CN110663481A - Seedling growing method for improving disease resistance of radix angelicae pubescentis - Google Patents

Abstract

The invention discloses a seedling raising method for improving disease resistance of radix angelicae pubescentis, which comprises the steps of 1) land selection and land preparation, 2) temperature control shed building, 3) seedbed manufacturing, 4) seed treatment, wherein alpha-sodium naphthalene acetate and jasmonic acid are dissolved in water to prepare a mixed solution, the mixed solution is fully mixed with sterile biogas slurry, radix angelicae pubescentis seeds are immersed in the mixed solution, 5) seeding is carried out, 6) staged topdressing is carried out, ① seedbed topdressing is carried out, compound fertilizer is applied after emergence for 10-20 days, ② foliar topdressing is carried out, when seedlings are 15-20cm high, a mixed solution of salicylic acid and polysaccharide and a mixed solution of jasmonic acid and polysaccharide are alternately sprayed on leaf surfaces, 7) timely transplanting is carried out, seedling raising is carried out by adopting the method, the emergence rate is as high as 98.95%, the seedlings grow and are strong, seedlings cultivated by adopting the same seedling age method are more robust, the seedling height is relatively improved by 0.5-1cm, the root system is improved, the stem thickness is increased by about 0.07-0.1cm, the leaves are more thick, the color is improved, the survival rate is improved, and the seedlings are transplanted no matter the seedlings are.

Description

Seedling growing method for improving disease resistance of radix angelicae pubescentis

Technical Field

The invention belongs to the technical field of planting of traditional Chinese medicinal materials, and particularly relates to a seedling growing method for improving disease resistance of radix angelicae pubescentis.

Background

Radix angelicae pubescentis is a perennial big and high herb, prefers cool and humid climate, and mostly grows under grasses or sparse shrubs. The dry root is used as a medicine, is a common Chinese medicinal material in China, has the effects of dispelling wind and eliminating dampness, and dispelling cold and relieving pain, and is used for treating wind-cold-dampness arthralgia, waist and knee pain, shaoyin wind-cold headache, headache and toothache and other symptoms. In recent years, due to the fact that market demand is greatly increased, the price of radix angelicae pubescentis is continuously increased, wild radix angelicae pubescentis are subjected to plunder type collection, and the growth of wild radix angelicae pubescentis is greatly reduced in a large area under the influence of intrinsic factors of wild radix angelicae pubescentis. In order to meet the market demand and solve the endangered problem of wild radix angelicae pubescentis, artificial planting is gradually carried out in various places to enlarge the planting area of the radix angelicae pubescentis, and the yield of the radix angelicae pubescentis is improved accordingly. However, when the wild radix angelicae pubescentis is artificially cultivated, a large amount of chemical fertilizer and pesticide are used, so that the medicinal quality of the wild radix angelicae pubescentis is obviously reduced, particularly the disease rate is high, and the medicinal quality of the wild radix angelicae pubescentis is difficult to achieve.

The radix angelicae pubescentis can be propagated by seeds and roots, but the problem of disease resistance reduction of artificially planted radix angelicae pubescentis cannot be thoroughly solved no matter which propagation mode is adopted. Therefore, patent CN 107114092 a discloses a high-yield artificial cultivation method of pubescent angelica fissistigma in high-altitude areas, which comprises the following steps: 1) land preparation: selecting sandy loam with high drainage performance on a semi-yin slope with the altitude of more than 1500m, raking and leveling; 2) seedling culture: the high ridge is made, 4-5kg of seeds are used per mu, the seeds are mixed with the ash and the calcium-magnesia phosphate fertilizer into seed ash to be broadcast on the ridge surface, the ash or humus soil is covered, water is permeated, and the soil is kept moist; 3) seedling management: thinning, weeding and soil and fertilizer management; 4) transplanting: opening holes with row spacing of 50cm and plant spacing of 25-30cm, planting 2-3 seedlings in each hole, making terminal buds upward during planting, covering soil, compacting, and watering for rooting; 5) field management: carrying out weeding and soil and fertilizer management; 6) harvesting: collected after planting for 2 years. The method solves the problem of shortage of wild resources, and reduces morbidity. In the method, the seeds are mixed by the fire ash and the calcium magnesium phosphate fertilizer, the prepared seed ash is sowed, and then the fire ash and humus soil are covered to solve the disease occurrence of the radix angelicae pubescentis. Patent CN 105659966 a discloses a method for accelerating germination of pubescent angelica root seeds, comprising the following steps: a. and (3) disinfection: putting radix angelicae pubescentis seeds into alcohol for disinfection, then fishing out the seeds, soaking and cleaning the seeds with clear water, and filtering water out; b. soaking: soaking radix Angelicae Pubescentis seed in IAA and NAA solution, taking out, and filtering; c. moisturizing wet sand: uniformly spreading the seeds of the heracleum hemsleyanum michaux on the wet sand to keep the sand wet; d. illumination: keeping a certain temperature, illuminating every day, and stacking for 6 days; e. sowing: and (3) uniformly broadcasting the illuminated seeds on a prepared seedling bed, and covering the seeds with a layer of fine soil after broadcasting. The method can effectively improve the germination rate of the seeds of the radix angelicae pubescentis, effectively reduce the seedling raising cost of the radix angelicae pubescentis, improve the planting benefit of the radix angelicae pubescentis and promote the income increase of farmers; and the field germination rate of the radix angelicae pubescentis seeds can be improved to about 10% by using a germination accelerating method, the seed consumption per mu of seedlings is reduced from 8-10kg to 2.5-3kg, and the seed consumption cost of the seedlings is greatly reduced. The problem of the disease resistance reduction of the artificially planted heracleum hemsleyanum michaux still cannot be solved. Patent CN 106171425 a discloses a high-yield cultivation method for radix angelicae pubescentis seedling transplantation, which achieves the purpose of increasing per mu yield of radix angelicae pubescentis by collecting seeds of wild radix angelicae pubescentis for seedling cultivation, and each index is relatively higher than that of artificially cultivated seeds, but because the wild radix angelicae pubescentis has limited seed amount and difficult seed source, the wild radix angelicae pubescentis is not suitable for large-scale artificial cultivation.

Disclosure of Invention

The invention aims to: the method for raising seedlings for improving the disease resistance of radix angelicae pubescentis is provided, the seeds are soaked in a mixed solution of alpha-sodium naphthalene acetate, jasmonic acid and sterile biogas slurry at a constant temperature, and a nutrition supply scheme of stage dressing is adopted, so that the self disease resistance of seeds and seedlings is effectively activated, a self defense system of the seeds is always activated, and the problem of effectively preventing diseases and insect pests is solved.

In order to achieve the purpose, the invention adopts the following technical scheme:

a seedling growing method for improving disease resistance of radix angelicae pubescentis comprises the following steps:

1) land selection and land preparation: selecting a sunny slope land with elevation of 900-1500m, wherein the soil layer is deep, loose in soil quality, good in drainage, rich in humus sandy loam and 30-40cm in ploughing depth, and applying 1500-1800 kg of decomposed farmyard manure per mu after raking is thin;

2) building a temperature control shed: adopting heat-insulating bricks to build a culture room with the length of 2-3m, the width of 1.5-2m and the height of 1.5-1.8m, building a triangular support at the top, sealing the triangular support by using a heat-insulating plastic film, manufacturing an arched support at a position 10-20cm away from the top sealing film, sealing the arched support by using a black shading net, hanging a refraction frame at a position 20-30cm below the arched support, manufacturing the refraction frame by using a PC prism plate, and finally pasting heat-insulating materials on the inner wall of the culture room to form a temperature-control shed;

3) manufacturing a seedbed: in a temperature control shed, using hollow bricks as a seedling bed with the length of 50-60cm, the width of 40-50cm and the height of 10-20cm, paving a seedling substrate with the thickness of 8-15cm in the seedling bed, irrigating with 5% of lime water until the substrate is immersed by 3-5cm, uncovering the temperature control shed to fully air the seedling bed, taking the condition that the substrate is not sticky when being pinched by hands as the criterion, then closing the temperature control shed, and sowing when the temperature in the shed is basically stable after 1-2 days;

4) seed treatment: dissolving alpha-sodium naphthalene acetate and jasmonic acid in water to prepare a mixed solution with the mass concentration of 1-8%, and mixing the mixed solution with sterile biogas slurry according to the mass ratio of 1: fully mixing the components in the proportion of 200-300, heating to 30 ℃, keeping the temperature constant, then soaking the seeds of the heracleum hemsleyanum michaux in constant-temperature liquid for 30-40 minutes, taking out, draining, and sowing;

5) sowing: uniformly broadcasting the treated seeds on a prepared seedling bed, and covering the seeds with a layer of fine soil after broadcasting;

6) the method comprises the following steps of (1) ①, 8932, ①, namely, ①, wherein the ①, the 8932, the ②, the 354, the 353, the ②, the 3515, the 3520, the 3515, the 10-20, the above-mentioned two solutions are sprayed alternately, the three solutions are sprayed alternately, and the total application time is 3-4;

7) timely transplanting: transplanting annual healthy pubescent angelica seedlings cultured in the steps, ditching and transplanting, wherein the row spacing is 35-40cm, the plant spacing is 20-25cm, the planting density is 8000-.

Further, the seedling raising substrate is prepared from field soil, humus, biogas residues, burnt soil, phosphorus-potassium fertilizer and urea according to the mass ratio of 100: 15-20: 18-25: 10-15: 0.8-1.2: 1.5-3.

Furthermore, the biogas residues are prepared by adding straw powder, zeolite and sandy soil into the original biogas slurry, settling for 12-18 hours and fully drying.

Furthermore, the adding amount of the straw powder, the zeolite powder and the sandy soil is respectively 10-20%, 3-8% and 20-30%.

Furthermore, the straw powder is prepared by crushing straws with sufficient nitrogen content, and can be at least one of bean straws, peanut straws, sesame straws or castor straws.

Compared with the prior art, the invention has the beneficial effects that:

1) the method adopts the mixed liquid of the alpha-sodium naphthalene acetate, the jasmonic acid and the biogas slurry to treat the seeds, so that the seed germination can be promoted, the breeding is accelerated, the self-resistance system of the seeds can be activated, the occurrence of plant diseases and insect pests is reduced, and the biogas slurry contains various trace elements, so that the infiltration of trace raw materials such as Si, Fe and the like can be increased, and the promotion effect on the seed germination, the resistance and the conduction and transportation of nutrition is further realized; in addition, the biogas slurry can also be used as a carrier of the alpha-sodium naphthaleneacetate and the jasmonic acid, so that the two components are firmly adhered to seeds, and the infiltration time and the infiltration amount of the two components are increased;

2) according to the invention, when seedlings emerge for 10-20 days, the compound fertilizer prepared by mixing the diatomite, the urea and the calcium superphosphate is applied, so that not only can N, P, Ca fertilizers be supplemented, but also silicon elements can be further supplemented, and the silicon elements have a remarkable effect on improvement of disease resistance of plants; when the seedlings are 15-20cm high, the mixed solution of salicylic acid and polysaccharide and the mixed solution of jasmonic acid and polysaccharide are alternately sprayed on the leaf surfaces, the two solutions can activate the self-resistance system of the radix angelicae pubescentis seedlings, and simultaneously, the two solutions are alternately sprayed, so that the inactivated immunity of the single-living seedlings to one solution can be prevented, and the effect is reduced;

3) according to the greenhouse, the temperature control greenhouse is built, and the refraction frame is arranged in the greenhouse, so that a high temperature control effect can be achieved, the illumination can be effectively increased, and the growth of seedlings is promoted; the method obviously improves the rate of emergence by means of temperature control and illumination increase, can obviously enhance photosynthesis and increase the accumulation of medicinal components;

4) the seedling raising method has the advantages that the emergence rate is up to 98.95%, the seedlings grow vigorously, the seedlings cultivated by the method in the same age are stronger than the seedlings or wild seedlings cultivated by the method in the common age, the height of the seedlings is relatively increased by 0.5-1cm, the roots are more developed, the stem thickness is increased by about 0.07-0.1cm, the leaves are more enlarged, the color is deeper, the transplanting survival rate of the seedlings is increased by 1-3%, and no pest and disease damage occurs in the seedling stage or after transplanting.

Detailed Description

The technical solutions of the present invention are further described below with reference to specific examples to facilitate understanding for those skilled in the art.

Example 1

A seedling growing method for improving disease resistance of radix angelicae pubescentis comprises the following steps:

1) land selection and land preparation: in early 3 months in 2013, after soil is unfrozen, selecting 1 mu of sunny slope land with the elevation of 900-1500m, wherein the soil layer is required to be deep, loose in soil quality, good in drainage, rich in humus sandy loam, the ploughing depth is 30-40cm, and after the soil is raked to be fine, applying 1500-1800 kg of decomposed farmyard manure per mu;

2) building a temperature control shed: adopting heat-insulating bricks to build a culture room with the length of 2-3m, the width of 1.5-2m and the height of 1.5-1.8m, building a triangular support at the top, sealing the triangular support by using a heat-insulating plastic film, manufacturing an arched support at a position 10-20cm away from the top sealing film, sealing the arched support by using a black shading net, hanging a refraction frame at a position 20-30cm below the arched support, manufacturing the refraction frame by using a PC prism plate, and finally pasting heat-insulating materials on the inner wall of the culture room to form a temperature-control shed;

3) manufacturing a seedbed: in a temperature-controlled greenhouse, a hollow brick is used as a seedling bed with the length of 50-60cm, the width of 40-50cm and the height of 10-20cm, a seedling substrate with the thickness of 8-15cm is paved in the seedling bed, then 5% of lime water is used for irrigation, the substrate is immersed by 3-5cm, then the temperature-controlled greenhouse is uncovered for fully airing the seedling bed, the substrate is not stuck by hands, then the temperature-controlled greenhouse is closed, and seeding is carried out after 1-2 days when the temperature in the greenhouse is basically stable, wherein the seedling substrate is prepared according to the following method:

① crushing straw with sufficient nitrogen content to obtain straw powder, which can be at least one of bean straw, peanut straw, sesame straw or castor straw;

②, adding the straw powder, the zeolite powder and the sandy soil prepared in the step ① into the original biogas slurry, settling for 12-18 hours, and fully drying to prepare biogas residues, wherein the adding amounts of the straw powder, the zeolite powder and the sandy soil are respectively 10-20%, 3-8% and 20-30%;

③ mixing the biogas residue obtained in step ② with field soil, humus, biogas residue, burnt soil, phosphorus-potassium fertilizer and urea according to the mass ratio of 100: 15-20: 18-25: 10-15: 0.8-1.2: 1.5-3 to prepare a seedling substrate;

4) seed treatment: in 3-month-middle-ten days in 2014, dissolving alpha-sodium naphthaleneacetate and jasmonic acid in water to prepare a mixed solution with the substance concentration of 1-8%, and mixing the mixed solution with sterile biogas slurry according to a mass ratio of 1: fully mixing 200-300, heating to 30 ℃ and keeping the temperature constant, then soaking 2kg of radix angelicae pubescentis seeds in constant-temperature liquid for 30-40 minutes, taking out, and draining;

5) sowing: 4, 4 and 2 days in 2013, uniformly broadcasting the treated seeds on a prepared seedling bed, and covering the seeds with a layer of fine soil after broadcasting;

6) stage-by-stage topdressing: seedling emergence begins in 25 days in 4 months in 2013, seedlings grow regularly in 30 days in 4 months, the rate of emergence is 98.95 percent, and topdressing is carried out by the following method after seedling emergence

① topdressing the seedbed, topdressing 1-2.5kg of compound fertilizer per seedbed in 5 and 12 months in 2013, wherein the compound fertilizer is prepared by mixing diatomite, urea and calcium superphosphate according to the mass ratio of 2: 3: 3, ② foliage topdressing is carried out when the seedlings of the radix angelicae pubescentis are 15-20cm high, mixed solution of salicylic acid and polysaccharide is sprayed on the foliage, after 10-15 days, the mixed solution of jasmonic acid and polysaccharide is sprayed, and the mixed solution is selected to be sprayed in the morning or from 3 to 5 afternoon, and the two mixed solutions are alternately sprayed, and are applied for 3-4 times in total;

7) timely transplanting: and (3) selecting the robust radix angelicae pubescentis seedlings cultured in the steps to be transplanted at the beginning of 4 months in 2014, ditching and transplanting, wherein the row spacing is 35-40cm, the plant spacing is 20-25cm, the planting density is 8000 plus 9000 plants/mu, the seedlings are obliquely placed in ditches, the ditching depth is 10-15cm, the seedling top is 4-5cm away from the ground according to the size of the seedlings, covering soil and compacting are performed, the survival condition is checked after the transplanting is completed for 5 days, and the survival rate is as high as 99.1%.

8) Harvesting: harvesting in 2016 and 9 months after 2 years of transplanting, and no pest and disease damage occurs all the time from seedling cultivation to field transplanting.

Claims (7)

1. A seedling raising method for improving disease resistance of radix angelicae pubescentis comprises the steps of 1) land selection and land preparation, 2) temperature control shed building, 3) seedbed manufacturing, 4) seed treatment, 5) sowing, 6) stage dressing, and 7) timely transplanting, and is characterized in that the seed treatment method in the step 4) is to dissolve alpha-sodium naphthalene acetate and jasmonic acid in water to prepare a mixed solution with the mass concentration of 1-8%, then to fully mix the mixed solution with sterile biogas slurry according to the mass ratio of 1: 200 and 300, to heat to 30 ℃ and keep the temperature constant, then to immerse radix angelicae pubescentis seeds in constant-temperature liquid, to take out the seeds after soaking for 30-40 minutes, to drain water, and to sow, and the stage dressing method in the step 6) is to spray ① seedling bed dressing, to spray the seedling bed dressing for 10-20 days after emergence, to dressing with 1-2.5 kg/bed of compound fertilizer, wherein diatom earth, urea, calcium phosphate is mixed with 2: 3: 3 at noon, to spray the foliar fertilizer solution is sprayed for 84-15 cm after seedling emergence, and the foliar sugar dressing is carried out when the two mixed solution is mixed with 0-5 cm.

2. A seedling raising method for improving disease resistance of heracleum hemsleyanum michaux as claimed in claim 1, wherein: the method for constructing the temperature control shed in the step 2) comprises the following steps: a cultivation room with the length of 2-3m, the width of 1.5-2m and the height of 1.5-1.8m is built by heat-insulating bricks, a triangular support is built at the top and is sealed by a heat-insulating plastic film, an arched support is manufactured at a position 10-20cm away from the top sealing film and is sealed by a black shading net, a refraction frame is hung at a position 20-30cm below the arched support and is manufactured by a PC prism plate, and finally, heat-insulating materials are pasted on the inner wall of the cultivation room to form the temperature control shed.

3. A seedling raising method for improving disease resistance of heracleum hemsleyanum michaux as claimed in claim 1, wherein: the method for manufacturing the seedbed in the step 3) comprises the following steps: in a temperature-controlled shed, using hollow bricks as a seedling bed with the length of 50-60cm, the width of 40-50cm and the height of 10-20cm, paving a seedling substrate with the thickness of 8-15cm in the seedling bed, irrigating with 5% lime water until the substrate is immersed by 3-5cm, uncovering the temperature-controlled shed to sufficiently air the seedling bed, taking the condition that the substrate is not sticky when being pinched by hands as the criterion, then closing the temperature-controlled shed, and sowing when the temperature in the shed is basically stable after 1-2 days.

4. A seedling raising method for improving disease resistance of heracleum hemsleyanum michaux as claimed in claim 3, wherein: the seedling raising substrate is prepared from field soil, humus soil, biogas residues, burnt soil, phosphorus-potassium fertilizer and urea according to the mass ratio of 100: 15-20: 18-25: 10-15: 0.8-1.2: 1.5-3.

5. A seedling raising method for improving disease resistance of radix angelicae pubescentis as claimed in claim 4, wherein the method comprises the following steps: the biogas residue is prepared by adding straw powder, zeolite and sandy soil into the original biogas slurry, settling for 12-18 hours, and fully drying.

6. A seedling raising method for improving disease resistance of radix angelicae pubescentis as claimed in claim 5, wherein the method comprises the following steps: the adding amount of the straw powder, the zeolite powder and the sand is respectively 10-20%, 3-8% and 20-30%.

7. A seedling raising method for improving disease resistance of radix angelicae pubescentis as claimed in claim 5 or 6, wherein: the straw powder is prepared by crushing straws with sufficient nitrogen content, and is at least one of bean straws, peanut straws, sesame straws or castor straws.