CN112219648A - Strawberry seedling culture method - Google Patents

Abstract

The invention discloses a strawberry seedling raising method, which belongs to the technical field of planting and comprises the following steps: (1) seed selection and preparation, (2) cleaning treatment, (3) soaking treatment, (4) irradiation treatment, (5) heat preservation treatment, and (6) sowing and seedling treatment. The seedling culture method has the advantages of simple overall process, reasonable matching of the steps, strong growth capacity of the cultured strawberry seedlings and good comprehensive quality.

Description

Strawberry seedling culture method

Technical Field

The invention belongs to the technical field of planting, and particularly relates to a strawberry seedling raising method.

Background

In recent years, the strawberry industry in China develops rapidly, obvious economic benefits and social benefits are brought to main production areas, and in some areas, the strawberry planting industry also becomes the economic support industry in local rural areas. By 2015, the strawberry cultivation area in China reaches 15 million hectares, the total yield is more than 200 million tons throughout the country, and the exported strawberries per year exceed 12 million tons, so that the strawberry cultivation area becomes the largest strawberry production and processing export country in the world.

The natural germination rate of strawberry seeds is generally 30-40%, the emergence rate is low, the emergence is irregular, some strawberry seeds germinate 10 days after sowing, and some strawberry seeds germinate 40 days or even 90 days, so that the difficulty is increased for seedling management including seedling transplanting, labor and time are wasted, and the seeds need to be subjected to pre-sowing treatment. At present, the seed pre-sowing treatment has various modes, such as medicament treatment, ultrasonic treatment and the like, although the operation can better improve the germination rate of the seeds, the improvement of the overall performance of the seedlings is still relatively deficient, and the specific operation method and parameters of the method cannot be universal due to the difference of seed varieties and the difference of improvement purposes, so that the research of the technical personnel in the field is directed on how to cooperate with the existing technical means to play a corresponding role. Therefore, the cultivation of strawberry seedlings with excellent comprehensive performance is extremely urgent.

Disclosure of Invention

The invention aims to provide a strawberry seedling raising method.

The technical purpose of the invention is realized by the following technical scheme:

a strawberry seedling raising method comprises the following steps:

(1) seed selection and preparation:

selecting healthy strawberry fruits without diseases, insect pests and mechanical damage, peeling, washing off the pulp, fishing out and drying to obtain strawberry seeds for later use;

(2) cleaning treatment:

firstly, putting strawberry seeds into salt water for soaking and cleaning for 8-10 min, taking out the strawberry seeds after the soaking and cleaning, washing the strawberry seeds with clear water for one time, and airing the strawberry seeds for later use;

(3) soaking treatment:

soaking the strawberry seeds treated in the step (2) in a modified soaking solution for 1-1.5 hours, and taking out for later use;

(4) irradiation treatment:

placing the strawberry seeds treated in the step (3) into an irradiation box for irradiation treatment, and taking out for later use after 8-10 min;

(5) and (3) heat preservation treatment:

putting the strawberry seeds treated in the step (4) into a constant temperature box for heat preservation and germination acceleration, and taking out for later use after treatment for 5-7 h;

(6) sowing and seedling raising treatment:

and (4) sowing the strawberry seeds treated in the step (5) in a seedling tray, and then controlling the environmental temperature to be 24-27 ℃ and the relative humidity to be 75-80% until 3-4 true leaves grow out from the seedlings, so that the seedling is finished.

Further, the mass fraction of the salt solution in the step (2) is 3-5%.

Further, the modified soak solution in the step (3) comprises the following components in corresponding content: 230-250 ppm of prohexadione calcium, 100-160 ppm of brassinolide, 0.25-0.3 wt% of rare earth nitrate, 5-8 wt% of glucose, 1-3 wt% of urea, 0.8-1.5 wt% of potassium fulvate, 70-90 mg/L of zeatin, 120-130 mg/L of flurtamone, 40-60 mg/L of potassium nitrate, 80-90 mg/L of boric acid and the balance of water.

Preferably, the modified soak solution comprises the following components in parts by weight: 240ppm of prohexadione calcium, 130ppm of brassinolide, 0.28 wt% of nitric acid rare earth salt, 7 wt% of glucose, 2 wt% of urea, 1 wt% of fulvic acid potassium, 80mg/L of zeatin, 125mg/L of flurtamone, 50mg/L of potassium nitrate, 85mg/L of boric acid and the balance of water.

Further, the irradiation treatment in the step (4) is carried out by⁶⁰And (4) performing Co-gamma ray irradiation treatment.

Furthermore, the irradiation dose rate is controlled to be 5.0-5.5 Gy/min during irradiation treatment.

Further, the temperature in the incubator in the step (5) is 24-27 ℃.

Compared with the prior art, the invention has the following advantages:

the invention provides a strawberry seedling method, which changes the seedling treatment mode of strawberries, particularly carries out special treatment on strawberry seeds, and concretely uses a specially-made modified soak solution to carry out soaking treatment firstly, wherein the modified soak solution contains a large amount of large, medium and trace nutrient components, which is beneficial to improving the nutrition in the seedsThe content of nutrient substances lays a good material foundation for the subsequent seed germination, the added brassinolide and the rare earth nitrate can enhance the characteristics of drought resistance, cold resistance, temperature resistance and the like of strawberry plants, and then the characteristics are carried out⁶⁰Co-gamma ray irradiation treatment is utilized to improve the activity and the germination survival rate of the seeds, and the treatment effect of the modified soaking solution can be synergistically improved, so that the weather resistance and the growth characteristic of strawberry seedlings are effectively improved, and the development quality of the seedlings is enhanced. The seedling culture method has the advantages of simple overall process, reasonable matching of the steps, strong growth capacity of the cultured strawberry seedlings, good comprehensive quality and great popularization and application values.

Detailed Description

Example 1

A strawberry seedling raising method comprises the following steps:

(1) seed selection and preparation:

selecting healthy strawberry fruits without diseases, insect pests and mechanical damage, peeling, washing off the pulp, fishing out and drying to obtain strawberry seeds for later use;

(2) cleaning treatment:

firstly, putting strawberry seeds into salt water for soaking and cleaning for 8min, taking out the strawberry seeds after the soaking and cleaning, washing the strawberry seeds with clear water for one time, and airing the strawberry seeds for later use;

(3) soaking treatment:

soaking the strawberry seeds treated in the step (2) in a modified soaking solution for 1 hour, and taking out for later use;

(4) irradiation treatment:

placing the strawberry seeds treated in the step (3) into an irradiation box for irradiation treatment, and taking out for later use after 8 min;

(5) and (3) heat preservation treatment:

putting the strawberry seeds treated in the step (4) into a constant temperature box for heat preservation and germination acceleration, and taking out for later use after treatment for 5 hours;

(6) sowing and seedling raising treatment:

and (4) sowing the strawberry seeds treated in the step (5) in a seedling tray, and then controlling the environmental temperature to be 24 ℃ and the relative humidity to be 75% until 3-4 true leaves grow out from the seedlings, so that the seedling is finished.

The mass fraction of the salt solution in the step (2) is 3%.

The modified soak solution in the step (3) comprises the following components in parts by weight: 230ppm of prohexadione calcium, 100ppm of brassinolide, 0.25 wt% of nitric acid rare earth salt, 5 wt% of glucose, 1 wt% of urea, 0.8 wt% of potassium fulvate, 70mg/L of zeatin, 120mg/L of flurtamone, 40mg/L of potassium nitrate, 80mg/L of boric acid and the balance of water.

The irradiation treatment in the step (4) is carried out by⁶⁰And (4) performing Co-gamma ray irradiation treatment.

The dosage rate of irradiation is controlled to be 5.0Gy/min during irradiation treatment.

The temperature in the incubator in the step (5) is 24 ℃.

Example 2

A strawberry seedling raising method comprises the following steps:

(1) seed selection and preparation:

selecting healthy strawberry fruits without diseases, insect pests and mechanical damage, peeling, washing off the pulp, fishing out and drying to obtain strawberry seeds for later use;

(2) cleaning treatment:

firstly, putting strawberry seeds into salt water for soaking and cleaning for 9min, taking out the strawberry seeds after the soaking and cleaning, washing the strawberry seeds with clear water for one time, and airing the strawberry seeds for later use;

(3) soaking treatment:

soaking the strawberry seeds treated in the step (2) in a modified soaking solution for 1.3h, and taking out for later use;

(4) irradiation treatment:

placing the strawberry seeds treated in the step (3) into an irradiation box for irradiation treatment, and taking out for later use after 9 min;

(5) and (3) heat preservation treatment:

putting the strawberry seeds treated in the step (4) into a constant temperature box for heat preservation and germination acceleration, and taking out for later use after treatment for 6 hours;

(6) sowing and seedling raising treatment:

and (4) sowing the strawberry seeds treated in the step (5) in a seedling tray, and then controlling the environmental temperature to be 25 ℃ and the relative humidity to be 78% until 3-4 true leaves grow out from the seedlings, so that the seedling is finished.

The mass fraction of the salt solution in the step (2) is 4%.

The modified soak solution in the step (3) comprises the following components in parts by weight: 240ppm of prohexadione calcium, 130ppm of brassinolide, 0.28 wt% of nitric acid rare earth salt, 7 wt% of glucose, 2 wt% of urea, 1 wt% of fulvic acid potassium, 80mg/L of zeatin, 125mg/L of flurtamone, 50mg/L of potassium nitrate, 85mg/L of boric acid and the balance of water.

The irradiation treatment in the step (4) is carried out by⁶⁰And (4) performing Co-gamma ray irradiation treatment.

The irradiation dose rate is controlled to be 5.3Gy/min during irradiation treatment.

The temperature in the incubator in the step (5) is 26 ℃.

Example 3

A strawberry seedling raising method comprises the following steps:

(1) seed selection and preparation:

selecting healthy strawberry fruits without diseases, insect pests and mechanical damage, peeling, washing off the pulp, fishing out and drying to obtain strawberry seeds for later use;

(2) cleaning treatment:

firstly, putting strawberry seeds into salt water for soaking and cleaning for 10min, taking out the strawberry seeds after the soaking and cleaning, washing the strawberry seeds with clear water for one time, and airing the strawberry seeds for later use;

(3) soaking treatment:

soaking the strawberry seeds treated in the step (2) in a modified soaking solution for 1.5h, and taking out for later use;

(4) irradiation treatment:

placing the strawberry seeds treated in the step (3) into an irradiation box for irradiation treatment, and taking out for later use after 10 min;

(5) and (3) heat preservation treatment:

putting the strawberry seeds treated in the step (4) into a constant temperature box for heat preservation and germination acceleration, and taking out for later use after treatment for 7 hours;

(6) sowing and seedling raising treatment:

and (4) sowing the strawberry seeds treated in the step (5) in a seedling tray, and then controlling the environmental temperature to be 27 ℃ and the relative humidity to be 80% until 3-4 true leaves grow out from the seedlings, so that the seedling is finished.

The mass fraction of the salt solution in the step (2) is 5%.

The modified soak solution in the step (3) comprises the following components in parts by weight: 250ppm of prohexadione calcium, 160ppm of brassinolide, 0.3 wt% of nitric acid rare earth salt, 8 wt% of glucose, 3 wt% of urea, 1.5 wt% of potassium fulvate, 90mg/L of zeatin, 130mg/L of flurtamone, 60mg/L of potassium nitrate, 90mg/L of boric acid and the balance of water.

The irradiation treatment in the step (4) is carried out by⁶⁰And (4) performing Co-gamma ray irradiation treatment.

The irradiation dose rate is controlled to be 5.5Gy/min during irradiation treatment.

The temperature in the incubator in the step (5) was 27 ℃.

Comparative example 1

This comparative example 1 is different from example 2 only in that the immersion treatment in step (3) is omitted, except that the other steps of the method are the same.

Comparative example 2

This comparative example 2 is different from example 2 only in that the irradiation treatment of step (4) is omitted, except that the process steps are the same.

Comparative example 3

This comparative example 3 is different from example 2 only in that the immersion treatment and the irradiation treatment (4) in the step (3) are omitted, except that the process steps are the same.

In order to compare the effects of the present invention, a strawberry of "shuofeng" variety is selected as an experimental subject, the seedling raising treatment is performed by the methods corresponding to the above example 2, comparative example 1, comparative example 2, and comparative example 3, and the growth data is counted, which is specifically shown in table 1 below:

TABLE 1

	Percentage of germination (%)	The seedling growing time (sky)
			Example 2	98.8	12
Comparative example 1	83.1	20
			Comparative example 2	80.4	17
Comparative example 3	63.5	28

As can be seen from the above table 1, the treatment method of the invention can effectively and significantly improve the germination rate of strawberry seeds, obviously shorten the seedling culture time, and is beneficial to the efficient culture of commercialized strawberry seedlings.

Claims (7)

1. A strawberry seedling raising method is characterized by comprising the following steps:

(1) seed selection and preparation:

selecting healthy strawberry fruits without diseases, insect pests and mechanical damage, peeling, washing off the pulp, fishing out and drying to obtain strawberry seeds for later use;

(2) cleaning treatment:

firstly, putting strawberry seeds into salt water for soaking and cleaning for 8-10 min, taking out the strawberry seeds after the soaking and cleaning, washing the strawberry seeds with clear water for one time, and airing the strawberry seeds for later use;

(3) soaking treatment:

soaking the strawberry seeds treated in the step (2) in a modified soaking solution for 1-1.5 hours, and taking out for later use;

(4) irradiation treatment:

placing the strawberry seeds treated in the step (3) into an irradiation box for irradiation treatment, and taking out for later use after 8-10 min;

(5) and (3) heat preservation treatment:

putting the strawberry seeds treated in the step (4) into a constant temperature box for heat preservation and germination acceleration, and taking out for later use after treatment for 5-7 h;

(6) sowing and seedling raising treatment:

and (4) sowing the strawberry seeds treated in the step (5) in a seedling tray, and then controlling the environmental temperature to be 24-27 ℃ and the relative humidity to be 75-80% until 3-4 true leaves grow out from the seedlings, so that the seedling is finished.

2. A strawberry seedling raising method according to claim 1, wherein the saline solution in the step (2) is 3-5% by mass.

3. A seedling raising method for strawberries according to claim 1, wherein the modified soaking solution in the step (3) comprises the following components in corresponding content: 230-250 ppm of prohexadione calcium, 100-160 ppm of brassinolide, 0.25-0.3 wt% of rare earth nitrate, 5-8 wt% of glucose, 1-3 wt% of urea, 0.8-1.5 wt% of potassium fulvate, 70-90 mg/L of zeatin, 120-130 mg/L of flurtamone, 40-60 mg/L of potassium nitrate, 80-90 mg/L of boric acid and the balance of water.

4. A seedling raising method for strawberries according to claim 3, wherein the modified soaking solution comprises the following components in percentage by weight: 240ppm of prohexadione calcium, 130ppm of brassinolide, 0.28 wt% of nitric acid rare earth salt, 7 wt% of glucose, 2 wt% of urea, 1 wt% of fulvic acid potassium, 80mg/L of zeatin, 125mg/L of flurtamone, 50mg/L of potassium nitrate, 85mg/L of boric acid and the balance of water.

5. A method for raising strawberry seedlings according to claim 1, wherein the irradiation treatment in the step (4) is performed by⁶⁰And (4) performing Co-gamma ray irradiation treatment.

6. A strawberry seedling raising method according to claim 5, wherein the irradiation rate is controlled to be 5.0-5.5 Gy/min during irradiation treatment.

7. A method for raising strawberry seedlings according to claim 1, wherein the temperature in the incubator in the step (5) is 24-27 ℃.