CN112806205A - Cultivation method for improving quality and increasing efficiency of micro-area environment for stabilizing peach growth and application of cultivation method - Google Patents
Cultivation method for improving quality and increasing efficiency of micro-area environment for stabilizing peach growth and application of cultivation method Download PDFInfo
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- CN112806205A CN112806205A CN202110060736.8A CN202110060736A CN112806205A CN 112806205 A CN112806205 A CN 112806205A CN 202110060736 A CN202110060736 A CN 202110060736A CN 112806205 A CN112806205 A CN 112806205A
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G17/00—Cultivation of hops, vines, fruit trees, or like trees
- A01G17/005—Cultivation methods
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G7/00—Botany in general
- A01G7/06—Treatment of growing trees or plants, e.g. for preventing decay of wood, for tingeing flowers or wood, for prolonging the life of plants
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- C—CHEMISTRY; METALLURGY
- C05—FERTILISERS; MANUFACTURE THEREOF
- C05D—INORGANIC FERTILISERS NOT COVERED BY SUBCLASSES C05B, C05C; FERTILISERS PRODUCING CARBON DIOXIDE
- C05D1/00—Fertilisers containing potassium
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- C—CHEMISTRY; METALLURGY
- C05—FERTILISERS; MANUFACTURE THEREOF
- C05F—ORGANIC FERTILISERS NOT COVERED BY SUBCLASSES C05B, C05C, e.g. FERTILISERS FROM WASTE OR REFUSE
- C05F3/00—Fertilisers from human or animal excrements, e.g. manure
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A40/00—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
- Y02A40/10—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
- Y02A40/20—Fertilizers of biological origin, e.g. guano or fertilizers made from animal corpses
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Abstract
The invention discloses a cultivation method for improving the quality and the efficiency of a micro-area environment for stabilizing the growth of peaches and application thereof, which comprises the following steps: s1, mixing a certain amount of fermented wet excrement with soil for planting in advance, wherein the ratio of fermented wet excrement to fermented wet excrement is 25: 1, and standing in the open air for 5-8 days, wherein the soil is turned over at irregular time; s2, digging pits in the planting area according to the front-back distance of 2.5-3m and the left-right distance of 3.5-4.5m, wherein the pits are circular, the depth of the pits is 15-30cm, the diameter of the pits is 120 cm and 140cm, and then compacting the soil near the pits; s3, selecting a root control device with the diameter of 160-. The invention has the advantages that: through carrying out reasonable settlement to the micro domain environment that the peach grows, help the stable growth after the peach is planted for the peach branch leaf after planting is more luxuriant, and the fruit is more fragrant and sweet and delicious.
Description
Technical Field
The invention relates to the technical field of peach tree planting, in particular to a cultivation method for improving quality and efficiency of a micro-area environment for stabilizing peach growth and application thereof.
Background
The peach tree micro-area environment refers to a specific soil environment and an air environment (including air temperature and air humidity) near the peach tree planting; the existing peach tree growers do not fully and reasonably regulate and control the micro-area environment for peach tree production in the peach tree planting process, and inhibit the growth speed and growth stability of the planted peach trees to a certain extent.
Disclosure of Invention
The invention aims to solve the problems in the background art, and provides a cultivation method for improving the quality and the efficiency of a micro-area environment for stabilizing the growth of peaches and application thereof.
In order to achieve the purpose, the invention adopts the following technical scheme:
a cultivation method for improving quality and efficiency of a micro-area environment for stabilizing peach growth comprises the following steps:
s1, mixing a certain amount of fermented wet excrement with soil for planting in advance, wherein the ratio of fermented wet excrement to fermented wet excrement is 25: 1, and standing in the open air for 5-8 days, wherein the soil is turned over at irregular time;
s2, digging pits in the planting area according to the front-back distance of 2.5-3m and the left-right distance of 3.5-4.5m, wherein the pits are circular, the depth of the pits is 15-30cm, the diameter of the pits is 120 cm and 140cm, and then compacting the soil near the pits;
s3, selecting a root control device with the diameter of 160-;
s4, filling the mixed soil obtained in the step S1 into a corresponding root control device, wherein the height of the mixed soil in the root control device is 15-20cm lower than the upper end of the root control device, and a tree pit for peach tree planting is reserved in the soil filled in the corresponding root control device, wherein the tree pit can be specifically set to be 80-90cm long, wide and high;
s5, mixing a small amount of fermented dry excrement into water 5-7 days before planting, wetting the surface of planting soil in the root control devices in the evening, and spreading dry straws on each root control device;
s6, taking down the straws on the root control device and placing the straws in an idle position for airing 28-32 hours before planting;
s7, applying base fertilizer to the tree pit dug in the S4 step 4-6h after the S6 step is finished;
s8, digging two annular soil ditches on the soil surface in the root control device, then making annular net rings by using steel wire meshes and inserting the annular net rings into the corresponding soil ditches, wherein the distance between the corresponding steel wire net rings and the edge of the corresponding root control device and the root of the peach tree are approximately equal when the annular net rings are specifically arranged;
s9, spreading the straws aired in the step S6 on corresponding steel wire meshes again;
and S10, taking down the straws and the wire mesh rings in the step S9 after 15-20 days, turning soil in the soil ditch on the outer layer, and then sowing peas.
In the cultivation method for improving the quality and the efficiency of the micro-area environment beneficial to the growth of the peaches, the manure used in the step S3 is the chicken manure of the free-range chickens in the forest.
In the cultivation method for improving the quality and the efficiency of the micro-area environment for stabilizing the growth of peaches, the depth of the soil ditch in the step S8 is 8-10cm, and the height of the steel wire mesh ring in the step S8 is 35-40 cm.
In the cultivation method for improving quality and enhancing efficiency of the micro-area environment beneficial to stable peach growth, the base fertilizer in the step S7 comprises the following raw materials in parts by weight: 20-25 parts of animal manure, 10-15 parts of peach leaves, 5-8 parts of nitrogen fertilizer, 2.5-4 parts of phosphate fertilizer, 5-8 parts of potash fertilizer, 30-35 parts of straws, 1-3 parts of strains, 5-10 parts of bran ash and 2-5 parts of crab shell powder.
In the cultivation method for improving quality and enhancing efficiency of the micro-area environment beneficial to stable peach growth, the base fertilizer in the step S7 comprises the following raw materials in parts by weight: 21-25 parts of animal manure, 12-15 parts of peach leaves, 5.5-8 parts of nitrogen fertilizer, 2.8-4 parts of phosphate fertilizer, 5.5-8 parts of potash fertilizer, 31-35 parts of straws, 1.5-3 parts of strains, 6-10 parts of bran ash and 2.5-5 parts of crab shell powder.
In the cultivation method for improving quality and enhancing efficiency of the micro-area environment beneficial to stable peach growth, the base fertilizer in the step S7 comprises the following raw materials in parts by weight: 22-25 parts of animal manure, 13-15 parts of peach leaves, 6-8 parts of nitrogen fertilizer, 3-4 parts of phosphate fertilizer, 6-8 parts of potash fertilizer, 32-35 parts of straws, 2-3 parts of strains, 7-10 parts of bran ash and 3-5 parts of crab shell powder.
In the cultivation method for improving quality and enhancing efficiency of the micro-area environment beneficial to stable peach growth, the base fertilizer in the step S7 comprises the following raw materials in parts by weight: 22-23 parts of animal manure, 13-14 parts of peach leaves, 6-7 parts of nitrogen fertilizer, 3-3.8 parts of phosphate fertilizer, 6-7 parts of potash fertilizer, 32-33.5 parts of straws, 2-2.8 parts of strains, 7-9 parts of bran ash and 3-4.5 parts of crab shell powder.
The root control device is particularly applied to alkaline soil and heavy soil.
Compared with the prior art, the invention has the advantages that: through carrying out reasonable settlement to the micro domain environment that the peach grows, help the stable growth after the peach is planted for the peach branch leaf after planting is more luxuriant, and the fruit is more fragrant and sweet and delicious.
Detailed Description
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.
Example 1
A cultivation method for improving quality and efficiency of a micro-area environment for stabilizing peach growth comprises the following steps:
s1, mixing a certain amount of fermented wet excrement with soil for planting in advance, wherein the ratio of fermented wet excrement to fermented wet excrement is 25: 1, and standing in the open air for 5-8 days, wherein the soil is turned over at irregular time;
s2, digging pits in the planting area according to the front-back distance of 2.5-3m and the left-right distance of 3.5-4.5m, wherein the pits are circular, the depth of the pits is 15-30cm, the diameter of the pits is 120 cm and 140cm, and then compacting the soil near the pits;
s3, selecting a root control device with the diameter of 160-;
s4, filling the mixed soil obtained in the step S1 into a corresponding root control device, wherein the height of the mixed soil in the root control device is 15-20cm lower than the upper end of the root control device, and a tree pit for peach tree planting is reserved in the soil filled in the corresponding root control device, wherein the tree pit can be specifically set to be 80-90cm long, wide and high;
s5, mixing a small amount of fermented dry excrement into water 5-7 days before planting, wetting the surface of planting soil in the root control devices in the evening, and spreading dry straws on each root control device; the excrement used in the step S3 is specifically chicken excrement of free-range chickens in forests;
s6, taking down the straws on the root control device and placing the straws in an idle position for airing 28-32 hours before planting;
s7, applying base fertilizer to the tree pit dug in the S4 step 4-6h after the S6 step is finished; the base fertilizer in the step S7 comprises the following raw materials in parts by weight: 20-25 parts of animal manure, 10-15 parts of peach leaves, 5-8 parts of nitrogen fertilizer, 2.5-4 parts of phosphate fertilizer, 5-8 parts of potash fertilizer, 30-35 parts of straws, 1-3 parts of strains, 5-10 parts of bran ash and 2-5 parts of crab shell powder;
s8, digging two annular soil ditches on the soil surface in the root control device, then making annular net rings by using steel wire meshes and inserting the annular net rings into the corresponding soil ditches, wherein the distance between the corresponding steel wire net rings and the edge of the corresponding root control device and the root of the peach tree are approximately equal when the annular net rings are specifically arranged; the depth of the soil ditch in the step S8 is 8-10cm, and the height of the steel wire mesh ring in the step S8 is 35-40 cm;
s9, spreading the straws aired in the step S6 on corresponding steel wire meshes again;
and S10, taking down the straws and the wire mesh rings in the step S9 after 15-20 days, turning soil in the soil ditch on the outer layer, and then sowing peas.
The root control device is particularly applied to planting of fruit trees on alkaline soil and heavy soil.
Example 2
A cultivation method for improving quality and efficiency of a micro-area environment for stabilizing peach growth comprises the following steps:
s1, mixing a certain amount of fermented wet excrement with soil for planting in advance, wherein the ratio of fermented wet excrement to fermented wet excrement is 25: 1, and standing in the open air for 5-8 days, wherein the soil is turned over at irregular time;
s2, digging pits in the planting area according to the front-back distance of 2.5-3m and the left-right distance of 3.5-4.5m, wherein the pits are circular, the depth of the pits is 15-30cm, the diameter of the pits is 120 cm and 140cm, and then compacting the soil near the pits;
s3, selecting a root control device with the diameter of 160-;
s4, filling the mixed soil obtained in the step S1 into a corresponding root control device, wherein the height of the mixed soil in the root control device is 15-20cm lower than the upper end of the root control device, and a tree pit for peach tree planting is reserved in the soil filled in the corresponding root control device, wherein the tree pit can be specifically set to be 80-90cm long, wide and high;
s5, mixing a small amount of fermented dry excrement into water 5-7 days before planting, wetting the surface of planting soil in the root control devices in the evening, and spreading dry straws on each root control device;
s6, taking down the straws on the root control device and placing the straws in an idle position for airing 28-32 hours before planting;
s7, applying base fertilizer to the tree pit dug in the S4 step 4-6h after the S6 step is finished; the base fertilizer in the step S7 comprises the following raw materials in parts by weight: 21-25 parts of animal manure, 12-15 parts of peach leaves, 5.5-8 parts of nitrogen fertilizer, 2.8-4 parts of phosphate fertilizer, 5.5-8 parts of potash fertilizer, 31-35 parts of straws, 1.5-3 parts of strains, 6-10 parts of bran ash and 2.5-5 parts of crab shell powder;
s8, digging two annular soil ditches on the soil surface in the root control device, then making annular net rings by using steel wire meshes and inserting the annular net rings into the corresponding soil ditches, wherein the distance between the corresponding steel wire net rings and the edge of the corresponding root control device and the root of the peach tree are approximately equal when the annular net rings are specifically arranged; the depth of the soil ditch in the step S8 is 8-10cm, and the height of the steel wire mesh ring in the step S8 is 35-40 cm;
s9, spreading the straws aired in the step S6 on corresponding steel wire meshes again;
and S10, taking down the straws and the wire mesh rings in the step S9 after 15-20 days, turning soil in the soil ditch on the outer layer, and then sowing peas.
Example 3
A cultivation method for improving quality and efficiency of a micro-area environment for stabilizing peach growth and an application thereof comprise the following steps:
s1, mixing a certain amount of fermented wet excrement with soil for planting in advance, wherein the ratio of fermented wet excrement to fermented wet excrement is 25: 1, and standing in the open air for 5-8 days, wherein the soil is turned over at irregular time;
s2, digging pits in the planting area according to the front-back distance of 2.5-3m and the left-right distance of 3.5-4.5m, wherein the pits are circular, the depth of the pits is 15-30cm, the diameter of the pits is 120 cm and 140cm, and then compacting the soil near the pits;
s3, selecting a root control device with the diameter of 160-;
s4, filling the mixed soil obtained in the step S1 into a corresponding root control device, wherein the height of the mixed soil in the root control device is 15-20cm lower than the upper end of the root control device, and a tree pit for peach tree planting is reserved in the soil filled in the corresponding root control device, wherein the tree pit can be specifically set to be 80-90cm long, wide and high;
s5, mixing a small amount of fermented dry excrement into water 5-7 days before planting, wetting the surface of planting soil in the root control devices in the evening, and spreading dry straws on each root control device;
s6, taking down the straws on the root control device and placing the straws in an idle position for airing 28-32 hours before planting;
s7, applying base fertilizer to the tree pit dug in the S4 step 4-6h after the S6 step is finished; the base fertilizer in the step S7 comprises the following raw materials in parts by weight: 22-25 parts of animal manure, 13-15 parts of peach leaves, 6-8 parts of nitrogen fertilizer, 3-4 parts of phosphate fertilizer, 6-8 parts of potash fertilizer, 32-35 parts of straws, 2-3 parts of strains, 7-10 parts of bran ash and 3-5 parts of crab shell powder;
s8, digging two annular soil ditches on the soil surface in the root control device, then making annular net rings by using steel wire meshes and inserting the annular net rings into the corresponding soil ditches, wherein the distance between the corresponding steel wire net rings and the edge of the corresponding root control device and the root of the peach tree are approximately equal when the annular net rings are specifically arranged; the depth of the soil ditch in the step S8 is 8-10cm, and the height of the steel wire mesh ring in the step S8 is 35-40 cm;
s9, spreading the straws aired in the step S6 on corresponding steel wire meshes again;
and S10, taking down the straws and the wire mesh rings in the step S9 after 15-20 days, turning soil in the soil ditch on the outer layer, and then sowing peas.
Example 4
2. A cultivation method for improving quality and efficiency of a micro-area environment for stabilizing peach growth and an application thereof comprise the following steps:
s1, mixing a certain amount of fermented wet excrement with soil for planting in advance, wherein the ratio of fermented wet excrement to fermented wet excrement is 25: 1, and standing in the open air for 5-8 days, wherein the soil is turned over at irregular time;
s2, digging pits in the planting area according to the front-back distance of 2.5-3m and the left-right distance of 3.5-4.5m, wherein the pits are circular, the depth of the pits is 15-30cm, the diameter of the pits is 120 cm and 140cm, and then compacting the soil near the pits;
s3, selecting a root control device with the diameter of 160-;
s4, filling the mixed soil obtained in the step S1 into a corresponding root control device, wherein the height of the mixed soil in the root control device is 15-20cm lower than the upper end of the root control device, and a tree pit for peach tree planting is reserved in the soil filled in the corresponding root control device, wherein the tree pit can be specifically set to be 80-90cm long, wide and high;
s5, mixing a small amount of fermented dry excrement into water 5-7 days before planting, wetting the surface of planting soil in the root control devices in the evening, and spreading dry straws on each root control device;
s6, taking down the straws on the root control device and placing the straws in an idle position for airing 28-32 hours before planting;
s7, applying base fertilizer to the tree pit dug in the S4 step 4-6h after the S6 step is finished; the base fertilizer in the step S7 comprises the following raw materials in parts by weight: 22-23 parts of animal manure, 13-14 parts of peach leaves, 6-7 parts of nitrogen fertilizer, 3-3.8 parts of phosphate fertilizer, 6-7 parts of potash fertilizer, 32-33.5 parts of straws, 2-2.8 parts of strains, 7-9 parts of bran ash and 3-4.5 parts of crab shell powder;
s8, digging two annular soil ditches on the soil surface in the root control device, then making annular net rings by using steel wire meshes and inserting the annular net rings into the corresponding soil ditches, wherein the distance between the corresponding steel wire net rings and the edge of the corresponding root control device and the root of the peach tree are approximately equal when the annular net rings are specifically arranged; the depth of the soil ditch in the step S8 is 8-10cm, and the height of the steel wire mesh ring in the step S8 is 35-40 cm;
s9, spreading the straws aired in the step S6 on corresponding steel wire meshes again;
and S10, taking down the straws and the wire mesh rings in the step S9 after 15-20 days, turning soil in the soil ditch on the outer layer, and then sowing peas.
Finally, it is also noted that the above-mentioned lists merely illustrate a few specific embodiments of the invention. It should be understood that the present invention is not limited to the above embodiments, and all technical solutions that can be derived or suggested directly from the disclosure of the present invention by those skilled in the art should be considered as falling within the scope of the present invention.
Claims (8)
1. A cultivation method for improving quality and efficiency of a micro-area environment beneficial to stable peach growth is characterized by comprising the following steps:
s1, mixing a certain amount of fermented wet excrement with soil for planting in advance, wherein the ratio of fermented wet excrement to fermented wet excrement is 25: 1, and standing in the open air for 5-8 days, wherein the soil is turned over at irregular time;
s2, digging pits in the planting area according to the front-back distance of 2.5-3m and the left-right distance of 3.5-4.5m, wherein the pits are circular, the depth of the pits is 15-30cm, the diameter of the pits is 120 cm and 140cm, and then compacting the soil near the pits;
s3, selecting a root control device with the diameter of 160-;
s4, filling the mixed soil obtained in the step S1 into a corresponding root control device, wherein the height of the mixed soil in the root control device is 15-20cm lower than the upper end of the root control device, and a tree pit for peach tree planting is reserved in the soil filled in the corresponding root control device, wherein the tree pit can be specifically set to be 80-90cm long, wide and high;
s5, mixing a small amount of fermented dry excrement into water 5-7 days before planting, wetting the surface of planting soil in the root control devices in the evening, and spreading dry straws on each root control device;
s6, taking down the straws on the root control device and placing the straws in an idle position for airing 28-32 hours before planting;
s7, applying base fertilizer to the tree pit dug in the S4 step 4-6h after the S6 step is finished;
s8, digging two annular soil ditches on the soil surface in the root control device, then making annular net rings by using steel wire meshes and inserting the annular net rings into the corresponding soil ditches, wherein the distance between the corresponding steel wire net rings and the edge of the corresponding root control device and the root of the peach tree are approximately equal when the annular net rings are specifically arranged;
s9, spreading the straws aired in the step S6 on corresponding steel wire meshes again;
and S10, taking down the straws and the wire mesh rings in the step S9 after 15-20 days, turning soil in the soil ditch on the outer layer, and then sowing peas.
2. The cultivation method for improving the quality and the efficiency of the micro-area environment for stabilizing the growth of peaches as claimed in claim 1, wherein the manure used in the step S3 is chicken manure of free-range chickens in forests.
3. The cultivation method as claimed in claim 1, wherein the trench depth in step S8 is 8-10cm, and the wire mesh ring height in step S8 is 35-40 cm.
4. The cultivation method for improving the quality and the efficiency of the micro-area environment for stabilizing the growth of peaches as claimed in claim 1, wherein the base fertilizer in the step S7 comprises the following raw materials in parts by weight: 20-25 parts of animal manure, 10-15 parts of peach leaves, 5-8 parts of nitrogen fertilizer, 2.5-4 parts of phosphate fertilizer, 5-8 parts of potash fertilizer, 30-35 parts of straws, 1-3 parts of strains, 5-10 parts of bran ash and 2-5 parts of crab shell powder.
5. The cultivation method for improving the quality and the efficiency of the micro-area environment for stabilizing the growth of peaches as claimed in claim 1, wherein the base fertilizer in the step S7 comprises the following raw materials in parts by weight: 21-25 parts of animal manure, 12-15 parts of peach leaves, 5.5-8 parts of nitrogen fertilizer, 2.8-4 parts of phosphate fertilizer, 5.5-8 parts of potash fertilizer, 31-35 parts of straws, 1.5-3 parts of strains, 6-10 parts of bran ash and 2.5-5 parts of crab shell powder.
6. The cultivation method for improving the quality and the efficiency of the micro-area environment for stabilizing the growth of peaches as claimed in claim 1, wherein the base fertilizer in the step S7 comprises the following raw materials in parts by weight: 22-25 parts of animal manure, 13-15 parts of peach leaves, 6-8 parts of nitrogen fertilizer, 3-4 parts of phosphate fertilizer, 6-8 parts of potash fertilizer, 32-35 parts of straws, 2-3 parts of strains, 7-10 parts of bran ash and 3-5 parts of crab shell powder.
7. The cultivation method for improving the quality and the efficiency of the micro-area environment for stabilizing the growth of peaches as claimed in claim 1, wherein the base fertilizer in the step S7 comprises the following raw materials in parts by weight: 22-23 parts of animal manure, 13-14 parts of peach leaves, 6-7 parts of nitrogen fertilizer, 3-3.8 parts of phosphate fertilizer, 6-7 parts of potash fertilizer, 32-33.5 parts of straws, 2-2.8 parts of strains, 7-9 parts of bran ash and 3-4.5 parts of crab shell powder.
8. The application of the cultivation method for improving quality and enhancing efficiency of micro-area environment for peach growth stabilization according to claim 1, wherein the root control device is specifically applied to alkaline soil and heavy soil.
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CN106212179A (en) * | 2016-08-02 | 2016-12-14 | 贵州广大生态农业发展有限公司 | A kind of implantation methods of honey peach |
CN107980460A (en) * | 2017-12-11 | 2018-05-04 | 徐州万盛现代农业发展有限公司 | A kind of peach implantation methods |
CN109042000A (en) * | 2018-07-26 | 2018-12-21 | 山东省烟台市农业科学研究院 | A method of promoting the seedling growth and development of apple container Qiaoization |
CN109362461A (en) * | 2018-11-19 | 2019-02-22 | 上海市农业科学院 | A kind of method that facility internal control root device raises fruit trees |
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