CN113711833A - Method for cultivating raspberries in open field - Google Patents

Abstract

The invention discloses an open field raspberry cultivation method, which comprises the following steps: selecting open land or gentle slope land which is wet and exposed to the sun and has the pH value of 6.2-7.0, mixing a proper amount of degradable water-absorbing fiber braided balls per mu, and finely ploughing and loosening the soil; digging planting holes according to the specification that the planting distance is about 50cm and the hole depth is 50-60 cm, and forming drainage ditches with the width of 20cm along the gentle slope direction around the planting holes; selecting robust transplanted raspberry seedlings without diseases and insect pests and mechanical damage, stretching the roots of the raspberry seedlings, and soaking the raspberry seedlings in a soaking agent for 1-1.5 hours; laying a mixture of self-made compound fertilizer particles and mellow soil in each planting pit, wherein the thickness of the mixture is 25-30 cm, then planting the soaked raspberry seedlings in the planting pits, expanding root systems, carrying out soil cultivation while lifting the seedlings, treading the seedlings with feet, then watering thoroughly, and sealing the dibbles with the mellow soil; and carrying out reasonable water and fertilizer management, pest control, pruning and bud thinning until harvesting. The invention can obviously improve the survival rate of raspberry seedlings.

Description

Method for cultivating raspberries in open field

Technical Field

The invention relates to the technical field of raspberry planting, in particular to an open-field raspberry cultivation method.

Background

Raspberry, also called raspberry, mountain throw, milk bubble, seedling spreading bubble, March bubble, dragon boat bubble, barley bubble, Daierci, thorn, steamed bun, spinach, Gaokoubo, has rich nutrition, root, stem, leaf, fruit can be used as medicine, has the effects of astringing essence, tonifying kidney, supporting yang, improving eyesight, relieving alcoholism, quenching thirst, eliminating phlegm and removing toxic substances, is mainly used for treating kidney deficiency, spermatorrhea, drunkenness, erysipelas and other symptoms, has sweet fruit taste, contains sugar, malic acid, citric acid, vitamin C and the like, and can be eaten for raw, jam preparation and wine brewing.

At present, the problems of low seedling survival rate and low raspberry yield generally exist in the open field raspberry cultivation technology in China.

Disclosure of Invention

In order to solve the problems, the invention provides an open field raspberry cultivation method, which can obviously improve the survival rate of raspberry seedlings and the yield of raspberries.

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

an open field cultivation method for raspberries comprises the following steps:

s1, selecting open lands or gentle slopes which are sunny, deep in soil and have the pH value of 6.2-7.0, spraying a biological bactericide Serenadesoil on each mu of land, after deep ploughing, insolating for 3-5 days, mixing with a proper amount of degradable water-absorbing fiber braided balls, and finely ploughing and loosening the soil;

s2, selecting robust transplanted raspberry seedlings without diseases, insect pests and mechanical damage, stretching the roots of the raspberry seedlings, and soaking the raspberry seedlings in a soaking agent for 1-1.5 hours; the soaking agent is prepared by mixing the following components in parts by weight:

2 parts of amino-oligosaccharin, 0.6 part of moonlight, 3 parts of 0.6-0.8% potassium permanganate solution, 2 parts of 0.1% thidiazuron soluble solution and 200 parts of water;

s3, digging planting holes according to the specifications that the planting distance is about 50cm and the hole depth is 50-60 cm, and opening drainage ditches with the width of 20cm along the gentle slope direction around the planting holes;

s4, paving a mixture of self-made compound fertilizer particles and mellow soil in each planting pit, wherein the thickness of the mixture is 25-30 cm, then placing the soaked raspberry seedlings in the planting pits, enabling root systems to stretch, raising the seedlings while earthing up, compacting by feet, watering thoroughly, and sealing a pit by using the mellow soil;

s5, after field planting, erecting a pillar every 5-8 m along the planting row, pulling 2-3 iron wires upwards on the pillar, wherein the distance between every two iron wires is 30-40 cm, and forming a fence-wall-shaped, T-shaped or V-shaped bracket;

s6, performing reasonable water and fertilizer management, pest control, pruning and bud thinning until harvesting.

Furthermore, the degradable water-absorbing fiber braided ball is a hollow net-shaped ball formed by braiding the degradable water-absorbing fiber, and the particle size is about 30 meshes.

The self-made compound fertilizer particles are prepared from decomposed farmyard manure, polysaccharide polypeptide biological potassium, a liquid slow-release nitrogen fertilizer, n-butyl phosphoroamino-levulinic acid sodium, seaweed essence and decomposed waste bacterium rods.

Further, the weight portions are as follows: the self-made compound fertilizer particles are prepared from 50-60 parts of decomposed farmyard manure, 10-20 parts of polysaccharide polypeptide biological potassium, 20-30 parts of liquid slow-release nitrogen fertilizer, 3-5 parts of sodium n-butyl phosphoroamidate, 4-6 parts of seaweed essence and 10-20 parts of decomposed waste bacteria sticks.

Further, during preparation, firstly, quickly drying the decomposed farmyard manure and the decomposed waste fungus sticks in a drying box at 300 ℃ respectively until the water content is lower than 1%, grinding, mixing and stirring the polysaccharide polypeptide biological potassium and the liquid slow-release nitrogen fertilizer uniformly, pressing into sheets with the diameter of 5mm, and drying until the water content is lower than 10% to obtain the biological fertilizer.

Further, in the step S1, 3-5 kg of degradable water-absorbing fiber braided balls are mixed per mu.

The invention can obviously improve the survival rate of the raspberry seedlings to about 98 percent, and the yield per mu is improved by more than 1.93 times compared with the traditional raspberry open field cultivation method.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the invention is further described in detail below with reference to examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1

An open field cultivation method for raspberries comprises the following steps:

s1, selecting open lands or gentle slope lands which are sunny, have deep soil and pH value of 6.2-7.0, spraying 0.5kg of biological bactericide Serenadesoil per mu, after deep ploughing, insolating for 3-5 days, mixing 3kg of degradable water-absorbing fiber braided balls per mu, and finely ploughing and loosening the soil;

s2, selecting strong and healthy transplanted raspberry seedlings without diseases and insect pests and mechanical damage, spreading the roots of the raspberry seedlings, and soaking the raspberry seedlings in a soaking agent for 1 hour; the soaking agent is prepared by mixing the following components in parts by weight:

2 parts of amino-oligosaccharin, 0.6 part of moonlight, 3 parts of 0.6% potassium permanganate solution, 2 parts of 0.1% thidiazuron soluble solution and 200 parts of water;

s3, digging planting holes according to the specifications that the planting distance is about 50cm and the hole depth is 50-60 cm, and opening drainage ditches with the width of 20cm along the gentle slope direction around the planting holes;

s4, paving a mixture of self-made compound fertilizer particles and mellow soil in each planting pit, wherein the thickness of the mixture is 25-30 cm, then placing the soaked raspberry seedlings in the planting pits, enabling root systems to stretch, raising the seedlings while earthing up, compacting by feet, watering thoroughly, and sealing a pit by using the mellow soil;

s5, after field planting, erecting a pillar every 5-8 m along the planting row, pulling 2-3 iron wires upwards on the pillar, wherein the distance between every two iron wires is 30-40 cm, and forming a fence-wall-shaped, T-shaped or V-shaped bracket;

s6, performing reasonable water and fertilizer management, pest control, pruning and bud thinning until harvesting.

In this embodiment, the degradable water-absorbent fiber woven ball is a hollow mesh ball woven from degradable water-absorbent fibers, and the particle size is about 30 meshes.

In the present embodiment, the following components are in parts by weight: the self-made compound fertilizer particles are prepared from 50 parts of decomposed farmyard manure, 10 parts of polysaccharide polypeptide biological potassium, 20 parts of liquid slow-release nitrogen fertilizer, 3 parts of n-butyl phosphoroamino-levulinic acid sodium, 4 parts of seaweed extract and 10 parts of decomposed waste bacteria sticks. During preparation, firstly, the decomposed farmyard manure and the decomposed waste fungus sticks are respectively placed in a drying box at 300 ℃ for quick drying until the water content is lower than 1%, after grinding, the polysaccharide polypeptide biological potassium and the liquid slow-release nitrogen fertilizer are mixed and stirred uniformly, pressed into thin slices with the diameter of 5mm, and dried until the water content is lower than 10%, and the biological potassium slow-release nitrogen fertilizer is obtained.

Example 2

An open field cultivation method for raspberries comprises the following steps:

s1, selecting open lands or gentle slope lands which are sunny, deep in soil and have the pH value of 6.2-7.0, spraying 1kg of biological bactericide Serenadesoil per mu, after deep ploughing, insolating for 3-5 days, mixing 5kg of degradable water-absorbing fiber braided balls per mu, and finely ploughing and loosening the soil;

s2, selecting strong and healthy transplanted raspberry seedlings without diseases and insect pests and mechanical damage, spreading the roots of the raspberry seedlings, and soaking the raspberry seedlings in a soaking agent for 1.5 hours; the soaking agent is prepared by mixing the following components in parts by weight:

2 parts of amino-oligosaccharin, 0.6 part of moonlight, 3 parts of 0.8% potassium permanganate solution, 2 parts of 0.1% thidiazuron soluble solution and 200 parts of water;

s3, digging planting holes according to the specifications that the planting distance is about 50cm and the hole depth is 50-60 cm, and opening drainage ditches with the width of 20cm along the gentle slope direction around the planting holes;

s4, paving a mixture of self-made compound fertilizer particles and mellow soil in each planting pit, wherein the thickness of the mixture is 25-30 cm, then placing the soaked raspberry seedlings in the planting pits, enabling root systems to stretch, raising the seedlings while earthing up, compacting by feet, watering thoroughly, and sealing a pit by using the mellow soil;

s5, after field planting, erecting a pillar every 5-8 m along the planting row, pulling 2-3 iron wires upwards on the pillar, wherein the distance between every two iron wires is 30-40 cm, and forming a fence-wall-shaped, T-shaped or V-shaped bracket;

s6, performing reasonable water and fertilizer management, pest control, pruning and bud thinning until harvesting.

In this embodiment, the degradable water-absorbent fiber woven ball is a hollow mesh ball woven from degradable water-absorbent fibers, and the particle size is about 30 meshes.

In the present embodiment, the following components are in parts by weight: the self-made compound fertilizer particles are prepared from 60 parts of decomposed farmyard manure, 20 parts of polysaccharide polypeptide biological potassium, 30 parts of liquid slow-release nitrogen fertilizer, 5 parts of n-butyl phosphoroamino-levulinic acid sodium, 6 parts of seaweed essence and 20 parts of decomposed waste bacteria sticks. During preparation, firstly, the decomposed farmyard manure and the decomposed waste fungus sticks are respectively placed in a drying box at 300 ℃ for quick drying until the water content is lower than 1%, after grinding, the polysaccharide polypeptide biological potassium and the liquid slow-release nitrogen fertilizer are mixed and stirred uniformly, pressed into thin slices with the diameter of 5mm, and dried until the water content is lower than 10%, and the biological potassium slow-release nitrogen fertilizer is obtained.

Example 3

An open field cultivation method for raspberries comprises the following steps:

s1, selecting open lands or gentle slope lands which are sunny, have deep soil and have the pH value of 6.2-7.0, spraying 0.75kg of biological bactericide Serenadesoil per mu, after deep ploughing, insolating for 3-5 days, mixing 4 kg of degradable water-absorbing fiber braided balls per mu, and finely ploughing and loosening the soil;

s2, selecting strong and healthy transplanted raspberry seedlings without diseases and insect pests and mechanical damage, spreading the roots of the raspberry seedlings, and soaking the raspberry seedlings in a soaking agent for 1.25 hours; the soaking agent is prepared by mixing the following components in parts by weight:

2 parts of amino-oligosaccharin, 0.6 part of moonlight, 3 parts of 0.7% potassium permanganate solution, 2 parts of 0.1% thidiazuron soluble solution and 200 parts of water;

s3, digging planting holes according to the specifications that the planting distance is about 50cm and the hole depth is 50-60 cm, and opening drainage ditches with the width of 20cm along the gentle slope direction around the planting holes;

s4, paving a mixture of self-made compound fertilizer particles and mellow soil in each planting pit, wherein the thickness of the mixture is 25-30 cm, then placing the soaked raspberry seedlings in the planting pits, enabling root systems to stretch, raising the seedlings while earthing up, compacting by feet, watering thoroughly, and sealing a pit by using the mellow soil;

s5, after field planting, erecting a pillar every 5-8 m along the planting row, pulling 2-3 iron wires upwards on the pillar, wherein the distance between every two iron wires is 30-40 cm, and forming a fence-wall-shaped, T-shaped or V-shaped bracket;

s6, performing reasonable water and fertilizer management, pest control, pruning and bud thinning until harvesting.

In this embodiment, the degradable water-absorbent fiber woven ball is a hollow mesh ball woven from degradable water-absorbent fibers, and the particle size is about 30 meshes.

In the present embodiment, the following components are in parts by weight: the self-made compound fertilizer particles are prepared from 55 parts of decomposed farmyard manure, 15 parts of polysaccharide polypeptide biological potassium, 25 parts of liquid slow-release nitrogen fertilizer, 4 parts of n-butyl phosphoroamino-levulinic acid sodium, 5 parts of seaweed essence and 15 parts of decomposed waste bacteria sticks. During preparation, firstly, the decomposed farmyard manure and the decomposed waste fungus sticks are respectively placed in a drying box at 300 ℃ for quick drying until the water content is lower than 1%, after grinding, the polysaccharide polypeptide biological potassium and the liquid slow-release nitrogen fertilizer are mixed and stirred uniformly, pressed into a thin slice (the thickness is about 1 mm) with the diameter of 5mm, and dried until the water content is lower than 10%, and the biological potassium slow-release nitrogen fertilizer is obtained.

And (3) field test:

test materials: a test raspberry variety is Hongbaozhu, 400 robust transplanted raspberry seedlings which have the same growth vigor, are free of diseases and insect pests and mechanical damage and are randomly selected from the same planting field and are randomly divided into an experimental group 1, an experimental group 2, an experimental group 3 and a control group, wherein the experimental group 1, the experimental group 2 and the experimental group 3 respectively adopt the cultivation methods of the embodiment 1, the embodiment 2 and the embodiment 3, the control group adopts a traditional raspberry open field cultivation method, and four groups of water and fertilizer management, disease and pest control and pruning and bud thinning treatment after planting adopt the same treatment method.

As a result: the nursery stock survival rates of the experiment group 1, the experiment group 2 and the experiment group 3 are respectively as follows: 98 percent and 99 percent; 99 percent, and the survival rate of the nursery stock of the control group is 82 percent; the acre yield of the experimental group 1, the experimental group 2 and the experimental group 3 is obviously higher than that of the control group and is respectively 1.93 times, 1.97 times and 2.01 times of that of the control group.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and these improvements and modifications should also be construed as the protection scope of the present invention.

Claims (6)

1. An open field cultivation method for raspberries is characterized by comprising the following steps:

s1, selecting open lands or gentle slopes which are sunny, deep in soil and have the pH value of 6.2-7.0, spraying a biological bactericide Serenadesoil on each mu of land, after deep ploughing, insolating for 3-5 days, mixing with a proper amount of degradable water-absorbing fiber braided balls, and finely ploughing and loosening the soil;

s2, selecting robust transplanted raspberry seedlings without diseases, insect pests and mechanical damage, stretching the roots of the raspberry seedlings, and soaking the raspberry seedlings in a soaking agent for 1-1.5 hours; the soaking agent is prepared by mixing the following components in parts by weight:

2 parts of amino-oligosaccharin, 0.6 part of moonlight, 3 parts of 0.6-0.8% potassium permanganate solution, 2 parts of 0.1% thidiazuron soluble solution and 200 parts of water;

s3, digging planting holes according to the specifications that the planting distance is about 50cm and the hole depth is 50-60 cm, and opening drainage ditches with the width of 20cm along the gentle slope direction around the planting holes;

s4, paving a mixture of self-made compound fertilizer particles and mellow soil in each planting pit, wherein the thickness of the mixture is 25-30 cm, then placing the soaked raspberry seedlings in the planting pits, enabling root systems to stretch, raising the seedlings while earthing up, compacting by feet, watering thoroughly, and sealing a pit by using the mellow soil;

s5, after field planting, erecting a pillar every 5-8 m along the planting row, pulling 2-3 iron wires upwards on the pillar, wherein the distance between every two iron wires is 30-40 cm, and forming a fence-wall-shaped, T-shaped or V-shaped bracket;

s6, performing reasonable water and fertilizer management, pest control, pruning and bud thinning until harvesting.

2. The method for open field cultivation of raspberry of claim 1, wherein said degradable water-absorbing fiber braided ball is a hollow netted ball braided by degradable water-absorbing fiber, and the particle size is about 30 mesh.

3. The method for open field cultivation of raspberry of claim 1, wherein the homemade compound fertilizer granules are prepared from decomposed farmyard manure, polysaccharide polypeptide biological potassium, liquid slow-release nitrogen fertilizer, n-butyl phosphoroamidolevulinic acid sodium, seaweed essence, and decomposed waste mushroom sticks.

4. The method for open field cultivation of raspberries as claimed in claim 3, wherein the proportions by weight of: the self-made compound fertilizer particles are prepared from 50-60 parts of decomposed farmyard manure, 10-20 parts of polysaccharide polypeptide biological potassium, 20-30 parts of liquid slow-release nitrogen fertilizer, 3-5 parts of sodium n-butyl phosphoroamidate, 4-6 parts of seaweed essence and 10-20 parts of decomposed waste bacteria sticks.

5. An open field raspberry cultivation method as claimed in claim 3, wherein the preparation method comprises placing decomposed farmyard manure and decomposed waste mushroom sticks in a drying oven at 300 deg.C, respectively, rapidly drying until the water content is less than 1%, grinding, mixing polysaccharide polypeptide biological potassium and liquid slow-release nitrogen fertilizer, stirring, pressing into 5mm thin slices, and drying until the water content is less than 10%.

6. The method of claim 1, wherein in step S1, 3-5 kg of degradable water-absorbing fiber woven balls are mixed per mu.