CN112640730A - High-yield dictyophora rubrovolvata fungus bag and preparation method and application thereof - Google Patents

Abstract

The invention is suitable for the technical field of edible fungi, and provides a high-yield dictyophora rubrovolvata fungus bag, a preparation method and an application thereof, wherein the high-yield dictyophora rubrovolvata fungus bag comprises the following components in percentage by mass: 18-71.8% of miscellaneous wood chips, 10-30% of cottonseed hulls, 8-18% of bamboo chips, 5-15% of pine and fir sawdust, 5-15% of bran, 0.1-2% of gypsum and 0.1-2% of white sugar. The high-yield fungus bag provided by the embodiment of the invention fully utilizes agricultural and forestry wastes as raw materials, ensures that the culture material has full nutrition by optimizing the fungus bag formula, meets the growth business requirements of dictyophora rubrovolvata, overcomes the defects that the nutrition of the existing fungus bag formula is insufficient and the ecological environment is damaged by planting dictyophora rubrovolvata by using wood traditionally, and can obviously improve the yield of the dictyophora rubrovolvata.

Description

High-yield dictyophora rubrovolvata fungus bag and preparation method and application thereof

Technical Field

The invention belongs to the technical field of edible fungi, and particularly relates to a high-yield Dictyophora rubrovalvata bag, and a preparation method and application thereof.

Background

Dictyophora rubrovolvata is one of the most precious edible fungi, is known as "fungi queen" and "Xue skirt fairy maiden", and is a cryptophyceae parasitic on the root of dried bamboo. The Dictyophora rubrovalvata is rich in nutrition, aromatic in flavor, delicious in taste and well popular with people, and the wild yield of Dictyophora rubrovalvata is far from meeting the demand, so that the artificial cultivation method of Dictyophora rubrovalvata is generated.

However, the Dictyophora rubrovalvata has high requirements on growth environments such as nutrients, temperature, humidity, illumination and the like, and although a plurality of artificial cultivation methods are available, the traditional method for planting by using wood has the disadvantages of unsatisfactory cultivation effect, low yield and low economic benefit.

Disclosure of Invention

The embodiment of the invention aims to provide a high-yield Dictyophora rubrovalvata fungus bag, and aims to solve the problems in the background art.

The embodiment of the invention is realized in such a way that a high-yield Dictyophora rubrovalvata fungus bag comprises the following components in percentage by mass: 18-71.8% of miscellaneous wood chips, 10-30% of cottonseed hulls, 8-18% of bamboo chips, 5-15% of pine and fir sawdust, 5-15% of bran, 0.1-2% of gypsum and 0.1-2% of white sugar, wherein the sum of the mass percentages of the components is 100%.

As a preferable scheme of the embodiment of the invention, the high-yield bacterium package comprises the following components in percentage by mass: 33-58% of miscellaneous wood chips, 15-25% of cottonseed hulls, 10-15% of bamboo chips, 8-12% of pine and fir sawdust, 8-12% of bran, 0.5-1.5% of gypsum and 0.5-1.5% of white sugar, wherein the sum of the mass percentages of the components is 100%.

As another preferable scheme of the embodiment of the invention, the high-yield bacterium package comprises the following components in percentage by mass: 39.6-50.4% of miscellaneous wood chips, 18-22% of cottonseed hulls, 12-14% of bamboo chips, 9-11% of pine and fir sawdust, 9-11% of bran, 0.8-1.2% of gypsum and 0.8-1.2% of white sugar, wherein the sum of the mass percentages of the components is 100%.

As another preferable mode of the embodiment of the present invention, the wood chips are crushed pieces of broadleaf wood.

Another object of an embodiment of the present invention is to provide a method for preparing the high yield fungus bag, which includes the following steps:

weighing the miscellaneous wood chips, the cottonseed hulls, the bamboo chips, the pine and fir sawdust, the bran, the gypsum and the white sugar according to the mass percentage of the components;

adding water into miscellaneous sawdust, cotton seed hulls, bamboo sawdust and pine and fir sawdust for pre-wetting treatment, mixing with bran, and adding water to adjust water content to obtain compost;

stacking the compost for fermentation, and adding gypsum and white sugar for turning over to obtain a fermentation material;

and bagging and sterilizing the fermentation material to obtain the high-yield fungus bag.

As another preferable scheme of the embodiment of the invention, in the step, the water content of the culture material is 60-70%.

Another object of the embodiments of the present invention is to provide a high-yield fungus bag prepared by the above preparation method.

Another object of an embodiment of the present invention is to provide an application of the high-yield fungus bag in dictyophora rubrovolvata culture.

According to the high-yield dictyophora rubrovolvata fungus bag provided by the embodiment of the invention, agricultural and forestry wastes are fully utilized as raw materials, the nutrition of culture materials is sufficient by optimizing the bag formula, the growth business requirements of dictyophora rubrovolvata are met, the defect that the ecological environment is damaged by planting dictyophora rubrovolvata by using wood in the traditional bag formula is overcome, and the yield of dictyophora rubrovolvata can be remarkably improved.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

The embodiment provides a high-yield dictyophora rubrovolvata fungus bag, and a preparation method of the high-yield dictyophora rubrovolvata fungus bag comprises the following steps:

s1, selecting high-quality miscellaneous tree, cottonseed hull, bamboo, pine and fir sawdust and bran, and going mouldy and rotten and going bad, can not be used; wherein the miscellaneous wood is broadleaf wood.

And S2, smashing the miscellaneous trees and the bamboo by a pulverizer to respectively obtain miscellaneous wood chips and bamboo chips for later use.

S3, weighing 18kg of miscellaneous wood chips, 30kg of cottonseed hulls, 18kg of bamboo chips, 15kg of pine and cedar sawdust, 15kg of bran, 2kg of gypsum and 2kg of white sugar for later use.

S4, adding water into the weighed miscellaneous wood chips, cotton seed hulls, bamboo chips and pine and fir sawdust for pre-wetting treatment, mixing with bran, and adding water to adjust the water content to obtain the compost with the water content of 60%.

S5, stacking the compost for fermentation, wherein the width of the stack is about 1.8 m, the height of the stack is about 1.5 m, the length of the stack is not limited, and the stack can be flexibly mastered according to the terrain; and then observing the temperature every day, turning the piles for about 7 days, adding the weighed gypsum and white sugar during the third pile turning, and turning the piles for 5 times to obtain the fermented material.

S6, bagging the fermentation material, and sterilizing to obtain the high-yield fungus bag.

Example 2

The embodiment provides a high-yield dictyophora rubrovolvata fungus bag, and a preparation method of the high-yield dictyophora rubrovolvata fungus bag comprises the following steps:

s1, selecting high-quality miscellaneous tree, cottonseed hull, bamboo, pine and fir sawdust and bran, and going mouldy and rotten and going bad, can not be used; wherein the miscellaneous wood is broadleaf wood.

And S2, smashing the miscellaneous trees and the bamboo by a pulverizer to respectively obtain miscellaneous wood chips and bamboo chips for later use.

S3, weighing 71.8kg of miscellaneous wood chips, 10kg of cottonseed hulls, 8kg of bamboo chips, 5kg of pine and cedar sawdust, 5kg of bran, 0.1kg of gypsum and 0.1kg of white sugar for later use.

S4, adding water into the weighed miscellaneous wood chips, cotton seed hulls, bamboo chips and pine and fir sawdust for pre-wetting treatment, mixing with bran, and adding water to adjust the water content to obtain the compost with the water content of 70%.

S5, stacking the compost for fermentation, wherein the width of the stack is about 1.8 m, the height of the stack is about 1.5 m, the length of the stack is not limited, and the stack can be flexibly mastered according to the terrain; and then observing the temperature every day, turning the piles for about 7 days, adding the weighed gypsum and white sugar during the third pile turning, and turning the piles for 5 times to obtain the fermented material.

S6, bagging the fermentation material, and sterilizing to obtain the high-yield fungus bag.

Example 3

The embodiment provides a high-yield dictyophora rubrovolvata fungus bag, and a preparation method of the high-yield dictyophora rubrovolvata fungus bag comprises the following steps:

s1, selecting high-quality miscellaneous tree, cottonseed hull, bamboo, pine and fir sawdust and bran, and going mouldy and rotten and going bad, can not be used; wherein the miscellaneous wood is broadleaf wood.

And S2, smashing the miscellaneous trees and the bamboo by a pulverizer to respectively obtain miscellaneous wood chips and bamboo chips for later use.

S3, weighing 56kg of miscellaneous wood chips, 12kg of cottonseed hulls, 10kg of bamboo chips, 7kg of pine and cedar sawdust, 13kg of bran, 0.4kg of gypsum and 1.6kg of white sugar for later use.

S4, adding water into the weighed miscellaneous wood chips, cotton seed hulls, bamboo chips and pine and fir sawdust for pre-wetting treatment, mixing with bran, and adding water to adjust the water content to obtain the compost with the water content of 62%.

S5, stacking the compost for fermentation, wherein the width of the stack is about 1.8 m, the height of the stack is about 1.5 m, the length of the stack is not limited, and the stack can be flexibly mastered according to the terrain; and then observing the temperature every day, turning the piles for about 7 days, adding the weighed gypsum and white sugar during the third pile turning, and turning the piles for 5 times to obtain the fermented material.

S6, bagging the fermentation material, and sterilizing to obtain the high-yield fungus bag.

Example 4

The embodiment provides a high-yield dictyophora rubrovolvata fungus bag, and a preparation method of the high-yield dictyophora rubrovolvata fungus bag comprises the following steps:

s1, selecting high-quality miscellaneous tree, cottonseed hull, bamboo, pine and fir sawdust and bran, and going mouldy and rotten and going bad, can not be used; wherein the miscellaneous wood is broadleaf wood.

And S2, smashing the miscellaneous trees and the bamboo by a pulverizer to respectively obtain miscellaneous wood chips and bamboo chips for later use.

S3, weighing 34kg of mixed wood chips, 28kg of cottonseed hulls, 16kg of bamboo chips, 13kg of pine and cedar sawdust, 7kg of bran, 1.6kg of gypsum and 0.4kg of white sugar for later use.

S4, adding water into the weighed miscellaneous wood chips, cotton seed hulls, bamboo chips and pine and fir sawdust for pre-wetting treatment, mixing with bran, and adding water to adjust the water content to obtain the compost with the water content of 68%.

S5, stacking the compost for fermentation, wherein the width of the stack is about 1.8 m, the height of the stack is about 1.5 m, the length of the stack is not limited, and the stack can be flexibly mastered according to the terrain; and then observing the temperature every day, turning the piles for about 7 days, adding the weighed gypsum and white sugar during the third pile turning, and turning the piles for 5 times to obtain the fermented material.

S6, bagging the fermentation material, and sterilizing to obtain the high-yield fungus bag.

Example 5

The embodiment provides a high-yield dictyophora rubrovolvata fungus bag, and a preparation method of the high-yield dictyophora rubrovolvata fungus bag comprises the following steps:

s1, selecting high-quality miscellaneous tree, cottonseed hull, bamboo, pine and fir sawdust and bran, and going mouldy and rotten and going bad, can not be used; wherein the miscellaneous wood is broadleaf wood.

And S2, smashing the miscellaneous trees and the bamboo by a pulverizer to respectively obtain miscellaneous wood chips and bamboo chips for later use.

S3, weighing 33kg of miscellaneous wood chips, 25kg of cottonseed hulls, 15kg of bamboo chips, 12kg of pine and cedar sawdust, 12kg of bran, 1.5kg of gypsum and 1.5kg of white sugar for later use.

S4, adding water into the weighed miscellaneous wood chips, cotton seed hulls, bamboo chips and pine and fir sawdust for pre-wetting treatment, mixing with bran, and adding water to adjust the water content to obtain the compost with the water content of 65%.

S5, stacking the compost for fermentation, wherein the width of the stack is about 1.8 m, the height of the stack is about 1.5 m, the length of the stack is not limited, and the stack can be flexibly mastered according to the terrain; and then observing the temperature every day, turning the piles for about 7 days, adding the weighed gypsum and white sugar during the third pile turning, and turning the piles for 5 times to obtain the fermented material.

S6, bagging the fermentation material, and sterilizing to obtain the high-yield fungus bag.

Example 6

The embodiment provides a high-yield dictyophora rubrovolvata fungus bag, and a preparation method of the high-yield dictyophora rubrovolvata fungus bag comprises the following steps:

s1, selecting high-quality miscellaneous tree, cottonseed hull, bamboo, pine and fir sawdust and bran, and going mouldy and rotten and going bad, can not be used; wherein the miscellaneous wood is broadleaf wood.

And S2, smashing the miscellaneous trees and the bamboo by a pulverizer to respectively obtain miscellaneous wood chips and bamboo chips for later use.

S3, weighing 58kg of miscellaneous wood chips, 15kg of cottonseed hulls, 10kg of bamboo chips, 8kg of pine and cedar sawdust, 8kg of bran, 0.5kg of gypsum and 0.5kg of white sugar for later use.

S4, adding water into the weighed miscellaneous wood chips, cotton seed hulls, bamboo chips and pine and fir sawdust for pre-wetting treatment, mixing with bran, and adding water to adjust the water content to obtain the compost with the water content of 65%.

S5, stacking the compost for fermentation, wherein the width of the stack is about 1.8 m, the height of the stack is about 1.5 m, the length of the stack is not limited, and the stack can be flexibly mastered according to the terrain; and then observing the temperature every day, turning the piles for about 7 days, adding the weighed gypsum and white sugar during the third pile turning, and turning the piles for 5 times to obtain the fermented material.

S6, bagging the fermentation material, and sterilizing to obtain the high-yield fungus bag.

Example 7

The embodiment provides a high-yield dictyophora rubrovolvata fungus bag, and a preparation method of the high-yield dictyophora rubrovolvata fungus bag comprises the following steps:

s1, selecting high-quality miscellaneous tree, cottonseed hull, bamboo, pine and fir sawdust and bran, and going mouldy and rotten and going bad, can not be used; wherein the miscellaneous wood is broadleaf wood.

And S2, smashing the miscellaneous trees and the bamboo by a pulverizer to respectively obtain miscellaneous wood chips and bamboo chips for later use.

S3, weighing 48kg of miscellaneous wood chips, 16kg of cottonseed hulls, 14kg of bamboo chips, 9kg of pine and cedar sawdust, 11kg of bran, 0.6kg of gypsum and 1.4kg of white sugar for later use.

S4, adding water into the weighed miscellaneous wood chips, cotton seed hulls, bamboo chips and pine and fir sawdust for pre-wetting treatment, mixing with bran, and adding water to adjust the water content to obtain the compost with the water content of 65%.

S5, stacking the compost for fermentation, wherein the width of the stack is about 1.8 m, the height of the stack is about 1.5 m, the length of the stack is not limited, and the stack can be flexibly mastered according to the terrain; and then observing the temperature every day, turning the piles for about 7 days, adding the weighed gypsum and white sugar during the third pile turning, and turning the piles for 5 times to obtain the fermented material.

S6, bagging the fermentation material, and sterilizing to obtain the high-yield fungus bag.

Example 8

The embodiment provides a high-yield dictyophora rubrovolvata fungus bag, and a preparation method of the high-yield dictyophora rubrovolvata fungus bag comprises the following steps:

s1, selecting high-quality miscellaneous tree, cottonseed hull, bamboo, pine and fir sawdust and bran, and going mouldy and rotten and going bad, can not be used; wherein the miscellaneous wood is broadleaf wood.

And S2, smashing the miscellaneous trees and the bamboo by a pulverizer to respectively obtain miscellaneous wood chips and bamboo chips for later use.

S3, weighing 39.6kg of mixed wood chips, 22kg of cottonseed hulls, 14kg of bamboo chips, 11kg of pine and cedar sawdust, 11kg of bran, 1.2kg of gypsum and 1.2kg of white sugar for later use.

S4, adding water into the weighed miscellaneous wood chips, cotton seed hulls, bamboo chips and pine and fir sawdust for pre-wetting treatment, mixing with bran, and adding water to adjust the water content to obtain the compost with the water content of 65%.

S5, stacking the compost for fermentation, wherein the width of the stack is about 1.8 m, the height of the stack is about 1.5 m, the length of the stack is not limited, and the stack can be flexibly mastered according to the terrain; and then observing the temperature every day, turning the piles for about 7 days, adding the weighed gypsum and white sugar during the third pile turning, and turning the piles for 5 times to obtain the fermented material.

S6, bagging the fermentation material, and sterilizing to obtain the high-yield fungus bag.

Example 9

The embodiment provides a high-yield dictyophora rubrovolvata fungus bag, and a preparation method of the high-yield dictyophora rubrovolvata fungus bag comprises the following steps:

s1, selecting high-quality miscellaneous tree, cottonseed hull, bamboo, pine and fir sawdust and bran, and going mouldy and rotten and going bad, can not be used; wherein the miscellaneous wood is broadleaf wood.

And S2, smashing the miscellaneous trees and the bamboo by a pulverizer to respectively obtain miscellaneous wood chips and bamboo chips for later use.

S3, weighing 50.4kg of miscellaneous wood chips, 18kg of cottonseed hulls, 12kg of bamboo chips, 9kg of pine and cedar sawdust, 9kg of bran, 0.8kg of gypsum and 0.8kg of white sugar for later use.

S4, adding water into the weighed miscellaneous wood chips, cotton seed hulls, bamboo chips and pine and fir sawdust for pre-wetting treatment, mixing with bran, and adding water to adjust the water content to obtain the compost with the water content of 65%.

S5, stacking the compost for fermentation, wherein the width of the stack is about 1.8 m, the height of the stack is about 1.5 m, the length of the stack is not limited, and the stack can be flexibly mastered according to the terrain; and then observing the temperature every day, turning the piles for about 7 days, adding the weighed gypsum and white sugar during the third pile turning, and turning the piles for 5 times to obtain the fermented material.

S6, bagging the fermentation material, and sterilizing to obtain the high-yield fungus bag.

Example 10

The embodiment provides a high-yield dictyophora rubrovolvata fungus bag, and a preparation method of the high-yield dictyophora rubrovolvata fungus bag comprises the following steps:

s1, selecting high-quality miscellaneous tree, cottonseed hull, bamboo, pine and fir sawdust and bran, and going mouldy and rotten and going bad, can not be used; wherein the miscellaneous wood is broadleaf wood.

And S2, smashing the miscellaneous trees and the bamboo by a pulverizer to respectively obtain miscellaneous wood chips and bamboo chips for later use.

S3, weighing 45kg of miscellaneous wood chips, 20kg of cottonseed hulls, 13kg of bamboo chips, 10kg of pine and cedar sawdust, 10kg of bran, 1kg of gypsum and 1kg of white sugar for later use.

S4, adding water into the weighed miscellaneous wood chips, cotton seed hulls, bamboo chips and pine and fir sawdust for pre-wetting treatment, mixing with bran, and adding water to adjust the water content to obtain the compost with the water content of 65%.

S5, stacking the compost for fermentation, wherein the width of the stack is about 1.8 m, the height of the stack is about 1.5 m, the length of the stack is not limited, and the stack can be flexibly mastered according to the terrain; and then observing the temperature every day, turning the piles for about 7 days, adding the weighed gypsum and white sugar during the third pile turning, and turning the piles for 5 times to obtain the fermented material.

S6, bagging the fermentation material, and sterilizing to obtain the high-yield fungus bag.

Placing the high-yield fungus bags prepared in the embodiment 10 into a sterile inoculation chamber, and carrying out dictyophora rubrovolvata inoculation when the temperature of the fungus bags is reduced to be below 30 ℃; then, the inoculated fungus bags are transported to a culture room, and the temperature of the culture room is controlled to be about 23 ℃ for culture until the hyphae overgrow. In the high-yield fungus bag obtained in example 10, dictyophora rubrovolvata was cultured according to the same culture method as that described above for the existing commercial fungus bags, and the yields of dictyophora rubrovolvata and dictyophora rubrovolvata are shown in table 1.

TABLE 1

Fungus bag	Example 10	Commercial fungus bag
			Yield of Dictyophora rubrovalvata (Vent. Ex pers) Fisch, jin/bar	0.5	0.4

As can be seen from table 1, when dictyophora rubrovolvata is cultured by using the high-yield fungus bag provided in embodiment 10 of the present invention, the yield of dictyophora rubrovolvata can reach 0.5 jin/rod, and when calculated according to 6000-bar dictyophora rubrovolvata planted per mu, the yield of 3000 jin of fresh mushrooms per mu is increased by 0.1 jin/rod compared with the yield of other commercial fungus bags, and the yield of 600 jin of fresh mushrooms per mu is increased, so that the yield is significantly improved.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The high-yield dictyophora rubrovolvata fungus bag is characterized by comprising the following components in percentage by mass: 18-71.8% of miscellaneous wood chips, 10-30% of cottonseed hulls, 8-18% of bamboo chips, 5-15% of pine and fir sawdust, 5-15% of bran, 0.1-2% of gypsum and 0.1-2% of white sugar, wherein the sum of the mass percentages of the components is 100%.

2. The high-yield dictyophora rubrovolvata fungus bag according to claim 1, characterized in that the high-yield dictyophora rubrovolvata fungus bag comprises the following components in percentage by mass: 33-58% of miscellaneous wood chips, 15-25% of cottonseed hulls, 10-15% of bamboo chips, 8-12% of pine and fir sawdust, 8-12% of bran, 0.5-1.5% of gypsum and 0.5-1.5% of white sugar, wherein the sum of the mass percentages of the components is 100%.

3. The high-yield dictyophora rubrovolvata fungus bag according to claim 2, characterized in that the high-yield dictyophora rubrovolvata fungus bag comprises the following components in percentage by mass: 39.6-50.4% of miscellaneous wood chips, 18-22% of cottonseed hulls, 12-14% of bamboo chips, 9-11% of pine and fir sawdust, 9-11% of bran, 0.8-1.2% of gypsum and 0.8-1.2% of white sugar, wherein the sum of the mass percentages of the components is 100%.

4. The high-yield dictyophora rubrovolvata fungus bag according to any one of claims 1 to 3, wherein the miscellaneous wood chips are crushed materials of broadleaf wood.

5. A method for preparing a high yield fungal pack according to any one of claims 1 to 4, comprising the steps of:

weighing the miscellaneous wood chips, the cottonseed hulls, the bamboo chips, the pine and fir sawdust, the bran, the gypsum and the white sugar according to the mass percentage of the components;

adding water into miscellaneous sawdust, cotton seed hulls, bamboo sawdust and pine and fir sawdust for pre-wetting treatment, mixing with bran, and adding water to adjust water content to obtain compost;

stacking the compost for fermentation, and adding gypsum and white sugar for turning over to obtain a fermentation material;

and bagging and sterilizing the fermentation material to obtain the high-yield fungus bag.

6. The preparation method of the high-yield fungus bag as claimed in claim 5, wherein in the step, the water content of the culture material is 60-70%.

7. A high-yield fungal pack produced by the production method according to claim 5 or 6.

8. Use of the high-yield fungus bag as claimed in any one of claims 1-4 and 7 in cultivation of dictyophora rubrovolvata.