CN115779019A - Method for planting plant stem cells to generate agilawood - Google Patents
Method for planting plant stem cells to generate agilawood Download PDFInfo
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- CN115779019A CN115779019A CN202210697354.0A CN202210697354A CN115779019A CN 115779019 A CN115779019 A CN 115779019A CN 202210697354 A CN202210697354 A CN 202210697354A CN 115779019 A CN115779019 A CN 115779019A
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- Medicines Containing Plant Substances (AREA)
Abstract
A method for planting plant stem cells to generate agilawood comprises the following steps: the method comprises the following steps: preparing the plant stem cells: the plant stem cell component comprises: the Chinese eaglewood incense has the advantages of short fragrance forming period, acceleration of cutting the aquilaria sinensis trees in a short period, rapid formation of commercial pure natural agilawood products, high product purity, large yield, pure smell, no pungent odor and rich oil content.
Description
Technical Field
The invention relates to the technical field of agilawood production, in particular to a method for planting plant stem cells to generate agilawood.
Background
Aquilaria sinensis (lour.) Swingle, also called native Aquilaria sinensis (lour.) Swingle, aquilaria plants in Thymelaeaceae, is the only plant source of the famous and precious aromatic medicinal material of Aquilaria sinensis (lour.) Swingle in China, and is listed as the national second-level important protection wild plant. Eaglewood is a rare Chinese medicine in China since ancient times, and has been used as a medicine for thousands of years. Because of the unique aromatic odor, the fragrance has been very popular with people, and the demand on the aspect of fumigating spices is very large all the time.
Aquilaria sinensis cannot be generated under the normal growth condition of the aquilaria sinensis, and is a wood block containing resin and condensed near a wound of the aquilaria sinensis after being injured by the outside, and the aquilaria sinensis can be formed after being accumulated for years, so that the natural yield is very low. The artificially planted aquilaria sinensis can be subjected to artificial treatment to produce the aquilaria sinensis, and the traditional artificial aquilaria sinensis producing method is complex to operate, low in agilawood yield and high in cost.
Disclosure of Invention
Technical problem to be solved
Aiming at the defects of the prior art, the invention provides a method for planting plant stem cells to generate agilawood.
(II) technical scheme
In order to achieve the purpose, the invention provides the following technical scheme: a method for planting plant stem cells to generate agilawood comprises the following steps:
the method comprises the following steps: preparing the plant stem cells: the plant stem cell component comprises: the plant dry cell comprises the following components of medicago sativa, fennel, cistanche, ginseng, coptis chinensis, gizzard pepsin, rheum officinale, rosewood, sandalwood, tangerine seed, pummelo pee, betel nut, cassia bark, cyrtomium rhizome, lucid ganoderma, angelica dahurica, ligusticum wallichii, MAI stone, prepared fleece flower root, angelica, nardostachys root, pinellinus tuber, zerumbet, lithospermum japonicum, indigowoad root, local tobacco leaves, mint, asarum, salvia miltiorrhiza, radix stemonae, folium picrorhizae, bitter cardamom, dragon's blood, eucommia ulmoides, native salty fruit, eleusine indica, beef tallow, lard, cod liver oil, potassium sorbate and refined salt, wherein the specific weight of each component of the plant dry cell is as follows: 250 parts of alfalfa; 135 parts of fennel; 150 parts of minced meat; 300 parts of ginseng; 170 parts of coptis chinensis; 300 parts of gizzard pepsin; 300 parts of rhubarb; 250 parts of rosewood heart wood; 250 parts of sandalwood and 125 parts of orange stones; 180 parts of exocarpium citri rubrum; 130 parts of piper betel nut and 300 parts of betel nut; 500 parts of cassia bark; 230 parts of cyrtomium rhizome and 300 parts of lucid ganoderma; 250 parts of angelica dahurica; 180 parts of ligusticum wallichii; 500 parts of MAI stone; 300 parts of prepared fleece flower root; 170 parts of angelica; 170 parts of nardostachys chinensis; 160 parts of fritillary bulb; 330 parts of rhizoma alismatis; 200 parts of safflower; 200 parts of local tobacco leaves; 160 parts of mint; 130 parts of asarum; 200 parts of salvia miltiorrhiza; 180 parts of radix stemonae; 300 parts of duck foot leaves; 400 parts of bitter orange; 300 parts of tsaoko amomum fruit; 150 parts of amomum cardamomum; 165 parts of dragon's blood; 200 parts of eucommia ulmoides; 400 parts of native salted fruit; 400 parts of goosegrass herb; 4000 parts of beef tallow; 2000 parts of lard oil; 1000 parts of cod liver oil; 200 parts of potassium sorbate; 200 parts of refined salt; supplementing water;
step two: selecting materials: selecting adult aquilaria sinensis big trees and selecting branches;
step three: treating branches: sawing off redundant trunks and branches by a hand saw, reserving the selected trunk, taking the selected trunk out of a cross section, and cleaning the taken out cross section;
step four: injecting plant stem cells: cutting off the cross section of the selected trunk by a steel cutter, then sterilizing at high temperature, mining the diameter opening, and injecting plant stem cells into the diameter opening;
step five: and (3) notch treatment: sealing the cross section of the plant stem cells injected in the fourth step by using an artificial protective membrane, and covering a waterproof cover;
step six: and (3) purification: finely mixing the generated agilawood, and then fermenting and purifying.
In order to ensure the survival rate of the aquilaria sinensis big tree, the invention improves that in the second step, the diameter of the selected branch is between 15 and 20 centimeters.
In order to clean the scraps on the surface of the cross section, the invention has the improvement that in the third step, the cleaning mode of the cross section is distilled water washing.
In order to prevent the cross section of the redundant trunk and branch from breeding bacteria, the invention improves the method, in the third step, the cross section of the redundant trunk and branch is coated with the wound healing agent.
In order to prevent the transverse incision from losing activity in the high-temperature disinfection process, the invention improves that in the fourth step, the high-temperature disinfection temperature is controlled between 200 ℃ and 300 ℃.
In order to facilitate observation of the generation condition of agilawood at the transverse cut, the invention has the improvement that the waterproof cover is made of transparent acrylic material.
In order to improve the generation efficiency of the agilawood, the invention has the improvement that in the fourth step, the depth of the diameter collecting port is set to be 4 centimeters.
(III) advantageous effects
Compared with the prior art, the invention provides a method for planting plant stem cells to generate agilawood, which has the following beneficial effects:
the method for generating agilawood by implanting plant stem cells adopts dozens of rare traditional Chinese medicines and animal fatty oil to produce crude stem cell strains through two-month vacuum environment technology fermentation, and then the aquilaria sinensis tree produced after three times of fine mixing fermentation and purification for more than one month quickly becomes the agilawood stem cell strains.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the following 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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.
Example 1:
a method for planting plant stem cells to generate agilawood comprises the following steps:
the method comprises the following steps: preparing the plant stem cells: the plant stem cell component comprises: the plant dry cell comprises the following components of alfalfa, fennel, desertliving cistanche, ginseng, coptis chinensis, gizzard pepsin, rhubarb, dalbergia wood, sandalwood, orange kernel, red tangerine peel, piper longifolia, betel nut, cassia bark, cyrtomium rhizome, lucid ganoderma, angelica dahurica, ligusticum wallichii, MAI stone, prepared fleece flower root, angelica, nardostachyos root, pinefritillary bulb, zerumbet, flowers, ground tobacco leaves, mint, asarum, salvia miltiorrhiza, radix stemonae, folium canarii sulfas, bitter orange, amomum tsao-ko, cardamom, dragon's blood, eucommia ulmoides, native salt fruit, goosegrass herb, beef tallow, lard, cod liver oil, potassium triplicate and refined salt, wherein the specific gravity of each component of the plant dry cell is as follows: 250 parts of alfalfa; 135 parts of fennel; 150 parts of minced meat; 300 parts of ginseng; 170 parts of coptis chinensis; 300 parts of gizzard pepsin; 300 parts of rhubarb; 250 parts of rosewood heart wood; 250 parts of sandalwood and 125 parts of orange stones; 180 parts of exocarpium citri rubrum; 130 parts of piper betel nut and 300 parts of betel nut; 500 parts of cassia bark; 230 parts of cyrtomium rhizome and 300 parts of lucid ganoderma; 250 parts of angelica dahurica; 180 parts of ligusticum wallichii; 500 parts of MAI stone; 300 parts of prepared fleece-flower root; 170 parts of angelica; 170 parts of rhizoma nardostachyos; 160 parts of fritillary bulb; 330 parts of rhizoma alismatis; 200 parts of safflower; 200 parts of local tobacco leaves; 160 parts of mint; 130 parts of asarum; 200 parts of salvia miltiorrhiza; 180 parts of radix stemonae; 300 parts of duck foot leaves; 400 parts of bitter orange; 300 parts of amomum tsao-ko; 150 parts of amomum cardamomum; 165 parts of dragon's blood; 200 parts of eucommia ulmoides; 400 parts of native salty fruit; 400 parts of goosegrass herb; 4000 parts of beef tallow; 2000 parts of lard oil; 1000 parts of cod liver oil; 200 parts of potassium sorbate; 200 parts of refined salt; replenishing water;
step two: selecting materials: selecting adult aquilaria sinensis big trees and selecting branches;
step three: treating branches: sawing off redundant trunks and branches by a hand saw, reserving the selected trunk, taking the selected trunk out of a cross section, and cleaning the taken out cross section;
step four: injecting plant stem cells: cutting off the cross section of the selected trunk by a steel cutter, then sterilizing at high temperature, mining the diameter opening, and injecting plant stem cells into the diameter opening;
step five: and (3) notch treatment: sealing the cross section of the plant stem cells injected in the fourth step by using an artificial protective membrane, and covering a waterproof cover;
step six: and (3) purification: finely mixing the generated agilawood, and then fermenting and purifying.
Example 2:
a method for planting plant stem cells to generate agilawood comprises the following steps:
the method comprises the following steps: preparing the plant stem cells: the plant stem cell component comprises: the plant dry cell comprises the following components of alfalfa, fennel, desertliving cistanche, ginseng, coptis chinensis, gizzard pepsin, rhubarb, dalbergia wood, sandalwood, orange kernel, red tangerine peel, piper longifolia, betel nut, cassia bark, cyrtomium rhizome, lucid ganoderma, angelica dahurica, ligusticum wallichii, MAI stone, prepared fleece flower root, angelica, nardostachyos root, pinefritillary bulb, zerumbet, flowers, ground tobacco leaves, mint, asarum, salvia miltiorrhiza, radix stemonae, folium canarii sulfas, bitter orange, amomum tsao-ko, cardamom, dragon's blood, eucommia ulmoides, native salt fruit, goosegrass herb, beef tallow, lard, cod liver oil, potassium triplicate and refined salt, wherein the specific gravity of each component of the plant dry cell is as follows: 290 parts of alfalfa; 155 parts of fennel; 170 parts of minced meat; 320 parts of ginseng; 190 parts of coptis chinensis; 320 parts of endothelium corneum gigeriae galli; 320 parts of rhubarb; 270 parts of rosewood heart wood; 270 parts of sandalwood and 145 parts of tangerine seeds; 200 parts of exocarpium citri rubrum; 150 parts of piper longuml and 320 parts of areca; 520 parts of cassia bark; 250 parts of cyrtomium rhizome and 320 parts of lucid ganoderma; 270 parts of radix angelicae; 200 parts of ligusticum wallichii; 520 parts of MAI stone; 320 parts of prepared fleece flower root; 190 parts of angelica; 190 parts of nard; 180 parts of fritillary bulb; 350 parts of rhizoma alismatis; 220 parts of safflower; 220 parts of local tobacco leaves; 180 parts of mint; 150 parts of asarum; 220 parts of salvia miltiorrhiza; 200 parts of radix stemonae; 320 parts of duck foot leaves; 420 parts of bitter orange; 300 parts of amomum tsao-ko; 170 parts of amomum cardamomum; 185 parts of dragon's blood; 220 parts of eucommia ulmoides; 420 parts of native salty fruit; 420 parts of goosegrass herb; 4100 parts of beef tallow; 2100 parts of lard oil; 1100 parts of cod liver oil; 220 parts of potassium sorbate; 220 parts of refined salt; supplementing water;
step two: selecting materials: selecting adult aquilaria sinensis big trees and selecting branches;
step three: treating branches: sawing off redundant trunks and branches by a hand saw, reserving the selected trunk, taking the selected trunk out of a cross section, and cleaning the taken out cross section;
step four: injecting plant stem cells: cutting off the cross section of the selected trunk by a steel cutter, then sterilizing at high temperature, mining the diameter opening, and injecting plant stem cells into the diameter opening;
step five: and (3) notch treatment: sealing the cross section of the plant stem cells injected in the fourth step by using an artificial protective membrane, and covering a waterproof cover;
step six: and (3) purification: finely mixing the generated agilawood, and then fermenting and purifying.
Example 3:
a method for planting plant stem cells to generate agilawood comprises the following steps:
the method comprises the following steps: preparing the plant stem cells: the plant stem cell component comprises: the plant dry cell comprises the following components of medicago sativa, fennel, cistanche, ginseng, coptis chinensis, gizzard pepsin, rheum officinale, rosewood, sandalwood, tangerine seed, pummelo pee, betel nut, cassia bark, cyrtomium rhizome, lucid ganoderma, angelica dahurica, ligusticum wallichii, MAI stone, prepared fleece flower root, angelica, nardostachys root, pinellinus tuber, zerumbet, lithospermum japonicum, indigowoad root, local tobacco leaves, mint, asarum, salvia miltiorrhiza, radix stemonae, folium picrorhizae, bitter cardamom, dragon's blood, eucommia ulmoides, native salty fruit, eleusine indica, beef tallow, lard, cod liver oil, potassium sorbate and refined salt, wherein the specific weight of each component of the plant dry cell is as follows: 300 parts of alfalfa; 185 parts of fennel; 200 parts of minced meat; 350 parts of ginseng; 220 parts of coptis chinensis; 350 parts of endothelium corneum gigeriae galli; 350 parts of rhubarb; 300 parts of dalbergia wood; 300 parts of sandalwood and 175 parts of tangerine seed; 230 parts of tangerine peel; 180 parts of piper longifolia and 350 parts of betel nut; 550 parts of cassia bark; 280 parts of cyrtomium rhizome and 350 parts of lucid ganoderma; 300 parts of angelica dahurica; 230 parts of ligusticum wallichii; 550 parts of MAI stone; 350 parts of prepared fleece flower root; 220 parts of Chinese angelica; 220 parts of nard; 210 parts of fritillary bulb; 380 parts of rhizoma alismatis; 250 parts of safflower; 250 parts of soil tobacco leaves; 210 parts of mint; 180 parts of asarum; 250 parts of salvia miltiorrhiza; 230 parts of stemona; 350 parts of duck foot leaves; 450 parts of bitter orange; 350 parts of amomum tsao-ko; 200 parts of amomum cardamomum; 215 parts of dragon's blood; 250 parts of eucommia ulmoides; 450 parts of native salted fruit; 450 parts of goosegrass herb; 4200 parts of beef tallow; 2200 parts of lard oil; 1200 parts of cod liver oil; 250 parts of potassium sorbate; 250 parts of refined salt; supplementing water;
step two: selecting materials: selecting adult aquilaria sinensis big trees and selecting branches;
step three: treating branches: sawing off redundant trunks and branches by a hand saw, reserving the selected trunk, taking the selected trunk out of a cross section, and cleaning the taken out cross section;
step four: injecting plant stem cells: cutting off the cross section of the selected trunk by a steel cutter, then sterilizing at high temperature, mining the diameter opening, and injecting plant stem cells into the diameter opening;
step five: and (3) notch treatment: sealing the cross section of the plant stem cells injected in the fourth step by using an artificial protective membrane, and covering a waterproof cover;
step six: and (3) purification: finely mixing the generated agilawood, and then fermenting and purifying.
Example 4:
a method for planting plant stem cells to generate agilawood comprises the following steps:
the method comprises the following steps: preparing the plant stem cells: the plant stem cell component comprises: the plant dry cell comprises the following components of alfalfa, fennel, desertliving cistanche, ginseng, coptis chinensis, gizzard pepsin, rhubarb, dalbergia wood, sandalwood, orange kernel, red tangerine peel, piper longifolia, betel nut, cassia bark, cyrtomium rhizome, lucid ganoderma, angelica dahurica, ligusticum wallichii, MAI stone, prepared fleece flower root, angelica, nardostachyos root, pinefritillary bulb, zerumbet, flowers, ground tobacco leaves, mint, asarum, salvia miltiorrhiza, radix stemonae, folium canarii sulfas, bitter orange, amomum tsao-ko, cardamom, dragon's blood, eucommia ulmoides, native salt fruit, goosegrass herb, beef tallow, lard, cod liver oil, potassium triplicate and refined salt, wherein the specific gravity of each component of the plant dry cell is as follows: 230 parts of alfalfa; 115 parts of fennel; 130 parts of minced meat; 280 parts of ginseng; 150 parts of coptis chinensis; 280 parts of endothelium corneum gigeriae galli; 280 parts of rhubarb; 230 parts of dalbergia wood; 230 parts of sandalwood and 105 parts of orange seeds; 160 parts of exocarpium citri rubrum; 110 parts of piper longum and 280 parts of betel nut; 480 parts of cassia bark; 210 parts of cyrtomium rhizome and 280 parts of lucid ganoderma; 230 parts of radix angelicae; 160 parts of ligusticum wallichii; 480 parts of MAI stone; 280 parts of prepared fleece flower root; 150 parts of angelica; 150 parts of rhizoma nardostachyos; 140 parts of fritillary bulb; 310 parts of rhizoma alismatis; 180 parts of safflower; 180 parts of soil tobacco leaves; 140 parts of mint; 110 parts of asarum; 180 parts of salvia miltiorrhiza; 160 parts of radix stemonae; 280 parts of duck foot leaves; 380 parts of bitter orange; 280 parts of tsaoko amomum fruits; 130 parts of amomum cardamomum; 145 parts of dragon's blood; 180 parts of eucommia; 380 parts of native salty fruit; 380 parts of goosegrass herb; 3900 parts of beef tallow; 1900 parts of lard oil; 900 parts of cod liver oil; 180 parts of potassium sorbate; 180 parts of refined salt; supplementing water;
step two: selecting materials: selecting adult aquilaria sinensis big trees and selecting branches;
step three: treating branches: sawing off redundant trunks and branches by a hand saw, reserving the selected trunk, drawing out a cross section of the selected trunk, and cleaning the drawn out cross section;
step four: injecting plant stem cells: flattening the cross section of the selected trunk by using a steel cutter, then carrying out high-temperature disinfection, exploiting the diameter opening, and injecting plant stem cells into the diameter opening;
step five: and (3) incision treatment: sealing the cross section of the plant stem cells injected in the fourth step by using an artificial protective membrane, and covering a waterproof cover;
step six: and (3) purification: finely mixing the generated agilawood, and then fermenting and purifying.
Example 5:
a method for planting plant stem cells to generate agilawood comprises the following steps:
the method comprises the following steps: preparing the plant stem cells: the plant stem cell component comprises: the plant dry cell comprises the following components of alfalfa, fennel, desertliving cistanche, ginseng, coptis chinensis, gizzard pepsin, rhubarb, dalbergia wood, sandalwood, orange kernel, red tangerine peel, piper longifolia, betel nut, cassia bark, cyrtomium rhizome, lucid ganoderma, angelica dahurica, ligusticum wallichii, MAI stone, prepared fleece flower root, angelica, nardostachyos root, pinefritillary bulb, zerumbet, flowers, ground tobacco leaves, mint, asarum, salvia miltiorrhiza, radix stemonae, folium canarii sulfas, bitter orange, amomum tsao-ko, cardamom, dragon's blood, eucommia ulmoides, native salt fruit, goosegrass herb, beef tallow, lard, cod liver oil, potassium triplicate and refined salt, wherein the specific gravity of each component of the plant dry cell is as follows: 2000 parts of alfalfa; 85 parts of fennel; 100 parts of minced meat; 250 parts of ginseng; 120 parts of coptis chinensis; 250 parts of gizzard pepsin; 250 parts of rhubarb; 200 parts of dalbergia wood; 2000 parts of sandalwood and 75 parts of orange seeds; 130 parts of tangerine peel; 80 parts of piper betel nut and 250 parts of betel nut; 450 parts of cassia bark; 180 parts of cyrtomium rhizome and 250 parts of lucid ganoderma; 200 parts of angelica dahurica; 130 parts of ligusticum wallichii; 450 parts of MAI stone; 250 parts of prepared fleece flower root; 120 parts of angelica; 120 parts of nardostachys chinensis benth; 110 parts of fritillary bulb; 280 parts of rhizoma alismatis; 150 parts of safflower; 150 parts of soil tobacco leaves; 110 parts of mint; 80 parts of asarum; 150 parts of salvia miltiorrhiza; 130 parts of radix stemonae; 250 parts of duck foot leaves; 350 parts of bitter orange; 250 parts of tsaoko amomum fruit; 100 parts of amomum cardamomum; 115 parts of dragon's blood; 150 parts of eucommia ulmoides; 350 parts of native salty fruit; 350 parts of goosegrass; 3800 parts of beef tallow; 1800 parts of lard oil; 800 parts of cod liver oil; 150 parts of potassium sorbate; 150 parts of refined salt; replenishing water;
step two: selecting materials: selecting adult aquilaria sinensis big trees and selecting branches;
step three: branch and stem treatment: sawing off redundant trunks and branches by a hand saw, reserving the selected trunk, taking the selected trunk out of a cross section, and cleaning the taken out cross section;
step four: injecting plant stem cells: flattening the cross section of the selected trunk by using a steel cutter, then carrying out high-temperature disinfection, exploiting the diameter opening, and injecting plant stem cells into the diameter opening;
step five: and (3) incision treatment: sealing the cross section of the plant stem cells injected in the fourth step by using an artificial protective membrane, and covering a waterproof cover;
step six: and (3) purification: finely mixing the generated agilawood, and then fermenting and purifying.
The operators performed experiments on examples 1 to 5 at the same time, and the naturally produced agilawood was used as a comparative example, and the experimental results are shown in table 1, so that the agilawood produced in example 1 has the largest weight and the better production effect.
TABLE 1
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (7)
1. A method for planting plant stem cells to generate agilawood is characterized by comprising the following steps:
the method comprises the following steps: preparing the plant stem cells: the plant stem cell component comprises: the plant stem cell comprises the following components of alfalfa, fennel, desertliving cistanche, ginseng, coptis, gizzard pepsin, rhubarb, dalbergia wood, sandalwood, orange kernel, red tangerine peel, piper longifolia, betel nut, cassia bark, cyrtomium rhizome, lucid ganoderma, angelica dahurica, ligusticum wallichii, MAI stone, prepared fleece flower root, angelica, nardostachyos root, pinellinus tuber, rhizoma alismatis, flowers, tobacco leaves, mint, asarum, salvia miltiorrhiza, radix stemonae, folium canarii, bitter orange, amomum tsao-ko, amomum cardamomum, dragon's blood, eucommia ulmoides, native salt fruit, eleusine indica, beef tallow, lard, cod liver oil, potassium triplicate and refined salt, wherein the specific gravity of each component of the plant stem cell is as follows: 250 parts of alfalfa; 135 parts of fennel; 150 parts of minced meat; 300 parts of ginseng; 170 parts of coptis chinensis; 300 parts of endothelium corneum gigeriae galli; 300 parts of rhubarb; 250 parts of rosewood heart wood; 250 parts of sandalwood and 125 parts of orange stones; 180 parts of exocarpium citri rubrum; 130 parts of piper betel nut and 300 parts of betel nut; 500 parts of cassia bark; 230 parts of cyrtomium rhizome and 300 parts of lucid ganoderma; 250 parts of radix angelicae; 180 parts of ligusticum wallichii; 500 parts of MAI stone; 300 parts of prepared fleece-flower root; 170 parts of angelica; 170 parts of nardostachys chinensis; 160 parts of fritillary bulb; 330 parts of rhizoma alismatis; 200 parts of safflower; 200 parts of local tobacco leaves; 160 parts of mint; 130 parts of asarum; 200 parts of salvia miltiorrhiza; 180 parts of radix stemonae; 300 parts of duck foot leaves; 400 parts of bitter orange; 300 parts of tsaoko amomum fruit; 150 parts of amomum cardamomum; 165 parts of dragon's blood; 200 parts of eucommia ulmoides; 400 parts of native salted fruit; 400 parts of goosegrass herb; 4000 parts of beef tallow; 2000 parts of lard oil; 1000 parts of cod liver oil; 200 parts of potassium sorbate; 200 parts of refined salt; replenishing water;
step two: selecting materials: selecting adult aquilaria sinensis big trees and selecting branches;
step three: treating branches: sawing off redundant trunks and branches by a hand saw, reserving the selected trunk, taking the selected trunk out of a cross section, and cleaning the taken out cross section;
step four: injecting plant stem cells: cutting off the cross section of the selected trunk by a steel cutter, then sterilizing at high temperature, mining the diameter opening, and injecting plant stem cells into the diameter opening;
step five: and (3) incision treatment: sealing the cross section of the plant stem cells injected in the fourth step by using an artificial protective film, and covering a waterproof cover;
step six: and (3) purification: finely mixing the generated agilawood, and then fermenting and purifying.
2. The method for growing plant stem cells to produce agilawood according to claim 1, wherein: in the second step, the diameter of the trunk of the selected tree is between 15 and 20 centimeters.
3. The method for growing plant stem cells to produce agilawood according to claim 1, wherein: in the third step, the cleaning mode of the cross section is distilled water washing.
4. The method for planting plant stem cells to generate agilawood according to claim 1, wherein: and in the third step, brushing the wound healing agent on the cross section of the redundant trunk and branches.
5. The method for planting plant stem cells to generate agilawood according to claim 1, wherein: in the fourth step, the temperature of high-temperature sterilization is controlled between 200 ℃ and 300 ℃.
6. The method for growing plant stem cells to produce agilawood according to claim 1, wherein: the waterproof cover is made of transparent acrylic materials.
7. The method for planting plant stem cells to generate agilawood according to claim 1, wherein: in the fourth step, the depth of the diameter collecting port is set to be 4 centimeters.
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