrow, stay gutter between furrow, furrow face is repaired The whole curvature of the spinal column type slightly higher for centre, then sprinkling quick lime to furrow face is shown in white；

S4, sowing: the stone when material temperature is down to 25 DEG C or less, and in spread culture material sow walnut size strain, then Cover the soil in a small amount of gutter；

S5, mycelia are managed and protected: keeping overburden layer wet, inoculation and superseded miscellaneous bacteria is replenished in time in the field planting of observation mycelia and bacterium germination situation；

S6, mushroom growing, harvesting: being frequently stirred compost, when discovery there is the fructification of white soya bean size to occur when, keep overburden layer and Stalk is wet, after 5~7d, can harvest.

2. Stropharia rugoso-annulata facility cultivation technique as described in claim 1, which is characterized in that every 100 parts of composts are by following The group of mass parts is grouped as: 40~60 parts of stalk, 20~30 parts of corncob, 20~30 parts of rice hulls.

3. Stropharia rugoso-annulata facility cultivation technique as described in claim 1, which is characterized in that in the step S1, stalk heap Fertilizer fermentation includes the following steps:

It 1) is in mass ratio, that 1:1000 is uniformly mixed as spray solution with sterile water by zymophyte；

2) stalk, is layered on field, so that it is suctioned moisture using a small amount of multiple spray mode, and be inoculated with top fermentation bacterium；

3) stalk of damping, is piled into 2~4m of bottom width, the trapezoidal heap of high 1~2m, material heap surface is in plane, the row of being equipped in material heap Stomata, and covered with plastic cloth, material heap temperature is monitored by thermometer；

4), when material temperature reaches 55 DEG C, has white powder thermophilic actinomycete to occur in material, first time turning；

5), when material temperature rises to 55 DEG C or more, keep 2~3d, until stalk at dark brown, has a large amount of powdery albefaction objects, no ammonia odor and Expect tart flavour, i.e. fermentation ends.

4. Stropharia rugoso-annulata facility cultivation technique as claimed in claim 3, which is characterized in that the zymophyte by actinomyces, Burkholderia composition.

5. Stropharia rugoso-annulata facility cultivation technique as described in claim 1, which is characterized in that the stalk be rice straw, One of corn stover, sesame stalk, wheat stalk.

6. Stropharia rugoso-annulata facility cultivation technique as described in claim 1, which is characterized in that in the step S1, corncob Compost fermentation includes the following steps:

1) corncob, is laid in field, rolls and is ground out repeatedly, then repeatedly watering, keeps corncob wet；

2) corncob, is piled into 2~4m of bottom width, the trapezoidal heap of high 1~2m, material heap surface is in plane, after cover plastic foil；

3), ferment 4~5d, until corncob is dark brown, no ammonia odor and material tart flavour, i.e. fermentation ends.

7. Stropharia rugoso-annulata facility cultivation technique as described in claim 1, which is characterized in that in the step S1, rice hulls Compost fermentation includes the following steps: rice hulls piling a pile, and repeatedly watering keeps it wet, then cover plastics film fermentation 4~ 5d, it is spare.

8. Stropharia rugoso-annulata facility cultivation technique as described in claim 1, which is characterized in that the step S4, when material temperature drops Stone when to 25 DEG C or less spreads the stalk of 2.5~3.5cm thickness first, on the corncob stirred evenly and rice hulls mixing Object, is arranged smooth, and width is consistent, and strain is then broken into walnut size, and by pan feeding, every three row of furrow sowing completes the One layer is after planting, is then covered with the stalk of 2.5~3.5cm thickness, on the corncob stirred evenly and rice hulls mixture, carry out Second layer sowing, finally, the stalk for spreading 1~2cm thickness is covered, and takes the native stalks mulching in a small amount of gutter.

9. Stropharia rugoso-annulata facility cultivation technique as claimed in claim 1 or 8, which is characterized in that spacing 9 between the strain ~12cm.

10. Stropharia rugoso-annulata facility cultivation technique as described in claim 1, which is characterized in that the step S2 planting site Gesture is flat, stabilization of having abundant water resources, and soil property is sandy soil, and pH value is neutral or meta-alkalescence.