CN112056101A - Root segment propagation method of pokeberry - Google Patents

Abstract

The invention discloses a root segment propagation method of pokeweed, which comprises the following steps: pretreating Phytolacca americana to obtain Phytolacca americana root segments; sterilizing the pretreated pokeweed root segments; embedding the sterilized Phytolacca americana root segment in a matrix, and managing the Phytolacca americana root segment embedded in the matrix. The root segment propagation method of the pokeweed provided by the invention is simple to operate and high in propagation rate.

Description

Root segment propagation method of pokeberry

Technical Field

The invention relates to the technical field of plant tissue propagation, in particular to a root segment propagation method of pokeberry.

Background

Phytolacca Americana (Phytolacca Americana L.) is a plant belonging to the genus Phytolacca of the family Phytolaccaceae, has a strong anti-pollution ability, and has a strong Mn-enriching effect. The pokeweed is generally bred by adopting seeds, but the seed coat of the pokeweed is hard, the dormancy characteristic of the seeds is obvious, and the dormancy of the pokeweed seeds is difficult to break by common dormancy breaking measures, so that the seed germination rate is extremely low, and the breeding and seedling difficulty is high.

Disclosure of Invention

The invention mainly aims to provide a root segment propagation method of pokeweed, which solves the problem of low propagation rate of the pokeweed in the prior art.

To achieve the above object, the present invention provides a method for propagating root segments of pokeweed, the method comprising the steps of:

pretreating Phytolacca americana to obtain Phytolacca americana root segments;

sterilizing the pretreated pokeweed root segments;

embedding the sterilized Phytolacca americana root segment in a matrix, and managing the Phytolacca americana root segment embedded in the matrix.

Preferably, the step of pre-treating pokeweed to obtain pokeweed root segments comprises:

selecting healthy pokeweed plants planted for 1-2 years, and pruning the pokeweed plants to 2-3 cm root segments.

Preferably, the step of sterilizing the pre-treated pokeweed root segments comprises:

spraying carbendazim on the surface of the pretreated pokeweed root segments.

Preferably, the carbendazim is a solution diluted 400 times by 80% of carbendazim wettable powder.

Preferably, the step of embedding the sterilized pokeweed root segments into a matrix comprises:

soaking the base of the sterilized pokeweed root segment into the composite rooting solution for 5-7 min, taking out and airing the pokeweed root segment;

embedding the dried pokeweed root segments into a matrix, wherein the embedding depth is 4-6 cm, and the embedding distance is 8-10 cm.

Preferably, the step of managing the pokeweed root segments embedded in the matrix comprises:

the temperature of the substrate is controlled to be 25-30 ℃, and the water content of the substrate is controlled to be 50-70%.

Preferably, the composite rooting solution comprises the following mixed solution in parts by mass: 6 to 10 parts of naphthylacetic acid 40mg/L, 8 to 12 parts of indoleacetic acid 60mg/L, 3 to 7 parts of sodium chloride 50g/L, 1 to 3 parts of cane sugar 50g/L and 1 part of 75% ethanol.

Preferably, the matrix is a mixed matrix of perlite and turf, and the mass ratio of the perlite to the turf is 3: 1-5: 1.

Preferably, the particle size of the perlite in the matrix is 2 mm-5 mm, and the paving thickness of the mixed matrix is 20 cm-30 cm.

Preferably, said step of managing the pokeweed root segments embedded in the matrix is followed by the further steps of:

and transplanting after 5-8 leaves grow out of the pokeberry.

Firstly, preprocessing the pokeberry to obtain pokeberry root segments; secondly, sterilizing the pretreated pokeweed root segments; and finally, embedding the sterilized pokeweed root segments into the matrix, and managing the pokeweed root segments embedded in the matrix.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all 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.

In addition, the technical solutions in the embodiments of the present invention may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination of technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The invention provides a root segment propagation method of pokeweed, which comprises the following steps:

step S10, preprocessing pokeberry to obtain pokeberry root segments;

and S10, selecting healthy pokeweed plants planted for 1-2 years, and pruning the pokeweed plants into 2-3 cm root segments.

Phytolacca Americana (Phytolacca Americana L.) is a plant belonging to the genus Phytolacca of the family Phytolaccaceae, has a strong anti-pollution ability, and has a strong Mn-enriching effect. The pokeweed is generally bred by adopting seeds, but the seed coat of the pokeweed is hard, the dormancy characteristic of the seeds is obvious, and the dormancy of the pokeweed seeds is difficult to break by common dormancy breaking measures, so that the seed germination rate is extremely low, and the breeding and seedling difficulty is high. The seed is adopted as an explant after being sowed for tissue culture and propagation, the technical requirement is high, the operation is complex, the cultivation cost is high, and the production of the pokeberry seedlings is limited to a certain extent.

In the embodiment, the pokeweed roots are firstly pretreated to obtain pokeweed root segments, specifically, healthy plants planted with 1-2 years of pokeweed are selected, overground parts are removed, root systems are dug out, and the pokeweed root systems are trimmed to obtain 2-3 cm pokeweed root segments.

Step S20, sterilizing the pretreated pokeweed root segments;

the step S20 includes:

and step S21, spraying carbendazim on the surface of the pretreated pokeweed root segments.

In the embodiment, the surface of the pokeweed root segment after pretreatment is sterilized, the sterilization liquid is mainly sprayed, carbendazim can be selected as the sterilization liquid, the carbendazim can effectively remove mixed bacteria on the surface of the pokeweed root segment, and specifically, the carbendazim is a solution diluted by 400 times by 80% carbendazim wettable powder.

Step S30, embedding the sterilized pokeweed root segments into the matrix, and managing the pokeweed root segments embedded in the matrix.

The step S30 includes:

step S31, soaking the sterilized bases of the pokeweed root segments into the compound rooting solution for 5-7 min, taking out and airing the pokeweed root segments;

and step S32, embedding the dried pokeberry root segments into a matrix, wherein the embedding depth is 4-6 cm, and the embedding distance is 8-10 cm.

Step S33, controlling the temperature of the substrate to be 25-30 ℃ and the water content of the substrate to be 50-70%.

In the embodiment, the base of the sterilized pokeweed root segment is soaked in the composite rooting solution for 5-7 min, the pokeweed root segment is taken out after soaking is finished and is dried to remove redundant water, wherein the composite rooting solution is a mixed solution of 6-10 parts of naphthylacetic acid 40mg/L, 8-12 parts of indoleacetic acid 60mg/L, 3-7 parts of sodium chloride 50g/L, 1-3 parts of sucrose 50g/L and 1 part of 75% ethanol, the dried pokeweed root segment is embedded in a matrix with the embedding depth of 4-6 cm and the embedding interval of 8-10 cm, wherein the matrix is a mixed matrix of perlite and turf, the perlite is acid rock sprayed from volcanoes, gaps are distributed in the lightweight inner structure of the perlite, a large amount of water can be absorbed, and the thermal insulation performance is good, the price is low, and the cultivation cost is low; the turf is rich in nutrient components and very beneficial to plants, and can promote the growth of underground roots due to good drainage function and long fertilizer effect of the turf to achieve the effect of color-positive plants, specifically, the mass ratio of the perlite to the turf is 3: 1-5: 1, the particle size of the perlite is 2 mm-5 mm, the laying thickness of the perlite and turf mixed matrix is 20 cm-30 cm, the pokeweed root segment embedded in the matrix is managed mainly by maintaining the matrix temperature within a certain temperature range, and the water content of the substrate is maintained within a certain range, so that the environment condition suitable for the growth of the pokeweed is created for the pokeweed, the temperature is too high or too low and is not suitable for the growth of the pokeweed, specifically, the temperature of the substrate is controlled to be 25-30 ℃, the water content is too low or too high and is not suitable for the growth of the pokeweed, and specifically, the water content of the substrate is controlled to be 50-70%.

After the step S30, the method further includes:

and step S40, transplanting after 5-8 leaves grow out from the pokeberry.

In the embodiment, after 5-8 leaves of pokeweed are grown, transplanting is carried out, an annular ditch with the width of 20-30 cm and the width of 50-70 cm is dug at the periphery of a root system, the pokeweed is transplanted to a pre-processed field planting plot, weeds and large stones in the field planting plot are removed in advance, plowing and leveling are carried out, and then the field planting plot is watered. The root segment propagation method of the pokeweed is simple to operate, high in propagation coefficient and high in transplanting survival rate.

The root segment propagation method of pokeweed according to the present invention is illustrated in detail by the following specific examples:

example one

Selecting healthy pokeweed plants planted for 1 year, pruning the pokeweed plants, specifically, removing overground parts, digging out root systems, and pruning the root systems of the pokeweed plants to obtain 2cm pokeweed root segments.

Spraying carbendazim on the surface of the pretreated pokeweed root segment, wherein the carbendazim is a solution diluted by 400 times by 80% carbendazim wettable powder, and the carbendazim can effectively remove mixed bacteria on the surface of the pokeweed root segment so as to ensure the normal growth of pokeweed.

Soaking the base part of the sterilized pokeweed root segment into a composite rooting solution for 5min, taking out and airing the pokeweed root segment, embedding the aired pokeweed root segment into a matrix, wherein the embedding depth of the root segment is 4cm, the embedding distance is 8cm, the temperature of the matrix is controlled to be 25 ℃, and the water content of the matrix is 50%, wherein the composite rooting solution is a mixed solution of 10 parts of naphthylacetic acid 40mg/L, 10 parts of indoleacetic acid 60mg/L, 5 parts of sodium chloride 50g/L, 2 parts of sucrose 50g/L and 1 part of 75% ethanol, the matrix is a mixed matrix of perlite and turf, the mass ratio of the perlite to the turf is 3:1, the particle size of the perlite is 2mm, and the laying thickness of the perlite and turf mixed matrix is 20 cm.

Transplanting the pokeweed after 5-8 leaves grow out, digging an annular ditch with the width of 20-30 cm and the width of 50-70 cm at the periphery of a root system, transplanting the pokeweed to a pre-treated field planting plot, wherein weeds and large stones in the field planting plot are removed in advance, ploughing and leveling the field planting plot, and watering the field planting plot.

Example two

Selecting healthy pokeweed plants planted for 2 years, pruning the pokeweed plants, specifically, removing overground parts, digging out root systems, and pruning the root systems of the pokeweed plants to obtain 3cm pokeweed root segments.

Spraying carbendazim on the surface of the pretreated pokeweed root segment, wherein the carbendazim is a solution diluted by 400 times by 80% carbendazim wettable powder, and the carbendazim can effectively remove mixed bacteria on the surface of the pokeweed root segment so as to ensure the normal growth of pokeweed.

Soaking the base part of the sterilized pokeweed root segment into a composite rooting solution for 6min, taking out and airing the pokeweed root segment, embedding the aired pokeweed root segment into a matrix, wherein the embedding depth of the root segment is 5cm, the embedding distance is 9cm, the temperature of the matrix is controlled to be 27 ℃, and the water content of the matrix is 60%, wherein the composite rooting solution is a mixed solution of 8 parts of naphthylacetic acid 40mg/L, 8 parts of indoleacetic acid 60mg/L, 3 parts of sodium chloride 50g/L, 1 part of sucrose 50g/L and 1 part of 75% ethanol, the matrix is a mixed matrix of perlite and turf, the mass ratio of the perlite to the turf is 4:1, the particle size of the perlite is 4mm, and the laying thickness of the perlite and turf mixed matrix is 25 cm.

Transplanting the pokeweed after 5-8 leaves grow out, digging an annular ditch with the width of 20-30 cm and the width of 50-70 cm at the periphery of a root system, transplanting the pokeweed to a pre-treated field planting plot, wherein weeds and large stones in the field planting plot are removed in advance, ploughing and leveling the field planting plot, and watering the field planting plot.

EXAMPLE III

Selecting healthy pokeweed plants planted for 1 year, pruning the pokeweed plants, specifically, removing overground parts, digging out root systems, and pruning the root systems of the pokeweed plants to obtain pokeweed root segments of 3 cm.

Spraying carbendazim on the surface of the pretreated pokeweed root segment, wherein the carbendazim is a solution diluted by 400 times by 80% carbendazim wettable powder, and the carbendazim can effectively remove mixed bacteria on the surface of the pokeweed root segment so as to ensure the normal growth of pokeweed.

Soaking the base part of the sterilized pokeweed root segment into a composite rooting solution for 7min, taking out and airing the pokeweed root segment, embedding the aired pokeweed root segment into a matrix, wherein the embedding depth of the root segment is 6cm, the embedding distance is 10cm, the temperature of the matrix is controlled to be 305 ℃, and the water content of the matrix is 70%, wherein the composite rooting solution is a mixed solution of 12 parts of naphthylacetic acid 40mg/L, 12 parts of indoleacetic acid 60mg/L, 7 parts of sodium chloride 50g/L, 3 parts of cane sugar 50g/L and 1 part of 75% ethanol, the matrix is a mixed matrix of perlite and turf, the mass ratio of the perlite to the turf is 5:1, the particle size of the perlite is 5mm, and the laying thickness of the perlite and turf mixed matrix is 30 cm.

Transplanting the pokeweed after 5-8 leaves grow out, digging an annular ditch with the width of 20-30 cm and the width of 50-70 cm at the periphery of a root system, transplanting the pokeweed to a pre-treated field planting plot, wherein weeds and large stones in the field planting plot are removed in advance, ploughing and leveling the field planting plot, and watering the field planting plot.

The root segment propagation method of the pokeweed is simple to operate, high in propagation coefficient and high in transplanting survival rate.

To illustrate that the root segment propagation method of pokeweed according to the present invention can effectively increase the propagation rate of pokeweed, the method of the above examples 1-3 was used to test the propagation rate of pokeweed, but it should not limit the scope of the present invention.

The first group selects pokeweed to test according to the method in the first embodiment; the second group selected pokeweed for testing according to the method of example two; and selecting pokeweed for testing according to the method in the third embodiment, and finally counting the propagation indexes of each group. .

TABLE 1 Phytolacca americana root segment propagation index

As shown in Table 1, the transplanting survival rate of the first group, the second group and the third group of the root segment propagation method of the pokeweed is over 80 percent. The highest rooting rate of the first group is 88 percent, and the survival rate of the first group of transplantation is 86.8 percent higher than that of the other two groups.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the present specification and directly/indirectly applied to other related technical fields within the spirit of the present invention are included in the scope of the present invention.

Claims (10)

1. A method of propagating root segments of pokeweed, the method comprising:

pretreating Phytolacca americana to obtain Phytolacca americana root segments;

sterilizing the pretreated pokeweed root segments;

embedding the sterilized Phytolacca americana root segment in a matrix, and managing the Phytolacca americana root segment embedded in the matrix.

2. A method of propagating root segments of pokeweed according to claim 1 wherein said step of pre-treating pokeweed to obtain pokeweed root segments comprises:

selecting healthy pokeweed plants planted for 1-2 years, and pruning the pokeweed plants to 2-3 cm root segments.

3. A method of propagating root segments of pokeweed according to claim 1 wherein said step of sterilizing said pre-treated pokeweed root segments comprises:

spraying carbendazim on the surface of the pretreated pokeweed root segments.

4. A method of propagating root segments of pokeweed according to claim 3 wherein said carbendazim is a 400-fold diluted solution of 80% wettable carbendazim powder.

5. A method of propagating root segments of pokeweed according to claim 1 wherein said step of embedding the sterilized pokeweed root segments into a matrix comprises:

soaking the base of the sterilized pokeweed root segment into the composite rooting solution for 5-7 min, taking out and airing the pokeweed root segment;

embedding the dried pokeweed root segments into a matrix, wherein the embedding depth is 4-6 cm, and the embedding distance is 8-10 cm.

6. A method of root segment propagation of pokeweed according to claim 5, wherein the step of managing pokeweed root segments embedded in a matrix comprises:

the temperature of the substrate is controlled to be 25-30 ℃, and the water content of the substrate is controlled to be 50-70%.

7. The method for propagating root segments of pokeweed according to claim 5, wherein the compound rooting solution comprises a mixture of the following components by mass: 6 to 10 parts of naphthylacetic acid 40mg/L, 8 to 12 parts of indoleacetic acid 60mg/L, 3 to 7 parts of sodium chloride 50g/L, 1 to 3 parts of cane sugar 50g/L and 1 part of 75% ethanol.

8. The root segment propagation method of pokeberry root according to claim 1, characterized in that the matrix is a mixed matrix of perlite and peat, and the mass ratio of perlite to peat is 3: 1-5: 1.

9. The method for propagating root segments of pokeweed according to claim 8, wherein the perlite particle size in the matrix is 2mm to 5mm and the mixed matrix is laid down to a thickness of 20cm to 30 cm.

10. A method of root segment propagation of pokeweed according to claim 1, wherein the step of managing pokeweed root segments embedded in a matrix is followed by the further step of:

and transplanting after 5-8 leaves grow out of the pokeberry.