CN104396500A - Eggplant planting method - Google Patents

Abstract

The invention discloses an eggplant planting method, which comprises the following steps of seed soaking and sprouting, seed sowing and seedling breeding, land selection and arrangement, planting, top dressing in fields, water management, branch and leaf training and picking, and pest controlling. The eggplant planting method has the advantages that the method is simple, the popularization is easy, the field management is standard and scientific, the yield of eggplants is effectively improved, and the quality of the eggplants is improved; compared with the traditional planting method, the pollution on environments is greatly reduced, and the higher application value is realized.

Description

A kind of eggplant implantation methods

Technical field

The present invention relates to technical field of crop cultivation, be specifically related to a kind of eggplant implantation methods.

Background technology

Eggplant is of high nutritive value, and can not only help to maintain human acid-base balance, and eat health-care efficacy anticancer in addition, having quite high value to the rehabilitation of disease, is homely vegetables very common on dining table more, and market demand is comparatively large, and cultivated species is implanted with good prospect.But the characteristic that the traditional implantation methods of eggplant does not well utilize eggplant to grow, uses chemical fertilizer to cause soil soil property to worsen in a large number, and implantation methods is loaded down with trivial details, and work consuming is consuming time, yields poorly, of poor benefits simultaneously.Therefore, applicant improves existing eggplant implantation methods, according to the use in eggplant process of growth, the demand rule of fertilizer being designed to implantation methods and fertilizer, to obtain higher output and the fruit of high-quality, improves the economic well-being of workers and staff of plantation.

Summary of the invention

The object of the present invention is to provide a kind of implantation methods of eggplant.

The present invention adopts following technical scheme:

The implantation methods of eggplant, comprises following content:

(1) presoaking and germinating: seed is placed in 50-55 DEG C of warm water and soaks 15-20 minute, use cold water soak 3-4 hour again, dry excessive moisture afterwards, vernalization at 25-30 DEG C of temperature is placed in wet cloth parcel, pregermination procedure will make seed keep moistening, suitably stirs seed ventilation, after about 2-4 days, most seed shows money or valuables one carries unintentionally, and can sow;

(2) seeding and seedling raising: before sowing, water of first being drenched in seedbed, lid thin layer hack immediately after broadcasting, then covers straw moisturizing;

(3) selection of land and whole: select irrigation and drainage good, previous crops did not plant the plot plantation of solanaceous crops and peanut, plough deeply shine white after, mu executes 50 kilograms of lime wholely, by furrow face width 1.3 meters, the 0.3 meter of bedding of ditch bottom width; Use sufficient base manure, buried in the middle of furrow; Described base manure is guano 540-600kg/ mu, cinder 50-70kg/ mu, slow-releasing granules fertilizer 280-320kg/ mu, soil conditioner 100-140kg/ mu;

(4) field planting: when seedling grows to 5-6 sheet true leaf, seedling age 20-25 days, can transplant; Field planting specification is that duplicate rows is planted, spacing in the rows 50 centimetres; Sufficient normal root water is drenched after field planting;

(5) topdress in field: plant to be delayed after seedling to result, executes 5kg potassium sulphate fertilizer, executes once later every 5-10 days, to meet the needs that grow in conjunction with the mu that waters;

(6) water management: eggplant leaf area is large, and moisture transpiration is many, need irrigate in time, and accomplish with filling with row;

(7) training priming leaf: following for door eggplant branch removing, in order to avoid branches and leaves are too much, consume nutrient, impact ventilation; Growth plant lower blade in mid-term starts aging, should extract in batches;

(8) diseases and pests controlling: damping off, verticillium wilt, cotton disease etc. are the Major Diseases affecting eggplant production, production is noted strengthen training priming leaf, ventilation and penetrating light, removal decayed fruit, and during dispenser, blade face, blade back spray even, and if desired, medicine is sprayed in furrow face simultaneously.

Described slow-releasing granules fertilizer is made up of the raw material of following weight portion: superphosphate 4-5, ammonium chloride 3-6, bentonite 2-3, pears melon stem climing powder 4-6, diatomite 6-8, middle rough sand 5-6, sugared kaoliang stalk 25-35, ammonium molybdate 2-3, zinc sulphate 2-3, maize straw 30-40, sodium nitrate 3-4, potassium phosphate,monobasic 5-6;

Its preparation method is for being placed on compost fermentation 15-20 days in soak by bentonite, the climing powder of pears melon stem, diatomite, middle rough sand, sugared kaoliang stalk, maize straw mixing; gained fermentation materials is dried and mixes with superphosphate, ammonium chloride, zinc sulphate, ammonium molybdate, potassium phosphate,monobasic and grind into powder; particle is made by comminutor; gained particle is wrapped up after sodium nitrate being heated to 310-330 DEG C of melting again; after cooling, particle is mixed with leftover materials, then with lignin, coating is carried out to gained particle.

Described soil conditioner is made up of the raw material of following weight portion: crushed crude pearlite 3-4, coconut shell flour mince 5-6, fulvic acid copper 4-6, fulvic acid iron 4-6, fulvic acid manganese 4-6, fulvic acid zinc 4-6, fulvic acid calcium 4-6, button mushroom dregs 6-8, bracteal leaf of corn 20-30, luffa 15-20, ochre powder 2-3, palm silk 6-8, vermiculite power 3-5, medical stone powder 4-6;

Its preparation method is by crushed crude pearlite, ochre powder, vermiculite power, medical stone powder fully mixes, and ball milling becomes 80-120 object fine-powder for subsequent use, then by bracteal leaf of corn, luffa, the mixing of palm silk to be placed in boiling water heating and to hot plate 30-60 minute, obtains hotting plate material, after elimination moisture again with gained mixed-powder above, coconut shell flour minces, button mushroom dregs mixes, by gained mixed material Water spray to the 50-60% of material maximum water holding capacity, add EM microbial inoculum again and carry out fermentation process, every 6-9 days, once throwing is turned over to bank in fermentation process, to increase oxygen and to control fermentation heap temperature between 40-60 DEG C, turn over throwing and namely complete fermentation 3-4 time, by gained tunning low temperature drying, and grind to form fine powder, by this fine powder and fulvic acid copper, fulvic acid iron, fulvic acid manganese, fulvic acid zinc, fulvic acid calcium powder mixes, and is passed into by mixed-powder in rotary drum granulator and carries out agglomeration granulation, finally utilize the natural rosin of heating and melting to carry out gained particle outer field coated, complete post-drying and cool.

Beneficial effect of the present invention:

Central idea of the present invention be according in eggplant process of growth to the feature of nutritive element demand, namely need early stage fertile less, later stage increases, later stage is large to potash fertilizer demand simultaneously, design slowly-releasing base manure targetedly, ensure that the nutrient energy sufficient supplies of eggplant growth full-time phase, reduce the waste of initial stage fertilizer simultaneously, save planting cost.

The implantation methods of eggplant of the present invention is simple, and be easy to promote, the management regulation science in field, effectively can improve the output of eggplant, increases the quality of eggplant, greatly reduces the pollution to environment simultaneously, have very high use value compared to traditional cultivation method.

Soil conditioner contains the organic matter of a large amount of medium trace element, raw material such as collocation bracteal leaf of corn, button mushroom dregs etc. effectively can increase the fertility of soil, the interpolation of crushed crude pearlite, vermiculite power etc. can improve the structure of soil, keep soil from packing together, increase the permeability of soil, to the physicochemical character of soil, there is good conditioning effect.

embodiment:

(1) presoaking and germinating: seed is placed in 55 DEG C of warm water and soaks 20 minutes, use cold water soak again 4 hours, dry excessive moisture afterwards, vernalization at 30 DEG C of temperature is placed in wet cloth parcel, pregermination procedure will make seed keep moistening, suitably stirs seed ventilation, after about 3 days, most seed shows money or valuables one carries unintentionally, and can sow;

(2) seeding and seedling raising: before sowing, water of first being drenched in seedbed, lid thin layer hack immediately after broadcasting, then covers straw moisturizing;

(3) selection of land and whole: select irrigation and drainage good, previous crops did not plant the plot plantation of solanaceous crops and peanut, plough deeply shine white after, mu executes 50 kilograms of lime wholely, by furrow face width 1.3 meters, the 0.3 meter of bedding of ditch bottom width; Use sufficient base manure, buried in the middle of furrow; Described base manure is guano 570kg/ mu, cinder 60kg/ mu, slow-releasing granules fertilizer 300kg/ mu, soil conditioner 120kg/ mu;

(4) field planting: when seedling grows to 5 true leaves, seedling age 22 days, can transplant; Field planting specification is that duplicate rows is planted, spacing in the rows 50 centimetres; Sufficient normal root water is drenched after field planting;

(5) topdress in field: plant to be delayed after seedling to result, executes 5kg potassium sulphate fertilizer, executes once later every 7 days, to meet the needs that grow in conjunction with the mu that waters;

(6) water management: eggplant leaf area is large, and moisture transpiration is many, need irrigate in time, and accomplish with filling with row;

(7) training priming leaf: following for door eggplant branch removing, in order to avoid branches and leaves are too much, consume nutrient, impact ventilation; Growth plant lower blade in mid-term starts aging, should extract in batches;

(8) diseases and pests controlling: damping off, verticillium wilt, cotton disease etc. are the Major Diseases affecting eggplant production, production is noted strengthen training priming leaf, ventilation and penetrating light, removal decayed fruit, and during dispenser, blade face, blade back spray even, and if desired, medicine is sprayed in furrow face simultaneously.

Described slow-releasing granules fertilizer is made up of the raw material of following weight portion: superphosphate 4, ammonium chloride 5, bentonite 2, the climing powder of pears melon stem 5, diatomite 7, middle rough sand 5, sugared kaoliang stalk 30, ammonium molybdate 2, zinc sulphate 2, maize straw 35, sodium nitrate 3, potassium phosphate,monobasic 5;

Its preparation method is for being placed in soak compost fermentation 17 days by bentonite, the climing powder of pears melon stem, diatomite, middle rough sand, sugared kaoliang stalk, maize straw mixing; gained fermentation materials is dried and mixes with superphosphate, ammonium chloride, zinc sulphate, ammonium molybdate, potassium phosphate,monobasic and grind into powder; particle is made by comminutor; gained particle is wrapped up after sodium nitrate being heated to 320 DEG C of meltings again; after cooling, particle is mixed with leftover materials, then with lignin, coating is carried out to gained particle.

Described soil conditioner is made up of the raw material of following weight portion: crushed crude pearlite 3, coconut shell flour mince 5, fulvic acid copper 5, fulvic acid iron 5, fulvic acid manganese 5, fulvic acid zinc 5, fulvic acid calcium 5, button mushroom dregs 7, bracteal leaf of corn 25, luffa 18, ochre powder 2, palm silk 7, vermiculite power 4, medical stone powder 5;

Its preparation method is by crushed crude pearlite, ochre powder, vermiculite power, medical stone powder fully mixes, and ball milling becomes 100 object fine-powders for subsequent use, then by bracteal leaf of corn, luffa, the mixing of palm silk to be placed in boiling water heating and to hot plate 45 minutes, obtains hotting plate material, after elimination moisture again with gained mixed-powder above, coconut shell flour minces, button mushroom dregs mixes, by gained mixed material Water spray to 55% of material maximum water holding capacity, add EM microbial inoculum again and carry out fermentation process, every 7 days, once throwing is turned over to bank in fermentation process, to increase oxygen and to control fermentation heap temperature between 40-60 DEG C, turn over throwing and namely complete fermentation 4 times, by gained tunning low temperature drying, and grind to form fine powder, by this fine powder and fulvic acid copper, fulvic acid iron, fulvic acid manganese, fulvic acid zinc, fulvic acid calcium powder mixes, and is passed into by mixed-powder in rotary drum granulator and carries out agglomeration granulation, finally utilize the natural rosin of heating and melting to carry out gained particle outer field coated, complete post-drying and cool.

The implantation methods per mu yield of tomato of the present invention reaches 5500 kilograms, and damage by disease and insect incidence significantly reduces, and mixed economy is worth raising more than 10%.

Claims (3)

1. an eggplant implantation methods, is characterized in that comprising following aspect:

(1) presoaking and germinating: seed is placed in 50-55 DEG C of warm water and soaks 15-20 minute, use cold water soak 3-4 hour again, dry excessive moisture afterwards, vernalization at 25-30 DEG C of temperature is placed in wet cloth parcel, pregermination procedure will make seed keep moistening, suitably stirs seed ventilation, after about 2-4 days, most seed shows money or valuables one carries unintentionally, and can sow;

(2) seeding and seedling raising: before sowing, water of first being drenched in seedbed, lid thin layer hack immediately after broadcasting, then covers straw moisturizing;

(3) selection of land and whole: select irrigation and drainage good, previous crops did not plant the plot plantation of solanaceous crops and peanut, plough deeply shine white after, mu executes 50 kilograms of lime wholely, by furrow face width 1.3 meters, the 0.3 meter of bedding of ditch bottom width; Use sufficient base manure, buried in the middle of furrow; Described base manure is guano 540-600kg/ mu, cinder 50-70kg/ mu, slow-releasing granules fertilizer 280-320kg/ mu, soil conditioner 100-140kg/ mu;

(4) field planting: when seedling grows to 5-6 sheet true leaf, seedling age 20-25 days, can transplant; Field planting specification is that duplicate rows is planted, spacing in the rows 50 centimetres; Sufficient normal root water is drenched after field planting;

(5) topdress in field: plant to be delayed after seedling to result, executes 5kg potassium sulphate fertilizer, executes once later every 5-10 days, to meet the needs that grow in conjunction with the mu that waters;

(6) water management: eggplant leaf area is large, and moisture transpiration is many, need irrigate in time, and accomplish with filling with row;

(7) training priming leaf: following for door eggplant branch removing, in order to avoid branches and leaves are too much, consume nutrient, impact ventilation; Growth plant lower blade in mid-term starts aging, should extract in batches;

(8) diseases and pests controlling: damping off, verticillium wilt, cotton disease etc. are the Major Diseases affecting eggplant production, production is noted strengthen training priming leaf, ventilation and penetrating light, removal decayed fruit, and during dispenser, blade face, blade back spray even, and if desired, medicine is sprayed in furrow face simultaneously.

2. eggplant implantation methods according to claim 1, is characterized in that described slow-releasing granules fertilizer is made up of the raw material of following weight portion: superphosphate 4-5, ammonium chloride 3-6, bentonite 2-3, pears melon stem climing powder 4-6, diatomite 6-8, middle rough sand 5-6, sugared kaoliang stalk 25-35, ammonium molybdate 2-3, zinc sulphate 2-3, maize straw 30-40, sodium nitrate 3-4, potassium phosphate,monobasic 5-6;

Its preparation method is for being placed on compost fermentation 15-20 days in soak by bentonite, the climing powder of pears melon stem, diatomite, middle rough sand, sugared kaoliang stalk, maize straw mixing; gained fermentation materials is dried and mixes with superphosphate, ammonium chloride, zinc sulphate, ammonium molybdate, potassium phosphate,monobasic and grind into powder; particle is made by comminutor; gained particle is wrapped up after sodium nitrate being heated to 310-330 DEG C of melting again; after cooling, particle is mixed with leftover materials, then with lignin, coating is carried out to gained particle.

3. eggplant implantation methods according to claim 1, is characterized in that described soil conditioner is made up of the raw material of following weight portion: crushed crude pearlite 3-4, coconut shell flour mince 5-6, fulvic acid copper 4-6, fulvic acid iron 4-6, fulvic acid manganese 4-6, fulvic acid zinc 4-6, fulvic acid calcium 4-6, button mushroom dregs 6-8, bracteal leaf of corn 20-30, luffa 15-20, ochre powder 2-3, palm silk 6-8, vermiculite power 3-5, medical stone powder 4-6;

Its preparation method is by crushed crude pearlite, ochre powder, vermiculite power, medical stone powder fully mixes, and ball milling becomes 80-120 object fine-powder for subsequent use, then by bracteal leaf of corn, luffa, the mixing of palm silk to be placed in boiling water heating and to hot plate 30-60 minute, obtains hotting plate material, after elimination moisture again with gained mixed-powder above, coconut shell flour minces, button mushroom dregs mixes, by gained mixed material Water spray to the 50-60% of material maximum water holding capacity, add EM microbial inoculum again and carry out fermentation process, every 6-9 days, once throwing is turned over to bank in fermentation process, to increase oxygen and to control fermentation heap temperature between 40-60 DEG C, turn over throwing and namely complete fermentation 3-4 time, by gained tunning low temperature drying, and grind to form fine powder, by this fine powder and fulvic acid copper, fulvic acid iron, fulvic acid manganese, fulvic acid zinc, fulvic acid calcium powder mixes, and is passed into by mixed-powder in rotary drum granulator and carries out agglomeration granulation, finally utilize the natural rosin of heating and melting to carry out gained particle outer field coated, complete post-drying and cool.