CN111615990A - Sunlight technology for producing various organic golden rose mushrooms by protecting ecological environment - Google Patents
Sunlight technology for producing various organic golden rose mushrooms by protecting ecological environment Download PDFInfo
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- CN111615990A CN111615990A CN201911426673.2A CN201911426673A CN111615990A CN 111615990 A CN111615990 A CN 111615990A CN 201911426673 A CN201911426673 A CN 201911426673A CN 111615990 A CN111615990 A CN 111615990A
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- light transmittance
- bacterium
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G18/00—Cultivation of mushrooms
Abstract
The technology belongs to the technical field of agricultural edible fungi, and particularly provides a sunlight technology for protecting ecological environment and producing various organic golden rose mushrooms. The sunlight technology can well solve a plurality of problems of various organic agricultural edible fungi, including a series of problems of low yield, poor quality, more pests, low resource utilization rate, difficult management, more pollution sources and the like. By the technology, the yield and the quality of the organic agricultural edible fungi can be effectively improved, and meanwhile, the quality is improved, so that the wild quality of the nature is achieved. The technology also brings the natural development of the protection of the surrounding ecological environment (namely that the birds can help the development), reduces the artificial hard management, follows the natural growth law, is a real natural high-tech, namely a real sunshine technology with life vitality elements and ultrahigh technology, promotes the mycelia to revive and grow in the mild sunshine, and produces a batch of various golden rose mushrooms which are liked to be healthy and delicious by people.
Description
Technical Field
The technology belongs to the technical field of agricultural edible fungi, and particularly provides a sunlight technology for protecting ecological environment and producing various organic golden rose mushrooms.
Background
In the technical field of the existing agricultural edible fungi, only a temperature and humidity regulation technology and a sunshine degree regulation technology are provided, even no sunshine is involved at all, and a little artificial light is involved. Under the background, the wood chips are used as the main material in addition to the formula of the culture medium, and the wood chips are not easy to corrode rapidly due to the nature of the wood chips, so that the growth of the mycelium needs a longer time, the economic benefits of investors and producers are affected, and merchants without good morality are forced to think of various methods for applying pseudo-science to treat chemical matters, such as: the method is characterized in that potassium dihydrogen phosphate, magnesium sulfate, calcium superphosphate, calcium bicarbonate and the like are added into a culture medium to promote wood chips to be rapidly corroded and decomposed forcibly, so that the produced edible fungi are poor in quality, many in pests, many in pollution sources, difficult to manage, low in resource conversion rate, low in utilization rate and low in yield, even if the edible fungi can be produced in a large scale in an industrial manner, all the edible fungi lack nutrients with life activity, do not have the standard of organic edible fungi, and do not have the value of wild edible fungi, and the technology is rejected historically because various forest resources are destroyed, the ecological environment is destroyed, and the offspring and descendants are cut off. If the mushrooms are eaten frequently, cancers are easy to get, and the immunity is seriously damaged. The organic agricultural edible fungi refer to all edible fungi produced by an edible fungi culture medium formula which takes organic agricultural crop leftovers as main materials, wherein no chemical fertilizer is added into the culture medium. Based on the demand of modern people on body nutrition and the craving and demand on health, the method is realized on the premise of protecting ecological environment and protecting a home.
Disclosure of Invention
In order to solve the problems in the prior art, the invention provides a sunlight technology for protecting the ecological environment and producing various organic golden rose mushrooms. The sunlight technology can well solve a plurality of problems of various organic agricultural edible fungi, including a series of problems of low yield, poor quality, more pests, low resource utilization rate, difficult management, more pollution sources and the like. By the technology, the yield and the quality of the organic agricultural edible fungi can be effectively improved, and meanwhile, the quality is improved, so that the wild quality of the nature is achieved. The technology breaks through all original edible fungus cultivation technologies, and provides a new most beautiful and happy place for artificially cultivating edible fungi, so that the edible fungi not only have the same treatment as wild mushrooms, but also are better, and sunlight is required for the growth of all things, and is an indispensable multifunctional nutrient substance. The technology also brings the natural development of the protection of the surrounding ecological environment (namely that birds can help the development), reduces the artificial hard management, follows the natural growth law, is a real natural high-tech, namely a real sunlight technology with vital elements and ultrahigh technology, and releases different substances and contents of the substances in different fields of the earth at different time, different seasons, different weather, different altitudes and different sunlight. According to the characteristics of edible fungi and the life of the edible fungi, artificially made organic crop leftovers are used as main materials, fungus sticks added with certain functional elements are placed in a place with proper sunlight and good environment, sunlight nutrient substances are sent to each fungus stick in real time and properly, mycelium is prompted to revive and grow in the mild sunlight, and a batch of various golden rose mushrooms which are liked to be healthy and delicious by people are obtained.
Detailed Description
Under the condition of a suitable background light source, the daytime wavelength is between 430 and 577nm, the four embodiments can be flexibly combined:
embodiment (a):
1. placing the bacterium stick with the inoculated strains in a place with the light transmittance of 0.0-10% for managing the bacteria, and placing the bacterium stick in a place with the light transmittance of 15-70% for managing when the mycelium of the bacterium stick grows to 5-6 cm (the length of the bacterium stick growing to the periphery with the strains as the center) until the bacterium stick changes color;
2. after the fungus sticks are changed in color, the fungus sticks are irradiated by sunlight in the morning for half an hour to 1 hour, and the light transmittance is 65-100 percent;
3. in other time periods, the light transmittance of the bacteria stick is 0.0-30%;
4. after the mushroom grows out, the light transmittance in the daytime is kept between 15 and 45 percent.
Embodiment (b):
1. placing the bacterium stick with the inoculated strains in a place with the light transmittance of 0.0-8% for managing the bacteria, and placing the bacterium stick in a place with the light transmittance of 55-70% for managing when the mycelium of the bacterium stick grows to 5-6 cm (the length of the bacterium stick growing to the periphery with the strains as the center) until the bacterium stick changes color;
2. after the fungus sticks are changed in color, in a clear morning, the fungus sticks are irradiated by sunlight for half an hour, and the light transmittance is 65-100%;
3. in other sunny time periods, the light transmittance of the bacteria to the bacteria stick is 0.1-30%;
4. after the mushroom grows out, the light transmittance in sunny days is kept at 25-45%.
Embodiment (c):
1. placing the bacterium stick with the inoculated strains in a place with the light transmittance of 0.0-7% for managing the bacterium, and placing the bacterium stick in a place with the light transmittance of 30-55% for managing when the mycelium of the bacterium stick grows to 6-7 cm (the length of the bacterium stick growing to the periphery with the strain as the center) until the bacterium stick changes color;
2. after the fungus sticks are changed in color, the sunshine is allowed to contact the fungus sticks for about 40 to 50 minutes in the morning of cloudy days;
3. in other cloudy periods, the light transmittance is 0.1-25%;
4. after the mushroom grows out, the light transmittance of cloudy days is kept at 20-40%.
Claims (9)
1. A sunlight technology for producing various organic golden rose mushrooms by protecting ecological environment is characterized in that: daytime wavelength under background light between 430-530 nm:
(1) placing the bacterium stick with the inoculated strains in a place with the light transmittance of 0.0-10% for managing the bacterium, and placing the bacterium stick in a place with the light transmittance of 15-70% for managing when the mycelium of the bacterium stick grows to 5-6 cm until the bacterium stick changes color;
(2) after the fungus sticks are changed in color, the fungus sticks are irradiated by sunlight for half an hour to 1 hour in the morning, and the light transmittance is 65-99 percent;
(3) in other daytime periods, the light transmittance to the bacteria stick is 1-30%;
(4) after the mushroom grows out, the light transmittance in the daytime is kept between 15 and 45 percent.
2. The solar technology of claim 1, wherein:
(5) placing the bacterium stick with the inoculated strains in a place with the light transmittance of 0.0-8% for managing the bacteria, and placing the bacterium stick in a place with the light transmittance of 55-70% for managing when the mycelium of the bacterium stick grows to 5-6 cm (the length of the bacterium stick growing to the periphery with the strains as the center) until the bacterium stick changes color;
(6) after the fungus sticks are changed in color, in a clear morning, the fungus sticks are irradiated by sunlight for half an hour, and the light transmittance is 65-100%;
(7) in other sunny time periods, the light transmittance of the bacteria to the bacteria stick is 0.1-30%;
(8) after the mushroom grows out, the light transmittance in sunny days is kept at 25-45%.
3. The solar technology of claim 1, wherein:
(9) placing the bacterium stick with the inoculated strains in a place with the light transmittance of 0.0-7% for managing the bacterium, and placing the bacterium stick in a place with the light transmittance of 30-55% for managing when the mycelium of the bacterium stick grows to 6-7 cm (the length of the bacterium stick growing to the periphery with the strain as the center) until the bacterium stick changes color;
(10) after the fungus sticks are changed in color, the sunshine is allowed to contact the fungus sticks for about 40 to 50 minutes in the morning of cloudy days;
(11) in other cloudy periods, the light transmittance is 0.1-25%;
(12) after the mushroom grows out, the light transmittance of cloudy days is kept at 20-40%.
4. The method of claim 1, further comprising:
(13) placing the bacterium stick with the inoculated strains in a place with the light transmittance of 0.0-5% for managing the bacterium, and placing the bacterium stick in a place with the light transmittance of 15-30% for managing when the mycelium of the bacterium stick grows to 6-7 cm (the length of the bacterium stick growing to the periphery with the strain as the center) until the bacterium stick changes color;
(14) after the fungus sticks are changed in color, all the fungus sticks which can be opened are opened completely in the morning of rainy days, and the minimum time is 1 hour;
(15) in other rainy days, all the light-retaining objects can be opened to the maximum extent;
(16) after the mushroom grows out, the light transmittance in the rainy day is kept at 15-30%.
5. The method of claim 1, further comprising:
(17) when the altitude is 800 m or above, the east wind, the south-east wind and the south wind appear in the daytime, the light transmittance is kept between 25 and 30 percent.
6. The method of claim 1, further comprising:
(18) when the altitude is 800 m or above and southwest wind appears in the daytime, the transmittance is kept between 20 and 25 percent.
7. The method of claim 1, further comprising:
(19) the light transmittance is kept between 15 and 20 percent when the altitude is 800 meters or more and northwest wind appears in the daytime.
8. The method of claim 1, further comprising:
(20) at an altitude of 800 m and above, when the north wind occurs, the light transmittance is kept between 10 and 15 percent.
9. The method of claim 1, further comprising:
(21) when the altitude is 800 m or above and northeast wind appears in the daytime, the transmittance is kept between 5 and 10 percent.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201911426673.2A CN111615990A (en) | 2019-12-27 | 2019-12-27 | Sunlight technology for producing various organic golden rose mushrooms by protecting ecological environment |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201911426673.2A CN111615990A (en) | 2019-12-27 | 2019-12-27 | Sunlight technology for producing various organic golden rose mushrooms by protecting ecological environment |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN111615990A true CN111615990A (en) | 2020-09-04 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201911426673.2A Pending CN111615990A (en) | 2019-12-27 | 2019-12-27 | Sunlight technology for producing various organic golden rose mushrooms by protecting ecological environment |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN113016505A (en) * | 2021-04-22 | 2021-06-25 | 胡克恭 | Collybia albuminosa, culture material for edible fungi of rose mushrooms for protecting ecological environment and application |
-
2019
- 2019-12-27 CN CN201911426673.2A patent/CN111615990A/en active Pending
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN113016505A (en) * | 2021-04-22 | 2021-06-25 | 胡克恭 | Collybia albuminosa, culture material for edible fungi of rose mushrooms for protecting ecological environment and application |
| CN113016505B (en) * | 2021-04-22 | 2023-03-21 | 胡克恭 | Collybia albuminosa, culture material for edible fungi of rose mushrooms for protecting ecological environment and application |
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