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High-yield planting method for high-quality citruses

A high-yield planting and citrus technology, applied in the field of citrus planting, can solve the problems of restricting the development of citrus industry, affecting the economic benefits of citrus, and high rate of deformed fruit, so as to achieve the effect of improving fruit setting rate, increasing single fruit weight, and increasing sweetness

Inactive Publication Date: 2019-12-20
湖南绿盟农业科技股份有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] Citrus is a plant of the Rutaceae Citrus subfamily. Because the fruit has both color, aroma and taste, sweet and sour juicy, refreshing fragrance, mellow flavor and rich nutrition, it is very popular among people. However, its fruit setting rate is low, deformed fruit rate is high and quality is not good Problems such as poor quality limit the development of the citrus industry
In the prior art, certain hormones are often used to preserve the flowers and fruits of citrus. In order to ensure the economic benefits brought by citrus, the reasonable use of chemical methods such as hormones is allowed within the current scope. However, if such methods Improper use will not only affect the overall economic benefits of citrus, but also cause pollution to the environment

Method used

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  • High-yield planting method for high-quality citruses

Examples

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Comparison scheme
Effect test

Embodiment 1

[0018] A high-yield planting method for high-quality citrus, comprising the following steps:

[0019] (1) After diluting the rare earth solution 10 times, spray 3kg of the diluted rare earth solution in the swollen period of the young fruit of citrus, wherein the rare earth solution is made of the following components by weight: 8 parts of samarium naphthenate, praseodymium chloride 0.1 parts, 3 parts of myrcene, 25 parts of alcohol, and 950 parts of water, wherein samarium naphthenate is prepared by the following method: after dissolving samarium chloride in water 5 times its weight, slowly adding samarium chloride to it Sodium naphthenate which is 3 times heavier by weight is heated to 75° C., and after heat preservation treatment for 2 hours, samarium naphthenate is obtained;

[0020] (2) When the fruit begins to color in late October, pick 2-3 citrus from the autumn shoots of each branch, wash and chop and put them in the fermentation tank, and then add poultry manure that...

Embodiment 2

[0023] A high-yield planting method for high-quality citrus, comprising the following steps:

[0024] (1) After the rare earth liquid is diluted 13 times, the rare earth liquid after spraying 3.5kg diluted rare earth liquid is sprayed in the young fruit expansion period of citrus, wherein the rare earth liquid is made of the following components by weight: 10 parts of samarium naphthenate, praseodymium chloride 0.3 parts, 5 parts of myrcene, 28 parts of alcohol, and 980 parts of water, wherein samarium naphthenate is prepared by the following method: after dissolving samarium chloride in water 5 times its weight, slowly adding chloride Sodium naphthenate with 3 times the weight of samarium is heated to 75° C., and after heat preservation treatment for 2 hours, samarium naphthenate is obtained;

[0025] (2) When the fruit begins to color in late October, pick 2-3 citrus from the autumn shoots of each branch, wash and chop and put them in the fermentation tank, and then add poul...

Embodiment 3

[0028] A high-yield planting method for high-quality citrus, comprising the following steps:

[0029] (1) After diluting the rare earth solution 15 times, spray 4kg of the diluted rare earth solution in the swollen period of the young fruit of citrus, wherein the rare earth solution is made of the following components by weight: 13 parts of samarium naphthenate, 0.5 parts of praseodymium chloride parts, 8 parts of myrcene, 30 parts of alcohol, and 1000 parts of water, wherein samarium naphthenate is prepared by the following method: after dissolving samarium chloride in water 5 times its weight, slowly adding samarium chloride to it Sodium naphthenate which is 3 times heavier by weight is heated to 75° C., and after heat preservation treatment for 2 hours, samarium naphthenate is obtained;

[0030] (2) When the fruit begins to color in late October, pick 2-3 citrus from the autumn shoots of each branch, wash, chop and put them in the fermentation tank, and then add poultry man...

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Abstract

The invention discloses a high-yield planting method for high-quality citruses. The method comprises the following operation steps that (1) a rare earth solution is diluted by 10-15 times and then sprayed when young citrus fruits are expanded; (2) when fruits begin to be colored in late October, 2-3 citruses are picked from each autumn shoot, cleaned, cut up and put into a fermentation tank, thenlivestock and poultry manure of 8-10 times of the mass of the citruses is added, mixing and stirring are carried out uniformly, after a compound microbial agent is added into the mixture, closed fermentation treatment is performed for 25-30 days, and an organic fertilizer is obtained; (3) a fertilization hole with the length of 0.2 meter, the width of 0.2 meter and the depth of 0.4 meter is dug under each citrus tree, 2-3 kilograms of the organic fertilizer is added in each fertilization hole, and then back filling is carried out. The provided high-yield planting method for the high-quality citruses is simple to implement, green and environmentally friendly, and can effectively improve the yield and quality of the citruses.

Description

technical field [0001] The invention belongs to the technical field of citrus planting, in particular to a high-yield planting method of high-quality citrus. Background technique [0002] Citrus is a plant of the Rutaceae Citrus subfamily. Because the fruit has both color, aroma and taste, sweet and sour juicy, refreshing fragrance, mellow flavor and rich nutrition, it is very popular among people. However, its fruit setting rate is low, deformed fruit rate is high and quality is not good Good and other issues have limited the development of the citrus industry. In the prior art, certain hormones are often used to preserve the flowers and fruits of citrus. In order to ensure the economic benefits brought by citrus, the reasonable use of chemical methods such as hormones is allowed within the current scope. However, if such methods Improper use will not only affect the overall economic benefits of citrus, but also cause pollution to the environment. Contents of the inventi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A01G17/00A01G7/06C05G3/00C05F15/00A01N37/10A01N27/00A01P21/00
CPCA01G7/06A01G17/005A01N27/00A01N37/10C05D9/02C05F3/00C05G3/00C05F11/00C05F11/08
Inventor 舒金初李先信舒汉初汪文清
Owner 湖南绿盟农业科技股份有限公司
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