CN110771450A - Planting method capable of improving vegetable yield - Google Patents

Abstract

The invention discloses a planting method capable of improving the yield of vegetables, which comprises the steps of land selection pretreatment, seed selection, preparation before sowing, planting, thinning and maintenance. The method comprises the steps of ploughing the soil before planting vegetables, improving soil quality by using fermentation bacteria, increasing soil bulk and organic degree by using earthworms, selecting qualified and plump seeds by using color observation and saline screening, improving germination rate of seedlings by using wood vinegar, ensuring survival rate of later planting, adding animal nutrient substrates and plant nutrient substrates during planting, enriching nutrient components of the planting field, providing favorable prerequisite conditions for quick and healthy production of plants, carrying out thinning transplanting treatment on the seedlings with poor growth vigor, improving planting density, ensuring quick growth of the seedlings with vigorous growth, carrying out heat preservation and sun shading treatment according to the temperature of the environment during maintenance to carry out sun shading protection in the fragile stage of the seedlings, and carrying out sun drying in the growing period of the seeds to increase photosynthesis and greatly improve the yield of the vegetables.

Description

Planting method capable of improving vegetable yield

Technical Field

The invention relates to the technical field of vegetable planting, in particular to a planting method capable of improving vegetable yield.

Background

Vegetables are one of essential energy sources in life of people, the nutrient substances of the vegetables mainly comprise minerals, vitamins, fibers and the like, and the higher the content of the substances is, the higher the nutritional value of the vegetables is. In addition, the moisture and dietary fiber content of vegetables are important nutritional quality indicators. Generally, vegetables with high water content and less dietary fiber have better tenderness and higher edible value. But from a health point of view dietary fiber is also an essential nutrient. The nutrients of vegetables cannot be underestimated, 90 percent of vitamin C and 60 percent of vitamin A which are necessary for human bodies are both from vegetables in the international food and agriculture organization statistics in 1990, and the vegetable contributes greatly to the health of human beings. In addition, the vegetables also contain various phytochemicals which are recognized as components beneficial to human health, such as carotenoid, dipropenyl compound, methyl sulfur compound and the like, and many vegetables also contain unique trace elements and have special health care effects on human bodies, such as lycopene in tomatoes, prostaglandin in onions and the like.

It is estimated that 20 or more billion or more people in the world today are suffering from various diseases caused by environmental pollution, and there is an increasing interest in solving the problem of generating a large amount of oxygen radicals due to environmental pollution. One of the effective solutions is to add antioxidant in food to synergistically eliminate excessive destructive active oxygen and active nitrogen. Researches find that a plurality of vitamins, mineral trace elements, related phytochemicals, enzymes and the like in vegetables are effective antioxidants, so that the vegetables are not only low-sugar, low-salt and low-fat healthy foods, but also can effectively reduce the damage of environmental pollution to human bodies, and meanwhile, the vegetables also have a preventive effect on various diseases, particularly cucumbers, and the unique taste and efficacy of the vegetables are welcomed by people.

The existing vegetable planting method is too simple, the effects of vegetable seed selection, planting land conditioning, later-period maintenance and the like are common, and the yield of vegetables needs to be improved.

An effective solution to the problems in the related art has not been proposed yet.

Disclosure of Invention

The invention aims to provide a planting method capable of improving the yield of vegetables so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a planting method for increasing the yield of vegetables includes pre-treating the selected area, selecting seeds, preparing before sowing, planting, thinning and maintaining.

Land selection pretreatment: selecting two pieces of land with proper size for turning soil one month before planting, after airing, making the soil fluffy, pouring proper amount of water into the soil to soak the soil, adding fermentation bacteria mixed liquid, then putting earthworms into the soil, and then smashing and leveling the soil surface large blocks.

Seed selection: selecting cucumber seeds, and selecting the cucumber seeds according to the appearance of the seeds as follows: the new seed skin is milk white or white, has luster, sharp burrs at the end part and tough seed coat, the seed sheets are connected with each other when being peeled, the seed kernels are put on paper and pressed into mud shape, and the paper is dyed and dyed by grease to change color; the old seed epidermis is dull, has the macula lutea, and the tip burr is blunt, and the seed coat is more fragile, is difficult for linking to each other when shelling, and flakiness when putting on paper the kernel of a seed and pressing, paper are difficult for printing and dyeing and discolour, select comparatively full seed: selecting partial new seeds according to the appearance, putting the seeds into a light saline solution to select plump seeds, wherein the ratio of salt to water of the light saline solution is 1:50, and taking the seeds which are settled to the bottom of the light saline solution out of a cool place to be dried for later use.

Preparation before sowing: soaking the prepared plump cucumber seeds in warm water at the temperature of 30 ℃ for 3-4 hours, and adding pyroligneous into the warm water when soaking the seeds, wherein the pyroligneous is added into every 100ml of warm water by 4 ml.

Planting: planting when seeds germinate, planting on the first land at intervals of every 5 cm, placing 2-3 seeds on each planting point, adding nutrient solution into the surfaces of the two pretreated lands after planting, wherein the nutrient solution is a mixture of nutrient powder and water, the nutrient powder is a mixture of bean curd residue, corn flour, rapeseed meal, soybean meal, fish meal and grass meal, laying a layer of straws above the seeds after the nutrient solution is added, the thickness of the straws is preferably 3 cm, and scattering a certain amount of clear water above the straws.

Thinning: and (3) after 5 days of planting, taking down the straws after the seeds grow into seedlings, observing the density and height of the cucumber seedlings, transplanting shorter seedlings to a second planting field for higher-density planting points, adding nutrient solution into the second planting field, and transplanting longer and higher seedlings of various planting points to shorter-growing planting points for watering.

Maintenance: the method comprises the steps of watering and fertilizing in the morning and at night every day, wherein the fertilizer can be applied by using farmyard manure, the root of each seedling is soaked by controlling the watering amount every time, straw is required to be paved for shading if the environmental temperature is higher than 28 ℃ during maintenance, the straw is required to be used for heat preservation when the temperature is lower than 18 ℃, sun drying is required when the temperature is between 18 ℃ and 28 ℃, and the cucumber can be harvested after the cucumber is mature after the maintenance for a period of time.

Further, the fermentation bacteria mixed liquor comprises yeast, photosynthetic bacteria, nitrogen-fixing bacteria and silicate bacteria, wherein the yeast is 1 x 10 ⁷1 x 10 photosynthetic bacteria/ml, the number of the photosynthetic bacteria is 1 ⁸Each/ml of the azotobacter and the silicate bacteria are all 1 x 10 ⁹One per ml.

Furthermore, the length of the earthworms is 5-7 cm, and 200 earthworms are added per square meter.

Further, the soybean curd residue, the corn flour, the rapeseed dregs, the soybean meal, the fish meal and the grass meal are mixed in equal proportion, and the proportion of the nutrition powder to the water is 1: 5.

compared with the prior art, the invention has the following beneficial effects: the method comprises the steps of ploughing the soil before cucumber planting, improving soil quality by using fermentation bacteria, increasing soil bulk and organic degree by using earthworms, selecting qualified and plump seeds by using color observation and saline screening, improving the germination rate of the seedlings by using wood vinegar, ensuring the survival rate of later planting, adding an animal nutrient medium and a plant nutrient medium during planting, enriching nutrient components of the planting field, providing favorable prerequisite conditions for quick and healthy production of plants, carrying out thinning transplanting treatment on the seedlings with poor growth vigor, improving planting density, ensuring quick growth of the seedlings with vigorous growth vigor, carrying out heat preservation and sun shading treatment according to the temperature of the environment during maintenance to carry out sun shading protection at the fragile stage of the seedlings, and carrying out sun drying in the long-term of the seed growth to increase photosynthesis so as to greatly improve the yield of the vegetables.

Detailed Description

The invention will be further described with reference to specific embodiments:

according to the embodiment of the invention, the planting method capable of improving the yield of the vegetables comprises the steps of land selection pretreatment, seed selection, preparation before sowing, planting, thinning and maintenance.

Land selection pretreatment: selecting two pieces of land with proper size for turning soil one month before planting, after airing, making the soil fluffy, pouring proper amount of water into the soil to soak the soil, adding fermentation bacteria mixed liquid, putting earthworms into the soil to improve the soil planting environment, and then smashing and leveling the soil blocks on the surface of the soil.

Seed selection: selecting cucumber seeds, and selecting the cucumber seeds according to the appearance of the seeds as follows: the new seed skin is milk white or white, has luster, sharp burrs at the end part and tough seed coat, the seed sheets are connected with each other when being peeled, the seed kernels are put on paper and pressed into mud shape, and the paper is dyed and dyed by grease to change color; the old seed epidermis is dull, has the macula lutea, and the tip burr is blunt, and the seed coat is more fragile, is difficult for linking to each other when shelling, and flakiness when putting on paper the kernel of a seed and pressing, paper are difficult for printing and dyeing and discolour, select comparatively full seed: selecting partial new seeds according to the appearance, then putting the seeds into a light saline solution to select plump seeds, wherein the ratio of salt to water of the light saline solution is 1:50, taking the seeds which are sunk to the bottom of the light saline solution out of a cool place to be dried for later use, and the good seeds improve the land utilization rate and increase the yield.

Preparation before sowing: the method comprises the steps of soaking prepared plump cucumber seeds in warm water at the temperature of 30 ℃ for 3-4 hours, and adding pyroligneous into the warm water when the seeds are soaked, wherein the pyroligneous is added in 4ml per 100ml of warm water, and the pyroligneous can improve the germination rate of the seeds.

Planting: planting when seeds germinate, planting on the first land at intervals of every 5 centimeters, placing 2-3 seeds on each planting point, adding nutrient solution into the surfaces of the two pretreated lands after planting, wherein the nutrient solution is a mixture of nutrient powder and water, the nutrient powder is a mixture of bean curd residue, corn flour, rapeseed meal, soybean meal, fish meal and grass meal, laying a layer of straw above the seeds after the nutrient solution is added, the thickness of the straw is preferably 3 centimeters, and scattering a certain amount of clear water above the straw for heat preservation and moisture preservation, so that the survival rate of the seedlings is increased.

Thinning: and after 5 days of planting, taking down the straws after the seeds grow into seedlings, observing the density condition and the height condition of the cucumber seedlings, transplanting shorter seedlings to a second planting field for higher-density planting points, adding nutrient solution into the second planting field, averagely distributing and transplanting longer and higher seedlings of various planting points to shorter planting points for watering, so that the better growing seedlings can obtain better growth conditions, and the competition is reduced.

Maintenance: the method comprises the steps of watering and fertilizing in the morning and at night every day, wherein the fertilizer can be applied by using farmyard manure, the root of each seedling is controlled to be soaked by watering amount every time, when the environmental temperature is higher than 28 ℃, straw is required to be paved for shading, when the temperature is lower than 18 ℃, the straw is required to be used for heat preservation, when the temperature is between 18 ℃ and 28 ℃, sun drying is required, and when the cucumber is maintained for a period of time, the cucumber can be harvested and used in the seedling period. The time of the seedling sunning is reduced, and the seedling sunning is carried out when the seedling grows to be 6 cm high for photosynthesis, thereby being beneficial to improving the yield.

According to the scheme of the invention, the fermentation bacteria mixed liquor comprises 1 x 10 yeast, photosynthetic bacteria, azotobacter and silicate bacteria ⁷1 x 10 photosynthetic bacteria/ml, the number of the photosynthetic bacteria is 1 ⁸Each/ml of the azotobacter and the silicate bacteria are all 1 x 10 ⁹And each ml, a large amount of zymophyte improves the soil environment of the planting field and avoids soil hardening.

According to the scheme, the earthworms are 5-7 cm in length, 200 earthworms are added per square meter, the suitable earthworm placement density improves the survival rate of the earthworms, the activity of the earthworms improves the soil environment, and the excrement of the earthworms increases the organic matters in the soil.

According to the scheme of the invention, the soybean curb residue, the corn flour, the rapeseed meal, the soybean meal, the fish meal and the grass meal are mixed in equal proportion, and the proportion of the nutrition powder to the water is 1:5, the plant nutrient medium and the animal nutrient medium are provided for plants, and the trace elements for plant growth are enriched.

Through the scheme, compared with the traditional fertilizer application planting method, the planting method capable of improving the yield of the vegetables is improved, and the statistical data are as follows;

traditional planting method (unit kilogram/mu) the planting method of the invention

5820 7360

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that various changes, modifications and substitutions can be made without departing from the spirit and scope of the invention as defined by the appended claims. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

1. A planting method capable of improving the yield of vegetables is characterized by comprising the steps of land selection pretreatment, seed selection, preparation before sowing, planting, thinning and maintenance; land selection pretreatment: selecting two pieces of land with proper size for turning soil one month before planting, after airing, making the soil fluffy, pouring proper amount of water into the soil to soak the soil, adding fermentation bacteria mixed liquor, putting earthworms into the soil, and then smashing and leveling the soil surface large blocks; seed selection: selecting vegetable seeds, such as cucumber seeds, according to the appearance of the seeds as follows: the new seed skin is milk white or white, has luster, sharp burrs at the end part and tough seed coat, the seed sheets are connected with each other when being peeled, the seed kernels are put on paper and pressed into mud shape, and the paper is dyed and dyed by grease to change color; the old seed epidermis is dull, has the macula lutea, and the tip burr is blunt, and the seed coat is more fragile, is difficult for linking to each other when shelling, and flakiness when putting on paper the kernel of a seed and pressing, paper are difficult for printing and dyeing and discolour, select comparatively full seed: selecting partial new seeds according to the appearance, putting the seeds into a light saline solution to select plump seeds, wherein the ratio of salt to water of the light saline solution is 1:50, and taking the seeds which are settled to the bottom of the light saline solution out of a cool place to be dried for later use; preparation before sowing: soaking prepared plump cucumber seeds in warm water at the temperature of 30 ℃ for 3-4 hours, and adding pyroligneous into the warm water when soaking the seeds, wherein the pyroligneous is added into every 100ml of warm water by 4 ml; planting: planting when seeds germinate, planting on a first land at intervals of every 5 centimeters, placing 2-3 seeds at each planting point, adding nutrient solution into the surfaces of the two pretreated lands after planting, wherein the nutrient solution is a mixture of nutrient powder and water, the nutrient powder is a mixture of bean curd residue, corn flour, rapeseed meal, soybean meal, fish meal and grass meal, laying a layer of straws above the seeds after the nutrient solution is added, the thickness of the straws is preferably 3 centimeters, and scattering a certain amount of clear water above the straws; thinning: after 5 days of planting, observing the growth of the seeds into seedlings, taking down the straws, observing the density and height of the cucumber seedlings, transplanting shorter seedlings to a second planting field for higher density planting points, adding nutrient solution into the second planting field, and transplanting longer and higher seedlings of various planting points to shorter growing points for watering; maintenance: the method comprises the steps of watering and fertilizing in the morning and at night every day, wherein the fertilizer can be applied by using farmyard manure, the root of each seedling is soaked by controlling the watering amount every time, straw is required to be paved for shading if the environmental temperature is higher than 28 ℃ during maintenance, the straw is required to be used for heat preservation when the temperature is lower than 18 ℃, sun drying is required when the temperature is between 18 ℃ and 28 ℃, and the cucumber can be harvested after the cucumber is mature after the maintenance for a period of time.

2. The growing method according to claim 1, wherein the mixture of fermenting bacteria comprises yeast 1 x 10, photosynthetic bacteria, azotobacter and silicate bacteria ⁷1 x 10 photosynthetic bacteria/ml, the number of the photosynthetic bacteria is 1 ⁸Each/ml of the azotobacter and the silicate bacteria are all 1 x 10 ⁹One per ml.

3. The growing method for increasing vegetable yield according to claim 1, wherein the earthworms are selected to be 5-7 cm long and 200 earthworms are added per square meter.

4. The planting method capable of improving the yield of vegetables according to claim 1, wherein the soybean curd residue, the corn flour, the rapeseed meal, the soybean meal, the fish meal and the grass meal are mixed in equal proportion, and the ratio of the nutrition powder to the water is 1: 5.