CN113906962A - Crop seed quality improvement method based on quantum technology - Google Patents

Abstract

The invention discloses a crop seed quality improvement method based on quantum technology, which comprises the following steps: selecting a producing area, configuring planting base soil, selecting varieties, cultivating seedlings, cultivating and transplanting, periodically sampling and detecting, selecting high-quality second-generation seeds, performing first recovery treatment on a first producing area, cultivating second-generation seeds, transplanting second-generation seeds, selecting third-generation seeds, performing second recovery treatment on the first producing area, cultivating and transplanting third-generation seeds, and selecting improved seeds. The invention belongs to the field of crop seed improvement, and has the following beneficial effects: the mode of adopting many generations to cultivate has increased the improvement time, utilizes the place of production of multiple pH valve when cultivating for the first time simultaneously, can guarantee that final seed has good stress resistance, and the improvement is more thorough, utilizes quantum resonance's mode to carry out the environmental improvement and handles, can guarantee the better growth of seed, has improved the improvement effect of seed.

Description

Crop seed quality improvement method based on quantum technology

Technical Field

The invention relates to the field of crop seed improvement, in particular to a crop seed quality improvement method based on a quantum technology.

Background

The crops refer to various plants cultivated in agriculture, including grain crops and economic crops (oil crops, vegetable crops, flowers, grasses and trees), wherein the edible crops are one of the sources of basic food for human beings, and the crop seeds refer to planting materials or propagation materials of the crops, and are the sources and fruits of the crops. In order to improve the yield of crops and the like, it is necessary to use high-quality crop seeds, and therefore it is necessary to start from the source. In the existing method for obtaining high-quality crop seeds, second-generation high-quality seeds are simply obtained, but the second-generation high-quality seeds have general stress resistance and too few breeding generations, bad genes of the seeds cannot be effectively improved, and the obtained seeds have certain limitations after being planted.

Disclosure of Invention

The invention mainly aims to provide a crop seed quality improvement method based on quantum technology, which can effectively solve the problems in the background technology.

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

a crop seed quality improvement method based on quantum technology comprises the following steps:

s1, selecting a land with neutral soil as a first producing area, selecting a slightly acidic soil as a second producing area, and selecting a slightly alkaline soil as a third producing area;

s2, configuring planting base soil, namely respectively configuring the planting base soil beside the first producing area, the second producing area and the third producing area after the step S1 is completed, and flattening the planting base soil to form a seedbed;

s3, selecting varieties, and selecting the varieties with high quality, disease resistance and stress resistance as primary seeds of crops when the step S2 is carried out;

s4, seedling cultivation, namely, the primary seeds prepared in the step S3 are scattered on three seedbeds beside the production places, the primary seeds are covered with 1-2cm thick base soil after being scattered, and water and fertilizer are regularly sprayed on the seedbeds;

s5, cultivating and transplanting, wherein after the crop seedlings grow to a proper height, the seedlings on the seedbed are transplanted to a corresponding production area, watering and fertilizing are carried out regularly after the seedlings are transplanted, the growth environment of crop plants is improved by using quantum resonance, and meanwhile, the situation of pollination between plants in different production areas in different places is avoided;

s6, carrying out regular sampling detection, after the step S5 is finished, regularly sampling crop plants in a production area, and detecting and analyzing the growth condition of the sampled plants by using a detector;

s7, selecting high-quality second-generation seeds, screening the seeds after the crops are completely mature, selecting the seeds with full and round grains as the second-generation seeds, wherein the second-generation seeds selected from the three production places are respectively the seeds with the common type, the acid-resistant type and the alkali-resistant type;

s8, first recovery processing of the first habitat, after the completion of the step S7, the recovery processing of the neutral soil habitat is carried out, and the neutral soil habitat is recovered to the same state as that of the first cultivation;

s9, cultivating second-generation seeds, after S8 is finished, configuring planting base soil, sowing the three second-generation seeds obtained in the S7 on the planting base soil in a mixed mode, covering 1-2cm of base soil, watering and fertilizing at regular intervals;

s10, transplanting second-generation seeds, transplanting seedlings to the first-generation place after first recovery after the seedlings of the second-generation seeds grow to a certain height, and watering and fertilizing at regular intervals;

s11, selecting third-generation seeds, pollinating the plants with different stress resistance to obtain mature seeds after the crops growing on the second-generation seeds are mature, screening the crop seeds, selecting high-quality seeds as the third-generation seeds, and enabling the obtained seeds to have acid resistance and alkali resistance at the same time;

s12, performing second recovery processing on the first producing area, and after the step S11 is completed, performing recovery processing on the neutral soil producing area and preparing planting base soil;

s13, cultivating and transplanting third-generation seeds, namely sowing the third-generation seeds on base soil, applying fertilizer and watering at regular intervals, transplanting seedlings to a production place after the seedlings grow to a certain height, and observing the growth condition of the plants at regular intervals;

and S14, selecting improved seeds, selecting seeds yielded by the crops after the crops grown by the third generation seeds are mature, and selecting high-quality and full seeds in the seeds as the final improved seeds.

Preferably, in step S1, a soft and easily drained land is selected as a producing area, and three producing areas are located in the same temperature and humidity environment without mutual interference.

Preferably, in the step S2, when the planting foundation soil is prepared, it is ensured that no large cohesive soil or rocks are present in the foundation soil, and a small amount of base fertilizer is added when the foundation soil is prepared.

Preferably, when the cultivation transplantation is performed in step S5, watering is performed once a day and fertilization is performed once every three days in the initial stage after the transplantation, and watering is performed once every three days and fertilization is performed once every five days after the plant survives.

Preferably, in step S6, when the growth condition of the plant is detected and analyzed, the root, stem, neck and top of the plant sample are sampled, and the water content, weight and nitrogen and phosphorus content are detected after sampling.

Preferably, in the step S7, the step S11 and the step S14, when selecting seeds, in addition to selecting full and round seeds, the moisture content of the seeds is required to reach the standard, and the seeds with the moisture content reaching the standard are easier to grow.

Preferably, in the step S8 and the step S12, when the No. one habitat is subjected to the recovery processing, the ph of the soil in the habitat is first detected, neutralized soil is disposed according to the ph detection result, and the neutralized soil is mixed with the soil in the No. one habitat to obtain neutral soil.

Preferably, in the step S8 and the step S12, when the No. one habitat is subjected to the recovery processing, the ph of the soil in the habitat is first detected, neutralized soil is disposed according to the ph detection result, and the neutralized soil is mixed with the soil in the No. one habitat to obtain neutral soil.

Compared with the prior art, the invention has the following beneficial effects: by adopting a multi-generation cultivation mode and simultaneously utilizing production areas of various pH values during the first cultivation, the final seeds can be ensured to have good stress resistance, and the improvement is more thorough; the environment is improved by quantum resonance, so that the seeds can grow better and the improvement effect of the seeds is improved.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example 1

A crop seed quality improvement method based on quantum technology comprises the following steps:

s1, selecting a land with neutral soil as a first producing area, selecting a slightly acidic soil as a second producing area, and selecting a slightly alkaline soil as a third producing area;

s2, configuring planting base soil, namely respectively configuring the planting base soil beside the first producing area, the second producing area and the third producing area after the step S1 is completed, and flattening the planting base soil to form a seedbed;

s3, selecting varieties, and selecting the varieties with high quality, disease resistance and stress resistance as primary seeds of crops when the step S2 is carried out;

s4, seedling cultivation, namely, the primary seeds prepared in the step S3 are scattered on three seedbeds beside the production places, the primary seeds are covered with 1-2cm thick base soil after being scattered, and water and fertilizer are regularly sprayed on the seedbeds;

s5, cultivating and transplanting, wherein after the crop seedlings grow to a proper height, the seedlings on the seedbed are transplanted to a corresponding production area, watering and fertilizing are carried out regularly after the seedlings are transplanted, the growth environment of crop plants is improved by using quantum resonance, and meanwhile, the situation of pollination between plants in different production areas in different places is avoided;

s6, carrying out regular sampling detection, after the step S5 is finished, regularly sampling crop plants in a production area, and detecting and analyzing the growth condition of the sampled plants by using a detector;

s7, selecting high-quality second-generation seeds, screening the seeds after the crops are completely mature, selecting the seeds with full and round grains as the second-generation seeds, wherein the second-generation seeds selected from the three production places are respectively the seeds with the common type, the acid-resistant type and the alkali-resistant type;

s8, first recovery processing of the first habitat, after the completion of the step S7, the recovery processing of the neutral soil habitat is carried out, and the neutral soil habitat is recovered to the same state as that of the first cultivation;

s9, cultivating second-generation seeds, after S8 is finished, configuring planting base soil, sowing the three second-generation seeds obtained in the S7 on the planting base soil in a mixed mode, covering 1-2cm of base soil, watering and fertilizing at regular intervals;

s10, transplanting second-generation seeds, transplanting seedlings to the first-generation place after first recovery after the seedlings of the second-generation seeds grow to a certain height, and watering and fertilizing at regular intervals;

s11, selecting third-generation seeds, pollinating the plants with different stress resistance to obtain mature seeds after the crops growing on the second-generation seeds are mature, screening the crop seeds, selecting high-quality seeds as the third-generation seeds, and enabling the obtained seeds to have acid resistance and alkali resistance at the same time;

s12, performing second recovery processing on the first producing area, and after the step S11 is completed, performing recovery processing on the neutral soil producing area and preparing planting base soil;

s13, cultivating and transplanting third-generation seeds, namely sowing the third-generation seeds on base soil, applying fertilizer and watering at regular intervals, transplanting seedlings to a production place after the seedlings grow to a certain height, and observing the growth condition of the plants at regular intervals;

and S14, selecting improved seeds, selecting seeds yielded by the crops after the crops grown by the third generation seeds are mature, and selecting high-quality and full seeds in the seeds as the final improved seeds.

Wherein, in step S1, selecting soft and conveniently drained land as a production place, three production places are under the same temperature and humidity environment, and simultaneously, the three production places are not interfered with each other, in step S2, when the planting base soil is configured, large blocks of bonding soil or stones are ensured not to exist in the base soil, a small amount of base fertilizer is added when the base soil is configured, in the step S5, when the cultivation transplantation is carried out, watering is carried out once a day in the initial stage after the transplantation, fertilizing is carried out once every three days, after the plant survives, watering is carried out once every three days, fertilizing is carried out once every five days, in step S6, in the detection and analysis of the growth condition of the plant, sampling is carried out on the root, the rod part, the neck part and the top part of the sample plant, after the sampling, the water content, the weight content and the nitrogen and phosphorus content are respectively detected, in step S7, step S11 and step S14, when the seeds are selected, in addition to selecting full and round seeds, the water content of the seeds is required to reach the standard, the seeds with the water content reaching the standard are required to grow more easily, in the step S8 and the step S12, when the first producing area is subjected to recovery processing, the pH value of soil in the producing area is detected firstly, neutralized soil is prepared according to the pH value detection result, the neutralized soil is mixed with the soil in the first producing area to obtain neutral soil, in the step S8 and the step S12, when the first producing area is subjected to recovery processing, the pH value of the soil in the producing area is detected firstly, the neutralized soil is prepared according to the pH value detection result, and the neutralized soil is mixed with the soil in the first producing area to obtain the neutral soil.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims (8)

1. A crop seed quality improvement method based on quantum technology is characterized by comprising the following steps:

s1, selecting a land with neutral soil as a first producing area, selecting a slightly acidic soil as a second producing area, and selecting a slightly alkaline soil as a third producing area;

s2, configuring planting base soil, namely respectively configuring the planting base soil beside the first producing area, the second producing area and the third producing area after the step S1 is completed, and flattening the planting base soil to form a seedbed;

s3, selecting varieties, and selecting the varieties with high quality, disease resistance and stress resistance as primary seeds of crops when the step S2 is carried out;

s4, seedling cultivation, namely, the primary seeds prepared in the step S3 are scattered on three seedbeds beside the production places, the primary seeds are covered with 1-2cm thick base soil after being scattered, and water and fertilizer are regularly sprayed on the seedbeds;

s5, cultivating and transplanting, wherein after the crop seedlings grow to a proper height, the seedlings on the seedbed are transplanted to a corresponding production area, watering and fertilizing are carried out regularly after the seedlings are transplanted, the growth environment of crop plants is improved by using quantum resonance, and meanwhile, the situation of pollination between plants in different production areas in different places is avoided;

s6, carrying out regular sampling detection, after the step S5 is finished, regularly sampling crop plants in a production area, and detecting and analyzing the growth condition of the sampled plants by using a detector;

s7, selecting high-quality second-generation seeds, screening the seeds after the crops are completely mature, selecting the seeds with full and round grains as the second-generation seeds, wherein the second-generation seeds selected from the three production places are respectively the seeds with the common type, the acid-resistant type and the alkali-resistant type;

s8, first recovery processing of the first habitat, after the completion of the step S7, the recovery processing of the neutral soil habitat is carried out, and the neutral soil habitat is recovered to the same state as that of the first cultivation;

s9, cultivating second-generation seeds, after S8 is finished, configuring planting base soil, sowing the three second-generation seeds obtained in the S7 on the planting base soil in a mixed mode, covering 1-2cm of base soil, watering and fertilizing at regular intervals;

s10, transplanting second-generation seeds, transplanting seedlings to the first-generation place after first recovery after the seedlings of the second-generation seeds grow to a certain height, and watering and fertilizing at regular intervals;

s11, selecting third-generation seeds, pollinating the plants with different stress resistance to obtain mature seeds after the crops growing on the second-generation seeds are mature, screening the crop seeds, selecting high-quality seeds as the third-generation seeds, and enabling the obtained seeds to have acid resistance and alkali resistance at the same time;

s12, performing second recovery processing on the first producing area, and after the step S11 is completed, performing recovery processing on the neutral soil producing area and preparing planting base soil;

s13, cultivating and transplanting third-generation seeds, namely sowing the third-generation seeds on base soil, applying fertilizer and watering at regular intervals, transplanting seedlings to a production place after the seedlings grow to a certain height, and observing the growth condition of the plants at regular intervals;

and S14, selecting improved seeds, selecting seeds yielded by the crops after the crops grown by the third generation seeds are mature, and selecting high-quality and full seeds in the seeds as the final improved seeds.

2. The method for improving the quality of crop seeds based on quantum technology as claimed in claim 1, wherein: in the step S1, a soft and easily drained land is selected as a place of origin, and three places of origin are located in the same temperature and humidity environment without mutual interference.

3. The method for improving the quality of crop seeds based on quantum technology as claimed in claim 1, wherein: in the step S2, when the planting foundation soil is prepared, it is ensured that no large cohesive soil or rocks exist in the foundation soil, and a small amount of base fertilizer is added when the foundation soil is prepared.

4. The method for improving the quality of crop seeds based on quantum technology as claimed in claim 1, wherein: when the cultivation and transplantation are carried out in the step S5, watering is carried out once a day and fertilizing is carried out once every three days in the initial stage after transplantation, and watering is carried out once every three days and fertilizing is carried out once every five days after the plants survive.

5. The method for improving the quality of crop seeds based on quantum technology as claimed in claim 1, wherein: in step S6, when the growth condition of the plant is detected and analyzed, the root, stem, neck and top of the plant are sampled, and the water content, weight and nitrogen and phosphorus content are detected after sampling.

6. The method for improving the quality of crop seeds based on quantum technology as claimed in claim 1, wherein: in the step S7, the step S11 and the step S14, when selecting seeds, the moisture content of the seeds is required to reach the standard in addition to selecting full and round seeds, and the seeds with the moisture content reaching the standard are easier to grow.

7. The method for improving the quality of crop seeds based on quantum technology as claimed in claim 1, wherein: in the step S8 and the step S12, when the first place is restored, the soil ph of the place is first detected, neutralized soil is prepared according to the ph detection result, and the neutralized soil is mixed with the soil in the first place to obtain neutral soil.

8. The method for improving the quality of crop seeds based on quantum technology as claimed in claim 1, wherein after the step S14 is completed, the improved seeds are detected and analyzed, and the analysis result is recorded for the later-stage continuous improvement and comparison.