CN111789007B

CN111789007B - Rice and duck co-breeding organic rice yield-increasing planting method

Info

Publication number: CN111789007B
Application number: CN202010772997.8A
Authority: CN
Inventors: 周爱峰; 刘龙; 屠人凤
Original assignee: Anhui Xinfu Xiangtian Ecological Agriculture Co ltd
Current assignee: Anhui Xinfu Xiangtian Ecological Agriculture Co ltd
Priority date: 2020-08-04
Filing date: 2020-08-04
Publication date: 2022-03-25
Anticipated expiration: 2040-08-04
Also published as: CN111789007A

Abstract

The invention discloses a rice and duck co-cultivation organic rice yield-increasing planting method, which comprises the steps of land preparation, base fertilizer application, seed spreading, fertilizer addition and land turning, wherein firstly, land is marked in a land preparation mode, pits are dug along the lines, base fertilizer is added into the pits and filled with soil piles, the base fertilizer is convenient for the primary growth of plants of the organic rice, after the soil piles are filled and laid flat, an isolation bracket is arranged at the upper side, isolation slide bars are arranged at certain intervals, organic rice seeds are sown or directly transplanted in soil layers between every two adjacent isolation slide bars, then soil at the other side is filled above the seeds or the rice seedlings, finally, the additional fertilizer is added, furrows are dug at the two sides for planting the organic rice, a flowing water source is introduced, the influence of the impact force of water flow on the rice plants is greatly reduced through the fixation of the isolation bracket, and the duck manure fertilizer can be effectively laid by the flowing water source, and circulating, reducing the risk of weed growth and being beneficial to the yield increase of the organic rice.

Description

Rice and duck co-breeding organic rice yield-increasing planting method

Technical Field

The invention relates to the technical field of organic rice planting, in particular to a rice and duck co-breeding organic rice yield-increasing planting method.

Background

The organic rice refers to the rice planted by using a natural organic planting mode and completely adopting a natural farming method in the process of planting the rice, the organic rice must be a good quality rice variety recommended by a planting improvement farm, chemical fertilizers, pesticides, growth regulators and the like are not used or used in a small amount in the planting process, the fertilizers used by the organic rice must be organic fertilizers, the land must be strictly required, the effect of no pollution can be achieved completely, and in addition, the fully special excellent rice milling mechanical equipment is applied to a rice washing product patent process technology, so that the nutrition beneficial for human eating in the rice is maximally retained, kept and preserved, and can achieve the high-quality eating effect of complete freshness, fragrance, cleanness, convenience, completeness, greenness, cheapness, Q, stickiness and natural rice fresh flavor, the duck co-breeding technology is a high-quality high-efficiency agricultural technology which is vigorously popularized in China and Asian rice main production countries at present, the technology is widely paid attention at home and abroad due to the advantages of reducing the production cost of rice planting and duck breeding, improving the quality of rice and duck products, reducing environmental pollution caused by excessive use of pesticides and chemical fertilizers and the like, the rice and duck co-breeding ducks deinsectize, weed, muddy water, fertilize and stimulate the growth of rice in a rice field, the rice field provides a pasturing place and food baits for the ducks, the two depend on each other and complement each other, in the organic rice planting method for rice and duck co-breeding in the prior art, the used water source is static water, the rice and duck co-breeding is carried out for a period of time, the concentration of local duck excrement in the water is higher, the absorption of the organic rice is not facilitated, the growth of weeds is easy to be incurred, and the risk of being washed away by water due to the plant root base of the organic rice is possibly caused by the direct use of a movable water source.

Disclosure of Invention

The invention aims to provide a rice and duck co-cultivation organic rice yield-increasing planting method, which comprises the steps of firstly marking the land by a land preparation mode, digging pits along the land, adding base fertilizer into the pits and burying the pits by soil heap, wherein the base fertilizer is convenient for the primary growth of plants of the organic rice, after the soil heap is buried and paved, installing an isolation bracket at the upper side, arranging isolation slide bars at certain intervals, sowing organic rice seeds or directly transplanting rice seedlings at the soil layer part between every two adjacent isolation slide bars, then filling the soil at the other side above the seeds or the rice seedlings, finally adding additional fertilizer, ditching at the two sides of the planted organic rice, and introducing flowing water sources, because the isolation bracket is fixed, the influence of the impact force of water flow on the rice plants can be greatly reduced, and the duck manure fertilizer can be effectively paved by flowing, and can circulate and reduce the risk of weed growth, and is beneficial to the yield increase of the organic rice so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a rice and duck co-breeding organic rice yield-increasing planting method comprises the following steps:

the method comprises the following steps: soil preparation, firstly, marking the land at certain intervals, downwards digging a pit along the line, and orderly stacking the dug pits at two sides;

step two: applying base fertilizer, uniformly mixing the base fertilizer, regularly spreading the base fertilizer to the bottom of the pit, stacking soil on one side of the pit on the upper layer of the base fertilizer, uniformly spreading the soil layer by using a shovel, and installing an isolation support on the upper side of the soil layer;

step three: sowing, namely uniformly sowing the organic rice seeds in the layer of the soil between the isolation supports at intervals, stacking soil on the other side above the isolation supports and the organic rice seeds, and uniformly spreading the soil layer by using a shovel;

step four: additional fertilizer is evenly spread on the upper side of the uppermost soil layer, and water is sprayed on the additional fertilizer to keep the wettability of the additional fertilizer and the soil layer;

step five: and (3) turning over the land, digging the soil surface at the two sides of the organic rice downwards to form soil ridges in the planting area of the organic rice, and respectively introducing flowing water sources at the two sides of the soil ridges.

The isolation support comprises a butt joint rod and an isolation sliding rod, and the isolation sliding rod is installed in the vertical direction of the butt joint rod.

The butt joint pole includes the main pole body, interior caulking groove, fixed screw, butt joint thread joint, butt joint sleeve pipe and interior rabbet, be equipped with interior caulking groove on the main pole body, the center department of interior caulking groove is equipped with fixed screw, the rightmost end of the main pole body is equipped with butt joint thread joint, the leftmost side of the main pole body is equipped with butt joint sleeve pipe, butt joint sheathed tube inboard is equipped with interior rabbet.

The isolation sliding rod comprises a sliding patch, a fixing bolt, a pulley shaft, a sliding wheel and a pulley caulking groove, the fixing bolt is respectively installed at the position between the two ends of the sliding patch, the pulley shaft is installed on the sliding patch outside the fixing bolt, the sliding wheel is installed at the center of the pulley shaft, and the pulley caulking groove is formed in the center of the sliding wheel.

Preferably, the base fertilizer comprises 350 parts of excrement, 100 parts of plant ash, 50 parts of urea, 80 parts of potassium chloride, 30 parts of humic acid, 100 parts of bone meal, 0.2 part of copper sulfate, 50 parts of kaolin, 80 parts of phosphogypsum, 80 parts of calcium-magnesium-phosphorus powder, 80 parts of ammonium bicarbonate, 80 parts of ammonia water, 0.1 part of potassium permanganate and 0.1 part of mancozeb, and the components are mixed and added into a reaction kettle, and are uniformly stirred after a proper amount of deionized water is added.

Preferably, the additional fertilizer comprises 100 parts of diammonium hydrogen phosphate, 50 parts of potassium sulfate, 40 parts of monopotassium phosphate, 1 part of copper carbonate and 1 part of brassinolide, all the components are added into a reaction kettle, and a proper amount of deionized water is added and then the mixture is uniformly stirred.

Preferably, the front side and the rear side of the main rod body are respectively provided with an embedded pulley groove.

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

the invention provides a rice and duck co-cultivation organic rice yield-increasing planting method, which comprises the steps of firstly marking the land by a land preparation mode, digging pits along the land, adding base fertilizer into the pits and burying the pits by soil heap, wherein the base fertilizer is convenient for the initial growth of plants of the organic rice, after the soil heap is buried and paved, installing isolation brackets on the upper side, arranging isolation slide bars at certain intervals, sowing organic rice seeds or directly transplanting rice seedlings on the soil layer part between every two adjacent isolation slide bars, then filling soil on the other side above the seeds or the rice seedlings, finally adding additional fertilizer, ditching the two sides for planting the organic rice, and introducing flowing water sources, the method has reasonable and complete structure, greatly reduces the influence of the impact force of water flow on the rice plants by the fixation of the isolation brackets, and the flowing water sources can effectively pave duck manure and circulate, reduces the risk of weed growth and is beneficial to the yield increase of the organic rice.

Drawings

FIG. 1 is a flow chart of the steps of the planting method of the present invention;

FIG. 2 is a schematic structural view of an isolation mount of the present invention;

FIG. 3 is a partial cross-sectional structural schematic view of the docking rod of the present invention;

FIG. 4 is a schematic top view of the isolating slide bar of the present invention;

FIG. 5 is a schematic side view of the isolating slide bar of the present invention.

In the figure: 1. a docking rod; 101. a main rod body; 102. an embedded groove is formed; 103. fixing screw holes; 104. butting thread joints; 105. butting a sleeve; 106. an embedded port; 2. isolating the sliding rod; 21. sliding the patch; 22. fixing the bolt; 23. a pulley shaft; 24. a sliding wheel; 25. the pulley is embedded in the groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in 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.

Referring to fig. 1, a method for increasing the yield of organic rice by rice and duck co-cultivation comprises the following steps:

step five: digging the soil on the two sides of the organic rice, forming soil ridges in the planting area of the organic rice, respectively introducing flowing water sources on the two sides of the soil ridges, culturing ducks in the flowing water sources in a large scale, enabling co-cultured ducks to carry out deinsectization and weeding on the organic rice plants in the moving process of the flowing water sources, and uniformly paving the co-cultured ducks on the bottom layer along with the flowing water sources after the co-cultured duck manure falls into water to serve as a fertilizer required by the continuous growth of the organic rice.

The base fertilizer comprises 350 parts of excrement, 100 parts of plant ash, 50 parts of urea, 80 parts of potassium chloride, 30 parts of humic acid, 100 parts of bone meal, 0.2 part of copper sulfate, 50 parts of kaolin, 80 parts of phosphogypsum, 80 parts of calcium-magnesium-phosphorus powder, 80 parts of ammonium bicarbonate, 80 parts of ammonia water, 0.1 part of potassium permanganate and 0.1 part of mancozeb, all the components are mixed and added into a reaction kettle, a proper amount of deionized water is added, the mixture is uniformly stirred, and the base fertilizer is applied to the bottom of a pit in a soil layer so as to facilitate the primary growth of the organic rice plant which is just sowed or transplanted.

The additional fertilizer comprises 100 components of diammonium hydrogen phosphate, 50 components of potassium sulfate, 40 components of potassium dihydrogen phosphate, 1 component of copper carbonate and 1 component of brassinolide, all the components are added into a reaction kettle, a proper amount of deionized water is added, the mixture is uniformly stirred, and the additional fertilizer is applied to the top layer, so that the initial growth of the organic rice plants which are just sowed or transplanted is facilitated.

Referring to fig. 2, the isolation bracket includes a butt-joint rod 1 and isolation slide rods 2, the isolation slide rods 2 are installed in the butt-joint rod 1 in the vertical direction, and two sets of isolation slide rods 2 are disposed on each butt-joint rod 1, so that the distance between the isolation slide rods 2 can be conveniently adjusted.

Referring to fig. 3, the docking rod 1 includes a main rod body 101, an embedded groove 102, a fixing screw hole 103, a docking screw joint 104, a docking sleeve 105 and an embedded port 106, the main rod body 101 is provided with the embedded groove 102, front and rear sides of the main rod body 101 are respectively provided with embedded pulley grooves, the center of the embedded groove 102 is provided with the fixing screw hole 103, the rightmost end of the main rod body 101 is provided with the docking screw joint 104, the leftmost side of the main rod body 101 is provided with the docking sleeve 105, the inner side of the docking sleeve 105 is provided with the embedded port 106, and the main rod bodies 101 of every two docking rods 1 are nested with each other through the docking screw joint 104, the docking sleeve 105 and the embedded port 106.

Referring to fig. 4-5, the isolation sliding rod 2 includes a sliding patch 21, a fixing bolt 22, a pulley shaft 23, a sliding wheel 24 and a pulley groove 25, the fixing bolt 22 is installed at a position between two ends of the sliding patch 21, the pulley shaft 23 is installed on the sliding patch 21 outside the fixing bolt 22, the sliding wheel 24 is installed at the center of the pulley shaft 23, the sliding wheel 24 is driven by the pulley shaft 23, the pulley groove 25 is installed at the center of the sliding wheel 24, and the sliding wheel 24 is engaged with the pulley groove embedded in the side surface of the main rod body 101 through the pulley groove 25 and slides freely in the pulley groove.

The working principle of the invention is as follows: the invention relates to a method for increasing the yield of organic rice by rice and duck co-cultivation, which comprises the steps of firstly marking the land in a land preparation mode, digging pits along the line, adding base fertilizer into the pits and filling the pits with soil piles, wherein the base fertilizer is convenient for the primary growth of plants of the organic rice, after the soil piles are flatly laid, installing isolation supports at the upper side, arranging isolation slide bars 2 at certain intervals, sowing organic rice seeds or directly transplanting rice seedlings at the soil layer part between every two adjacent isolation slide bars 2, filling soil at the other side above the seeds or the rice seedlings, finally adding additional fertilizer, ditching at the two sides for planting the organic rice, and introducing flowing water sources, and the influence of the impact force of water flow on the rice plants can be greatly reduced due to the fixation of the isolation supports.

In summary, the following steps: the invention relates to a method for increasing the yield of organic rice by rice and duck co-cultivation, which comprises the steps of firstly marking the land by a land preparation mode, digging a pit along the line, adding a base fertilizer into the pit and burying the pit by soil heap, wherein the base fertilizer is convenient for the initial growth of plants of the organic rice, after the soil heap is buried and paved, installing an isolation support at the upper side, arranging isolation slide bars 2 at certain intervals, sowing organic rice seeds or directly transplanting rice seedlings at the soil layer part between every two adjacent isolation slide bars 2, then piling soil at the other side above the seeds or the rice seedlings, finally adding additional fertilizer, ditching at the two sides for planting the organic rice, and introducing a flowing water source, the method has reasonable and complete structure, greatly reduces the influence of the impact force of water flow on the plants by the fixation of the isolation support, and the flowing water source can effectively pave the fertilizer for duck manure and circulate, reduces the risk of weed growth and is beneficial to the yield increase of the organic rice.

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 able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. A rice and duck co-breeding organic rice yield-increasing planting method is characterized by comprising the following steps:

s1: soil preparation, firstly, marking the land at certain intervals, downwards digging a pit along the line, and orderly stacking the dug pits at two sides;

s2: applying base fertilizer, uniformly mixing the base fertilizer, regularly spreading the base fertilizer to the bottom of the pit, stacking soil on one side of the pit on the upper layer of the base fertilizer, uniformly spreading the soil layer by using a shovel, and installing an isolation support on the upper side of the soil layer;

s3: sowing, namely uniformly sowing the organic rice seeds in the layer of the soil between the isolation supports at intervals, stacking soil on the other side above the isolation supports and the organic rice seeds, and uniformly spreading the soil layer by using a shovel;

s4: additional fertilizer is evenly spread on the upper side of the uppermost soil layer, and water is sprayed on the additional fertilizer to keep the wettability of the additional fertilizer and the soil layer;

s5: digging the soil on the two sides of the organic rice downwards to form soil ridges in the planting area of the organic rice, and respectively introducing flowing water sources on the two sides of the soil ridges;

the isolation support comprises a butt joint rod (1) and an isolation sliding rod (2), and the isolation sliding rod (2) is installed in the vertical direction of the butt joint rod (1);

the butt joint rod (1) comprises a main rod body (101), an embedded groove (102), a fixed screw hole (103), a butt joint threaded head (104), a butt joint sleeve (105) and an embedded port (106), wherein the main rod body (101) is provided with the embedded groove (102), the center of the embedded groove (102) is provided with the fixed screw hole (103), the rightmost end of the main rod body (101) is provided with the butt joint threaded head (104), the leftmost side of the main rod body (101) is provided with the butt joint sleeve (105), and the inner side of the butt joint sleeve (105) is provided with the embedded port (106);

keep apart slide bar (2) including slip paster (21), fixing bolt (22), pulley shaft (23), movable pulley (24) and pulley caulking groove (25), fixing bolt (22) are installed respectively to the position between the both ends of slip paster (21), install pulley shaft (23) on slip paster (21) in the fixing bolt (22) outside, the center department of pulley shaft (23) installs movable pulley (24), the center part of movable pulley (24) is equipped with pulley caulking groove (25).

2. The rice and duck co-cultivation organic rice yield increase planting method of claim 1, wherein the method comprises the following steps: the base fertilizer comprises 350 parts of excrement, 100 parts of plant ash, 50 parts of urea, 80 parts of potassium chloride, 30 parts of humic acid, 100 parts of bone meal, 0.2 part of copper sulfate, 50 parts of kaolin, 80 parts of phosphogypsum, 80 parts of calcium-magnesium-phosphorus powder, 80 parts of ammonium bicarbonate, 80 parts of ammonia water, 0.1 part of potassium permanganate and 0.1 part of mancozeb, all the components are mixed and added into a reaction kettle, and a proper amount of deionized water is added and then stirred uniformly.

3. The rice and duck co-cultivation organic rice yield increase planting method of claim 1, wherein the method comprises the following steps: the additional fertilizer comprises 100 components of diammonium hydrogen phosphate, 50 components of potassium sulfate, 40 components of potassium dihydrogen phosphate, 1 component of copper carbonate and 1 component of brassinolide, and all the components are added into a reaction kettle, and are uniformly stirred after a proper amount of deionized water is added.

4. The rice and duck co-cultivation organic rice yield increase planting method of claim 1, wherein the method comprises the following steps: the front side and the rear side of the main rod body (101) are respectively provided with an embedded pulley groove.