CN111631076A - High-yield cultivation method for grapes - Google Patents

Abstract

The invention discloses a high-yield grape cultivation method which comprises the steps of land selection and ditch filling, planting, topdressing, pesticide spraying and harvesting. The method adopts the soil conditioner, the organic fertilizer and the like to adjust the proportion components and the proportion of the soil and create the optimal soil environment for the growth and development of the grapes, the soil is favorable for water retention, fertilizer retention and root development of the grapes, the yield of the grapes can be improved, the survival rate of the grapes is high, early germination is promoted, early maturation is realized, the cultivation technology is simple, the feasibility of implementation is strong, the cultivated grapes are excellent in quality, and the fruits are large.

Description

High-yield cultivation method for grapes

Technical Field

The invention relates to a grape cultivation method, in particular to a high-yield grape cultivation method.

Background

Grapes are perennial vines, have long service life, and need to grow and bear fruits at fixed positions for many years after planting, and need large underground nutrition volume; the young and tender tissue of the grape root system is fleshy, the growth point of the grape root system extends downwards and outwards and stops advancing when meeting a knife, and in order to ensure that the grape root system occupies a larger nutrient area in the soil and reach 'deep root and luxuriant leaves', a planting ditch needs to be dug before the grape is planted.

The grape has no strict requirement on soil, but the most suitable soil has good drainage and is on sandy soil or gravelly soil with deep soil; the day and night temperature difference between sandy soil and gravelly soil is large, which is beneficial to the accumulation of plant nutrients, and berries are mature early and have high sugar content, so that the berries are most suitable for planting.

Disclosure of Invention

The invention aims to provide a high-yield cultivation method for grapes. The method can improve the yield of the grapes, and has high grape survival rate and simple cultivation technology.

The present invention is thus achieved.

A high-yield culture method for grape includes such steps as choosing land, filling ditch, planting, applying fertilizer, spraying chemical and harvesting.

The high-yield cultivation method of the grapes specifically comprises the following steps:

(1) selecting and filling the ditch, namely selecting a loam land which has flat terrain, is leeward and sunny, has loose soil texture, is convenient to drain and irrigate and has deep and fertile soil layer to build a garden; excavating planting furrows with the furrow width of 90cm and the furrow depth of 90cm, filling a layer of organic matters with the depth of 20cm at the bottom of the furrows during backfilling, and mixing soil and soil conditioner according to the proportion of 8: 1, fully mixing and then back filling the mixture into a ditch;

(2) planting, namely planting grapes on a planting ditch, planting the grapes with a plant spacing of 1.5 m and a row spacing of 5m, irrigating water once after planting, covering soil after water infiltration to prevent root systems from being exposed, covering an outer membrane with the thickness of 0.05mm by covering the inner membrane with the thickness of 0.03mm, and covering mulching films on two sides of the plants at the same time, wherein the height of the hilling soil exceeds the top 1 bud eye by 2cm to prevent the bud eyes from being drained;

(3) topdressing, namely topdressing is carried out after planting, 9-11 kg/mu of urea is applied every 10-15 days in the 4-5 month age of the seedlings, 18 kg/mu of urea is applied every 15-20 days in the 6-9 month age of the seedlings, 70 kg/mu of farmyard manure is applied every 15-20 days in the 10-11 month age of the seedlings, and 15 kg/mu of urea, 7.5 kg/mu of zinc sulfate and 6.5 kg/mu of potassium sulfate are applied every 15-20 days;

(4) spraying the pesticide: spraying 10ppm gibberellin water solution once in the initial flowering period and the full flowering period of the grapes respectively; spraying 0.2 percent of zinc sulfate solution for 15-20 days before and 15-20 days after blooming respectively; spraying 0.2% manganese sulfate solution and 0.2% sodium molybdate solution at the young fruit stage;

(5) and (5) harvesting after maturation.

In the method for cultivating the grapes with high yield, in the step (1), land is selected and filled, and the soil conditioner comprises, by weight, 120 parts of zeolite powder, 3-4 parts of nano carbon powder, 2-3 parts of sodium dodecyl benzene sulfonate, 2-4 parts of magnesium stearate, 2-3 parts of potassium chloride, 5-6 parts of talcum powder, 1-2 parts of sodium lignosulfonate, 2-3 parts of sodium selenite, 3-4 parts of borax, 1-2 parts of zinc sulfate, 2-3 parts of brown sugar, 6-8 parts of ferrous sulfate, 2-4 parts of sodium metasilicate, 1-2 parts of copper sulfate and 15-45 parts of water.

Specifically, in the high-yield grape cultivation method, in the land filling step (1), the soil conditioner is prepared from 110 parts by weight of zeolite powder, 3.5 parts by weight of nano carbon powder, 2.5 parts by weight of sodium dodecyl benzene sulfonate, 3 parts by weight of magnesium stearate, 2.5 parts by weight of potassium chloride, 5.5 parts by weight of talcum powder, 1.5 parts by weight of sodium lignosulfonate, 2.5 parts by weight of sodium selenite, 3.5 parts by weight of borax, 1.5 parts by weight of zinc sulfate, 2.5 parts by weight of brown sugar, 7 parts by weight of ferrous sulfate, 3 parts by weight of sodium metasilicate, 1.5 parts by weight of copper sulfate and 30 parts by weight of water.

In the high-yield cultivation method of the grapes, in the planting in the step (2), the outer film is a non-drop plastic film with good light transmittance, and the mulching film is a common film.

In the high-yield cultivation method of grapes, the land is selected and filled in the step (1), and the organic matter is corn stalks or wood chips.

In the high-yield cultivation method of grapes, in the step (3), the farmyard manure is prepared by mixing, by weight, 10-20 parts of decomposed chicken manure, 5-15 parts of decomposed sheep manure, 10-20 parts of decomposed cattle manure and 30-40 parts of straw powder.

The applicant has conducted extensive research for the cultivation of grapes, some of which are as follows:

experimental example 1 survival Rate investigation

1 materials and methods

1.1 materials

The vineyard of the applicant is tested to be carried out, the basic physical and chemical properties of the soil are that the pH value is 5.0, the organic matter is 23.6 percent, the total nitrogen, the available phosphorus and the available potassium are respectively 1.30, 23.58 and 88.71mg/kg, and the soil reaches the high-quality vineyard soil standard. Taking 1-year-old cutting seedlings of Kyoho grapes as test materials.

1.2 Process design

Experimental design the same vineyard was divided into 3 equal portions, which were designated as comparative group (A), inventive group (B) and blank group (C).

Comparative group (a): soil improvement is not used during soil preparation, and the rest planting methods are the same as those of the embodiment 1;

group (B) of the present invention: inventive group B was planted as in example 1;

blank group (C): planting by a conventional method.

New is built in 2019 of a test field. And after transplanting grape seedlings in 24 days after 2 months, shaping and pruning the grape seedlings at a dry height of 15cm above the ground.

1.3 measurement method

The survival rate was measured 3, 6, 9 months after transplantation.

2 results

The effect of the soil conditioner on the survival rate of the grape seedlings is shown in table 1.

TABLE 1 influence of soil amendment on survival rate of grape seedlings

As can be seen from the table, the planting method of the invention can improve the survival rate of the grapes, and the plant survival rate and the cluster survival rate are higher than those of the comparison group.

Compared with the prior art, the invention adopts the soil conditioner, the organic fertilizer and the like, adjusts the proportion components and the proportion of the soil, creates the optimal soil environment for the growth and development of the grapes, is favorable for water retention, fertilizer retention and root development of the grapes, can improve the yield of the grapes, has high grape survival rate, promotes early germination and early maturation, and has simple cultivation technology, strong feasibility, good quality of the cultivated grapes and large fruits.

Detailed Description

Example 1.

A high-yield cultivation method of grapes specifically comprises the following steps:

(1) selecting and filling the ditch, namely selecting a loam land which has flat terrain, is leeward and sunny, has loose soil texture, is convenient to drain and irrigate and has deep and fertile soil layer to build a garden; excavating planting furrows with the furrow width of 90cm and the furrow depth of 90cm, filling a layer of organic matters with the depth of 20cm at the bottom of the furrows during backfilling, and mixing soil and soil conditioner according to the proportion of 8: 1, fully mixing and then back filling the mixture into a ditch;

(2) planting, namely planting grapes on a planting ditch, planting the grapes with a plant spacing of 1.5 m and a row spacing of 5m, irrigating water once after planting, covering soil after water infiltration to prevent root systems from being exposed, covering an outer membrane with the thickness of 0.05mm by covering the inner membrane with the thickness of 0.03mm, and covering mulching films on two sides of the plants at the same time, wherein the height of the hilling soil exceeds the top 1 bud eye by 2cm to prevent the bud eyes from being drained;

(3) topdressing, namely topdressing is carried out after planting, wherein 10 kg/mu of urea is applied every 12 days at the age of 4 months of seedlings, 18 kg/mu of urea is applied every 18 days at the age of 8 months of seedlings, 70 kg/mu of farmyard manure is applied every 18 days, and 15 kg/mu of urea, 7.5 kg/mu of zinc sulfate and 6.5 kg/mu of potassium sulfate are applied every 18 days at the age of 10 months of seedlings;

(4) spraying the pesticide: spraying 10ppm gibberellin water solution once in the initial flowering period and the full flowering period of the grapes respectively; spraying 0.2% zinc sulfate solution 18 days before and 18 days after blooming respectively; spraying 0.2% manganese sulfate solution and 0.2% sodium molybdate solution at the young fruit stage;

(5) and (5) harvesting after maturation.

In the step (1), land is selected and filled, and the soil conditioner comprises, by weight, 110kg of zeolite powder, 3.5kg of nano carbon powder, 2.5kg of sodium dodecyl benzene sulfonate, 3kg of magnesium stearate, 2.5kg of potassium chloride, 5.5kg of talcum powder, 1.5kg of sodium lignosulfonate, 2.5kg of sodium selenite, 3.5kg of borax, 1.5kg of zinc sulfate, 2.5kg of brown sugar, 7kg of ferrous sulfate, 3kg of sodium metasilicate, 1.5kg of copper sulfate and 30kg of water; in the planting in the step (2), the outer film is a non-drop plastic film with good light transmittance, and the mulching film is a common film; in the land selection and ditch filling in the step (1), the organic matter is corn straws; in the topdressing in the step (3), the farmyard manure is prepared by mixing 15kg of decomposed chicken manure, 10kg of decomposed sheep manure, 15kg of decomposed cattle manure and 35kg of straw powder in parts by weight.

Example 2.

A high-yield cultivation method of grapes specifically comprises the following steps:

(1) selecting and filling the ditch, namely selecting a loam land which has flat terrain, is leeward and sunny, has loose soil texture, is convenient to drain and irrigate and has deep and fertile soil layer to build a garden; excavating planting furrows with the furrow width of 90cm and the furrow depth of 90cm, filling a layer of organic matters with the depth of 20cm at the bottom of the furrows during backfilling, and mixing soil and soil conditioner according to the proportion of 8: 1, fully mixing and then back filling the mixture into a ditch;

(2) planting, namely planting grapes on a planting ditch, planting the grapes with a plant spacing of 1.5 m and a row spacing of 5m, irrigating water once after planting, covering soil after water infiltration to prevent root systems from being exposed, covering an outer membrane with the thickness of 0.05mm by covering the inner membrane with the thickness of 0.03mm, and covering mulching films on two sides of the plants at the same time, wherein the height of the hilling soil exceeds the top 1 bud eye by 2cm to prevent the bud eyes from being drained;

(3) topdressing, namely topdressing is carried out after planting, 9 kg/mu of urea is applied every 10 days at the 5-month age of the seedlings, 18 kg/mu of urea is applied every 15 days at the 6-month age of the seedlings, 70 kg/mu of farmyard manure is applied every 15 days at the 10-month age of the seedlings, and 15 kg/mu of urea, 7.5 kg/mu of zinc sulfate and 6.5 kg/mu of potassium sulfate are applied every 15 days;

(4) spraying the pesticide: spraying 10ppm gibberellin water solution once in the initial flowering period and the full flowering period of the grapes respectively; spraying 0.2% zinc sulfate solution 15 days before and 15 days after blooming respectively; spraying 0.2% manganese sulfate solution and 0.2% sodium molybdate solution at the young fruit stage;

(5) and (5) harvesting after maturation.

In the step (1), land is selected and ditched, and the soil conditioner comprises, by weight, 100kg of zeolite powder, 3kg of nano carbon powder, 2kg of sodium dodecyl benzene sulfonate, 2kg of magnesium stearate, 2kg of potassium chloride, 5kg of talcum powder, 1kg of sodium lignosulfonate, 2kg of sodium selenite, 3kg of borax, 1kg of zinc sulfate, 2kg of brown sugar, 6kg of ferrous sulfate, 2kg of sodium metasilicate, 1kg of copper sulfate and 15kg of water; in the planting in the step (2), the outer film is a non-drop plastic film with good light transmittance, and the mulching film is a common film; in the land selection and ditch filling in the step (1), the organic matter is corn straws; in the topdressing in the step (3), the farmyard manure is prepared by mixing 10kg of decomposed chicken manure, 5kg of decomposed sheep manure, 10kg of decomposed cattle manure and 30kg of straw powder in parts by weight.

Example 3.

A high-yield cultivation method of grapes specifically comprises the following steps:

(1) selecting and filling the ditch, namely selecting a loam land which has flat terrain, is leeward and sunny, has loose soil texture, is convenient to drain and irrigate and has deep and fertile soil layer to build a garden; excavating planting furrows with the furrow width of 90cm and the furrow depth of 90cm, filling a layer of organic matters with the depth of 20cm at the bottom of the furrows during backfilling, and mixing soil and soil conditioner according to the proportion of 8: 1, fully mixing and then back filling the mixture into a ditch;

(2) planting, namely planting grapes on a planting ditch, planting the grapes with a plant spacing of 1.5 m and a row spacing of 5m, irrigating water once after planting, covering soil after water infiltration to prevent root systems from being exposed, covering an outer membrane with the thickness of 0.05mm by covering the inner membrane with the thickness of 0.03mm, and covering mulching films on two sides of the plants at the same time, wherein the height of the hilling soil exceeds the top 1 bud eye by 2cm to prevent the bud eyes from being drained;

(3) topdressing, namely topdressing is carried out after planting, 11 kg/mu of urea is applied every 15 days at the age of 5 months of seedlings, 18 kg/mu of urea is applied every 20 days at the age of 9 months of seedlings, 70 kg/mu of farmyard manure is applied every 20 days at the age of 11 months of seedlings, and 15 kg/mu of urea, 7.5 kg/mu of zinc sulfate and 6.5 kg/mu of potassium sulfate are applied every 20 days;

(4) spraying the pesticide: spraying 10ppm gibberellin water solution once in the initial flowering period and the full flowering period of the grapes respectively; spraying 0.2% zinc sulfate solution 20 days before and 20 days after blooming respectively; spraying 0.2% manganese sulfate solution and 0.2% sodium molybdate solution at the young fruit stage;

(5) and (5) harvesting after maturation.

In the land selecting and ditch filling step (1), the soil conditioner comprises, by weight, 120kg of zeolite powder, 4kg of nano carbon powder, 3kg of sodium dodecyl benzene sulfonate, 4kg of magnesium stearate, 3kg of potassium chloride, 6kg of talcum powder, 2kg of sodium lignosulfonate, 3kg of sodium selenite, 4kg of borax, 2kg of zinc sulfate, 3kg of brown sugar, 8kg of ferrous sulfate, 4kg of sodium metasilicate, 2kg of copper sulfate and 45kg of water; in the planting in the step (2), the outer film is a non-drop plastic film with good light transmittance, and the mulching film is a common film; in the step (1), land is selected and filled, and the organic matter is wood chips; in the topdressing in the step (3), the farmyard manure is prepared by mixing 20kg of decomposed chicken manure, 15kg of decomposed sheep manure, 20kg of decomposed cattle manure and 40kg of straw powder in parts by weight.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (7)

1. A high-yield cultivation method of grapes is characterized by comprising the following steps: comprises land selection and ditch filling, planting, topdressing, pesticide spraying and harvesting.

2. The method for cultivating grapes in high yield according to claim 1, wherein: the method specifically comprises the following steps:

(1) selecting and filling the ditch, namely selecting a loam land which has flat terrain, is leeward and sunny, has loose soil texture, is convenient to drain and irrigate and has deep and fertile soil layer to build a garden; excavating planting furrows with the furrow width of 90cm and the furrow depth of 90cm, filling a layer of organic matters with the depth of 20cm at the bottom of the furrows during backfilling, and mixing soil and soil conditioner according to the proportion of 8: 1, fully mixing and then back filling the mixture into a ditch;

(2) planting, namely planting grapes on a planting ditch, planting the grapes with a plant spacing of 1.5 m and a row spacing of 5m, irrigating water once after planting, covering soil after water infiltration to prevent root systems from being exposed, covering an outer membrane with the thickness of 0.05mm by covering the inner membrane with the thickness of 0.03mm, and covering mulching films on two sides of the plants at the same time, wherein the height of the hilling soil exceeds the top 1 bud eye by 2cm to prevent the bud eyes from being drained;

(3) topdressing, namely topdressing is carried out after planting, 9-11 kg/mu of urea is applied every 10-15 days in the 4-5 month age of the seedlings, 18 kg/mu of urea is applied every 15-20 days in the 6-9 month age of the seedlings, 70 kg/mu of farmyard manure is applied every 15-20 days in the 10-11 month age of the seedlings, and 15 kg/mu of urea, 7.5 kg/mu of zinc sulfate and 6.5 kg/mu of potassium sulfate are applied every 15-20 days;

(4) spraying the pesticide: spraying 10ppm gibberellin water solution once in the initial flowering period and the full flowering period of the grapes respectively; spraying 0.2 percent of zinc sulfate solution for 15-20 days before and 15-20 days after blooming respectively; spraying 0.2% manganese sulfate solution and 0.2% sodium molybdate solution at the young fruit stage;

(5) and (5) harvesting after maturation.

3. The method for cultivating grapes in high yield according to claim 2, wherein: in the step (1), land is selected and filled, and the soil conditioner comprises, by weight, 120 parts of zeolite powder 100, 3-4 parts of nano carbon powder, 2-3 parts of sodium dodecyl benzene sulfonate, 2-4 parts of magnesium stearate, 2-3 parts of potassium chloride, 5-6 parts of talcum powder, 1-2 parts of sodium lignosulfonate, 2-3 parts of sodium selenite, 3-4 parts of borax, 1-2 parts of zinc sulfate, 2-3 parts of brown sugar, 6-8 parts of ferrous sulfate, 2-4 parts of sodium metasilicate, 1-2 parts of copper sulfate and 15-45 parts of water.

4. The method for cultivating grapes in high yield according to claim 3, wherein: in the step (1), land is selected and filled, and the soil conditioner comprises the following formula of, by weight, 110 parts of zeolite powder, 3.5 parts of nano carbon powder, 2.5 parts of sodium dodecyl benzene sulfonate, 3 parts of magnesium stearate, 2.5 parts of potassium chloride, 5.5 parts of talcum powder, 1.5 parts of sodium lignosulfonate, 2.5 parts of sodium selenite, 3.5 parts of borax, 1.5 parts of zinc sulfate, 2.5 parts of brown sugar, 7 parts of ferrous sulfate, 3 parts of sodium metasilicate, 1.5 parts of copper sulfate and 30 parts of water.

5. The method for cultivating grapes in high yield according to claim 2, wherein: in the planting in the step (2), the outer film is a non-drop plastic film with good light transmittance, and the mulching film is a common film.

6. The method for cultivating grapes in high yield according to claim 2, wherein: in the step (1), land is selected and filled in the ditch, and the organic matter is corn straw or wood chips.

7. The method for cultivating grapes in high yield according to claim 2, wherein: in the topdressing in the step (3), the farmyard manure is prepared by mixing 10-20 parts of decomposed chicken manure, 5-15 parts of decomposed sheep manure, 10-20 parts of decomposed cattle manure and 30-40 parts of straw powder by weight.