CN113575307A - Multi-crop mixed planting method based on high-low planting technology - Google Patents

Abstract

The invention discloses a multi-crop mixed planting method based on a high-low planting technology, which comprises the following steps: s1: selecting a soil with appropriate soil fertility according to crops to be planted, and carrying out reclamation, soil turning and stone removal operations on the selected soil; leveling the land after removing stones, and reclaiming a high ridge and a low ridge; s2: connecting the roots of weeds generated by the reclamation, pulling up the roots, digging out pits between the high ridges and the low ridges, filling the weeds with a fertilizer into the pits, and leveling; according to the method, the high-pole crops corresponding to the high ridges and the creeping crops corresponding to the low ridges are cultivated in the planting process, so that the phenomenon of shading sunlight can be effectively avoided, the yield of the plants in the soil is improved, the soil strength adaptive to the plants is selected, the later frequent fertilization is not needed, the problems of seedling burning and poor seedling growth are solved, and the management of the planted crops is greatly facilitated.

Description

Multi-crop mixed planting method based on high-low planting technology

Technical Field

The invention relates to a planting method, in particular to a multi-crop mixed planting method based on a high-low planting technology, and belongs to the technical field of crop planting.

Background

Crops are various plants cultivated in agriculture. Including grain crops and economic crops (oil crops, vegetable crops, flowers, grasses and trees). The food is taken by people as days, the relationship between people and food is expressed, and the reasonable meal collocation can bring health to people. The growth of crops can not be separated from scientific technological production technology and novel industrially manufactured mechanical equipment capable of assisting agricultural production.

The crop planting method has various and various modes, wherein the main planting methods comprise seed cleaning, interplanting and multiple planting, and the seed cleaning comprises the following steps: the method refers to the cultivation of only one crop on one ground in one growing season: in the same growing season, two or more than two crops with the same or similar growth periods are planted on the same land at intervals according to a certain row ratio for interplanting: in one year, two or more than two crops with different growing seasons are planted on the same land in front and back, before the preceding season crops are harvested, the following season crops are sown among the rows of the preceding season crops, and the following crops are planted in a multiple way: the two crops are planted in the same land in sequence within one year, the later season crops are planted after the former season crops are harvested, the growth periods of the two season crops are not overlapped, and the planting methods better utilize the fertility in the soil, so that better yield is achieved.

However, the existing planting method has certain disadvantages in use, for example, when intercropping is carried out, crops with the same or similar growth periods are planted on the same land at intervals according to a certain row ratio, and when the crops do not grow completely, the phenomenon of shielding does not exist, when the crops grow, the phenomenon of shielding sunlight can occur, so that the yield of the shielded plants is reduced, meanwhile, the existing planting method does not select soil force adaptive to the crops, so that frequent fertilization is often needed in the later period, and the phenomena of seedling burning and poor seedling growth easily exist, and therefore, the multi-crop mixed planting method based on the high-low planting technology is provided.

Disclosure of Invention

The invention aims to provide a multi-crop mixed planting method based on a high-low planting technology, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a multi-crop mixed planting method based on a high-low planting technology comprises the following steps:

s1: selecting a land with appropriate soil strength according to crops to be planted, wherein the land is one mu of land with the space width of 2.4 meters, and carrying out reclamation, soil turning and stone removal operations on the selected land; leveling the land after removing stones, and reclaiming two high ridges and two low ridges;

s2: connecting the roots of weeds generated by the reclamation, pulling up the roots, digging out pits between the high ridges and the low ridges, filling the weeds with a fertilizer into the pits, and leveling;

s3: selecting high-stalk crop seeds to be sown and creeping crop seeds, and germinating in a greenhouse to ensure that the temperature and the humidity of the greenhouse are matched with the germination conditions of the seeds;

s4: transferring the germinated high-stem crop buds and the creeping crop buds to the high ridges and the low ridges, and spraying water and nutrient solution;

s5: when planting, spraying water and nutrient solution every 2-3 days until the germinated tall stalk crop buds and creeping crop buds completely survive and can be irrigated;

s6: and (3) fertilizing and spot-irrigating the tall-stem crop seedlings every 5-7 days, and performing spot-irrigation and fertilization on the creeping crop seedlings every 3-5 days until the crops are mature.

As a preferable embodiment of the present invention, in step S1, the soil strength detection method includes:

the first step is as follows: according to the shape of the land, selecting a diagonal sampling method or a checkerboard sampling method to sample the soil of the planting land;

the second step is as follows: the collected sample soil is sequentially and independently placed inside a fertility analyzer, and the fertility value information of each sample is analyzed through a detection head inside the fertility analyzer;

the third step: and the fertility analyzer performs summary processing on the sample data and gives planting suggestions by combining with historical planting data.

In a preferred embodiment of the present invention, in step S1, the diameter of the soil particles in the high ridges is 4-5 cm, and the diameter of the soil particles in the low ridges is less than 1 cm.

In a preferred embodiment of the present invention, in step S1, the depth of the hole is 10-15 cm, and the weeds and the fertilizer are located in a position relationship such that the weeds are located on the top layer of the fertilizer.

As a preferable technical scheme of the invention, the distance between the high ridges and the low ridges is 75cm, and the directions of the high ridges and the directions of the low ridges are both distributed in the north and south directions, so that the plants in the high ridges and the plants in the low ridges can be sufficiently illuminated.

In a preferred embodiment of the present invention, in steps S4 and S5, the ingredient list of the nutrient solution includes: bone meal, phosphate, urea, zinc element ionized water, boron element ionized water, iron element ionized water, magnesium element ionized water, molybdenum element ionized water and purified water.

As a preferred technical solution of the present invention, in step S6, the fertilizing method for fertilizing the tall stalk seedlings and fertilizing the stolon seedlings by point irrigation includes:

as a preferred technical scheme of the invention, a gap with a gap of 3 cm is dug in the range of 5cm at the root of the seedling of the tall stalk crop and the root of the stolon crop, and quantitative fertility is broadcasted.

As a preferred technical solution of the present invention, in step S6, the diseases of the tall stalk crops and the stolon crops are prevented by manually cutting dead leaves.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the multi-crop mixed planting method based on the high-low planting technology, the high ridges and the low ridges are reclaimed in the land, during planting, high-pole crops corresponding to the high ridges and creeping crops corresponding to the low ridges can be effectively prevented from blocking sunlight, the yield of land plants is improved, meanwhile, the soil force adaptive to the crops is selected, frequent later-stage fertilization is not needed, the problems of seedling burning and poor seedling growth are solved, the management of planted crops is greatly facilitated, and the method is time-saving, labor-saving and high-yield.

2. According to the multi-crop mixed planting method based on the high-low planting technology, the pit holes with the depth of 10-15 cm are dug between the high ridges and the low ridges, the fertilizer is placed firstly, then the weeds are placed, so that the fertilizer can be fully absorbed by the plants firstly, meanwhile, the effect of the fertilizer is prevented from being influenced by the first decay of the weeds, meanwhile, the distance between the high ridges and the low ridges is 60 cm, and the directions of the high ridges and the low ridges are distributed in the north-south direction, so that the plants on the high ridges and the plants on the low ridges can obtain sufficient illumination, and the crops on the low ridges can grow better.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a technical scheme of a multi-crop mixed planting method based on a high-low planting technology, which comprises the following steps:

the method comprises the following steps:

s1: selecting a land with appropriate soil strength according to crops to be planted, wherein the land is one mu of land with the space width of 2.4 meters, and carrying out reclamation, soil turning and stone removal operations on the selected land; leveling the land after removing stones, and reclaiming two high ridges and two low ridges;

s2: connecting the roots of weeds generated by the reclamation, pulling up the roots, digging out pits between the high ridges and the low ridges, filling the weeds with a fertilizer into the pits, and leveling;

s3: selecting high-stalk crop seeds to be sown and creeping crop seeds, and germinating in a greenhouse to ensure that the temperature and the humidity of the greenhouse are matched with the germination conditions of the seeds;

s4: transferring the germinated high-stem crop buds and the creeping crop buds to the high ridges and the low ridges, and spraying water and nutrient solution;

s5: when planting, spraying water and nutrient solution every 2-3 days until the germinated tall stalk crop buds and creeping crop buds completely survive and can be irrigated;

s6: and (3) fertilizing and spot-irrigating the tall-stem crop seedlings every 5-7 days, and performing spot-irrigation and fertilization on the creeping crop seedlings every 3-5 days until the crops are mature.

In step S1, the soil fertility detection method is as follows:

the first step is as follows: according to the shape of the land, selecting a diagonal sampling method or a checkerboard sampling method to sample the soil of the planting land;

the second step is as follows: the collected sample soil is sequentially and independently placed inside a fertility analyzer, and the fertility value information of each sample is analyzed through a detection head inside the fertility analyzer;

the third step: and the fertility analyzer performs summary processing on the sample data and gives planting suggestions by combining with historical planting data.

In step S6, the fertilizing method for fertilizing the tall-stem crop seedlings and fertilizing the creeping crop seedlings by point irrigation is as follows:

digging a gap of 3 cm between the root of the high-stalk crop seedling and the root of the creeping crop seedling within the range of 5cm, and spreading quantitative fertility.

In step S1, the diameter of the soil particles of the high ridges is 4-5 cm, the diameter of the soil particles of the low ridges is less than 1 cm, so that when the crops are planted, the roots of the crops can absorb more oxygen, in step S1, the depth of the pot holes is 10-15 cm, and the weeds and the fertilizers are in the position relation that the weeds are located on the upper layer of the fertilizers, so that the fertilizers can be fully absorbed by the plants firstly, meanwhile, the effect that the weeds are rotted firstly to influence the fertilizers is also avoided, the distance between the high ridges and the low ridges is 60 cm, and the orientation of the high ridges and the orientation of the low ridges are distributed in the north and south directions, so that the plants of the high ridges and the plants of the low ridges can obtain sufficient illumination, so that the crops of the low ridges can grow better, in steps S4 and S5, the composition table of the nutrient solution comprises: bone meal, phosphate, urea, zinc element ionized water, boron element ionized water, iron element ionized water, magnesium element ionized water, molybdenum element ionized water and purified water, so that the high yield of crops can be ensured, and the nutrients required by the crops can be effectively improved. In step S6, the disease of the tall stalk crops and the creeping crops is prevented by manually cutting off dead leaves of diseased leaves, so that the harm of the pesticide to fruits of the crops is reduced firstly, and the harm of the disease and insect to the crops can be prevented secondly.

When the method is used specifically, the multi-crop mixed planting method based on the high-low planting technology is characterized in that a soil with appropriate soil strength is selected according to crops to be planted, and the selected soil is subjected to reclamation, soil turning and stone removal; leveling the land after removing stones, and reclaiming a high ridge and a low ridge; connecting the roots of weeds generated by the reclamation, pulling up the roots, digging out pits between the high ridges and the low ridges, filling the weeds with a fertilizer into the pits, and leveling; selecting high-stalk crop seeds to be sown and creeping crop seeds, and germinating in a greenhouse to ensure that the temperature and the humidity of the greenhouse are matched with the germination conditions of the seeds; transferring the germinated high-stem crop buds and the creeping crop buds to the high ridges and the low ridges, and spraying water and nutrient solution; when planting, spraying water and nutrient solution every 2-3 days until the germinated tall stalk crop buds and creeping crop buds completely survive and can be irrigated; and (3) fertilizing and spot-irrigating the tall-stem crop seedlings every 5-7 days, and performing spot-irrigation and fertilization on the creeping crop seedlings every 3-5 days until the crops are mature.

As a first preferred embodiment of the present invention:

the first step is as follows: selecting corn crops and peanut crops, and selecting one mu of planting land with the width of 2.4 meters;

the second step is that: four ridge slopes are arranged at the reclaimed position on a planting land with the width of 2.4 meters, and the four ridge slopes are distributed in the north-south direction, so that sufficient sunlight is ensured;

the third step: the peanut is planted on the four low ridges, the longitudinal distance between the peanut crops is guaranteed to be 20cm, the peanuts are planted, the corn crops are planted on the four ridge slopes, and the transverse distance between the corn and the peanuts is kept to be 75 cm.

The fourth step: the yield of the corn is one thousand and eight jin, the yield of the peanut is five hundred jin, and the total yield is two thousand and three hundred jin, so that the yield per mu is greatly improved compared with single-season planting.

In the description of the present invention, it is to be understood that the indicated orientations or positional relationships are based on the orientations or positional relationships shown in the embodiments and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the indicated devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus are not to be construed as limiting the present invention.

In the present invention, unless otherwise explicitly specified or limited, for example, it may be fixedly attached, detachably attached, or integrated; can be mechanically or electrically connected; the terms may be directly connected or indirectly connected through an intermediate, and may be communication between two elements or interaction relationship between two elements, unless otherwise specifically limited, and the specific meaning of the terms in the present invention will be understood by those skilled in the art according to specific situations.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. A multi-crop mixed planting method based on a high-low planting technology is characterized by comprising the following steps:

s1: selecting a land with appropriate soil strength according to crops to be planted, wherein the land is one mu of land with the space width of 2.4 meters, and carrying out reclamation, soil turning and stone removal operations on the selected land; leveling the land after removing stones, and reclaiming two high ridges and two low ridges;

s2: connecting the roots of weeds generated by the reclamation, pulling up the roots, digging out pits between the high ridges and the low ridges, filling the weeds with a fertilizer into the pits, and leveling;

s3: selecting high-stalk crop seeds to be sown and creeping crop seeds, and germinating in a greenhouse to ensure that the temperature and the humidity of the greenhouse are matched with the germination conditions of the seeds;

s4: transferring the germinated high-stem crop buds and the creeping crop buds to the high ridges and the low ridges, and spraying water and nutrient solution;

s5: when planting, spraying water and nutrient solution every 2-3 days until the germinated tall stalk crop buds and creeping crop buds completely survive and can be irrigated;

s6: and (3) fertilizing and spot-irrigating the tall-stem crop seedlings every 5-7 days, and performing spot-irrigation and fertilization on the creeping crop seedlings every 3-5 days until the crops are mature.

2. The multi-crop mixed planting method based on high-low planting technology according to claim 1, characterized in that: in step S1, the soil strength detection method is as follows:

the first step is as follows: according to the shape of the land, selecting a diagonal sampling method or a checkerboard sampling method to sample the soil of the planting land;

the second step is as follows: the collected sample soil is sequentially and independently placed inside a fertility analyzer, and the fertility value information of each sample is analyzed through a detection head inside the fertility analyzer;

the third step: and the fertility analyzer performs summary processing on the sample data and gives planting suggestions by combining with historical planting data.

3. The multi-crop mixed planting method based on high-low planting technology according to claim 1, characterized in that: in the step S1, the diameter of the soil particles of the high ridges is 4-5 cm, and the diameter of the soil particles of the low ridges is less than 1 cm.

4. The multi-crop mixed planting method based on high-low planting technology according to claim 1, characterized in that: in the step S1, the depth of the pot hole is 10-15 cm, and the position relation between the weeds and the fertilizer is that the weeds are positioned on the upper layer of the fertilizer.

5. The multi-crop mixed planting method based on high-low planting technology according to claim 1, characterized in that: the interval between high ridge and the low ridge is 60 centimetres, just the orientation of high ridge and the orientation of low ridge are north-south distribution for the plant of high ridge and the plant of low ridge can obtain sufficient illumination.

6. The multi-crop mixed planting method based on high-low planting technology according to claim 1, characterized in that: in the steps S4 and S5, the ingredient list of the nutrient solution includes: bone meal, phosphate, urea, zinc element ionized water, boron element ionized water, iron element ionized water, magnesium element ionized water, molybdenum element ionized water and purified water.

7. The multi-crop mixed planting method based on high-low planting technology according to claim 1, characterized in that: in the step S6, the fertilizing method for fertilizing the tall-stalk crop seedlings and fertilizing the stolon-type crop seedlings by point irrigation is as follows:

digging a gap of 3 cm between the root of the high-stalk crop seedling and the root of the creeping crop seedling within the range of 5cm, and spreading quantitative fertility.

8. The multi-crop mixed planting method based on high-low planting technology according to claim 1, characterized in that: in the step S6, diseases of the tall stalk crops and the creeping crops are prevented in a mode of manually cutting dead leaves of diseased leaves.