JP2017178925A - Foliar spray agent for apple - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a foliar spray agent for apple capable of suppressing Sabi-ka disease.SOLUTION: There is provided a foliar spray agent for apple containing bentonite. The blended ratio of bentonite is preferably 30 wt.% or more. The foliar spray agent for apple further contains preferably lignin sulfonic acid magnesium. The blended ratio of the lignin sulfonic acid magnesium is preferably 1 wt.% or more. The foliar spray agent for apple further contains preferably calcium sulfate. The blended ratio of the calcium sulfate is preferably 5 wt.% or more.SELECTED DRAWING: None

Description

  The present invention relates to a foliar spray for apples.

  Conventionally, foliar sprays containing various nutritional components have been used in plants such as apples. The foliar spray is spread on the foliage of the plant. A plant absorbs the nutrients contained in the foliar spray from the foliage (see Patent Document 1).

Japanese Patent No. 3825754

  As a disease of plants such as apples, rust fruit disease is known. In the case of apples, the symptoms of fruit rust are those in which brown rust (brown areas like metal rust) appear on the surface of the fruit, or the color of the fruit becomes mottled and a pattern is formed . Rust causes the appearance of apple fruits and deteriorates the market price.

  This invention is made | formed in view of such a problem, and it aims at providing the foliar spray for apples which can suppress a rust fruit disease.

  One embodiment of the present disclosure is a foliar spray for apples and includes bentonite. If this foliar spray for apples is used, the rust fruit disease in apple can be suppressed.

  The foliar spray for apples of the present disclosure will be described. The apple foliar spray of the present disclosure contains bentonite. Bentonite is a kind of clay mineral. Bentonite contains montmorillonite as a main component and includes, for example, quartz, mica, feldspar, zeolite, and the like.

  The blending ratio of bentonite in the apple foliar spray is preferably 30 wt% or more and 100 wt% or less, more preferably 50 wt% or more and 99 wt% or less, 60 wt% or more, 99 It is particularly preferable that the amount is not more than% by weight. When the blending ratio of bentonite in the foliar spraying agent for apples is within the above range, the effect of suppressing apple rust disease is even higher. The blending ratio of bentonite is the weight% concentration of bentonite when the total solid content of the apple foliar spray is 100% by weight.

  The foliar spray for apples of the present disclosure preferably further contains magnesium lignin sulfonate. When the foliar spray for apples contains magnesium lignin sulfonate, the synergistic effect of bentonite and magnesium lignin sulfonate has a higher effect of suppressing apple rust.

  The blending ratio of magnesium lignin sulfonate in the foliar spray for apples is preferably 1% by weight to 50% by weight, more preferably 3% by weight to 30% by weight, and more preferably 10% by weight. As mentioned above, it is especially preferable that it is 20 weight% or less. When the blending ratio of magnesium lignin sulfonate in the foliar spray for apples is within the above range, the effect of suppressing apple rust disease is even higher. The blending ratio of magnesium lignin sulfonate is the concentration by weight of magnesium lignin sulfonate when the total solid content of the apple foliar spray is 100% by weight.

  The foliar spray for apples of the present disclosure preferably further contains calcium sulfate. When the foliar spraying agent for apples contains calcium sulfate, it is possible to suppress the bitter pits of apple fruit and the phenomenon called “oil rise”. Bitter pit is a kind of physiological disorder of fruit, and black spots are formed on the surface of the fruit, and spots that are recessed from the surroundings are generated. “Oil rise” is a phenomenon in which wax components appear on the surface of fruits after harvesting.

  The blending ratio of calcium sulfate in the apple foliar spray is preferably 5% by weight or more and 60% by weight or less, more preferably 10% by weight or more and 50% by weight or less, 20% by weight or more, It is particularly preferable that the amount be 40% by weight or less. When the blending ratio of calcium sulfate in the foliar spray for apples is within the above range, the effect of suppressing bitter pits and “oil rise” is even higher. The compounding ratio of calcium sulfate is the concentration by weight of calcium sulfate when the total solid content of the apple foliar spray is 100% by weight.

  The apple foliar spray of the present disclosure may further contain other components. Examples of other components include monopotassium phosphate and magnesium sulfate. In addition to this, a known component can be appropriately selected as a fertilizer component and blended in the foliar spray for apples.

  The dosage form of the apple foliar spray of the present disclosure can be, for example, powder, liquid, or the like. In the case of a powder, an apple foliar spray agent can be dissolved or dispersed in a solvent such as water to prepare a solution or dispersion, and the solution or dispersion can be sprinkled on the apple foliage. When the dosage form of the apple foliar spray is liquid, it can be sprayed on the apple foliage as it is or diluted with a solvent such as water.

Example 1
1. Manufacture of foliar spray for apples (1) Foliar spray for apples S1
The following components were mixed to produce an apple foliar spray S1.

Potassium phosphate: 1 part by weight Magnesium sulfate: 15 parts by weight Bentonite: 74 parts by weight Magnesium lignin sulfonate: 10 parts by weight The total weight (solid content) of the foliar spray agent S1 for apples is 100 parts by weight. The dosage form of the apple foliar spray S1 is powder.

(2) Apple foliar spray S2
The following components were mixed to produce an apple foliar spray S2.
Monopotassium phosphate: 1 part by weight Calcium sulfate: 39 parts by weight Bentonite: 60 parts by weight The total weight (solid content) of the foliar spraying agent S2 for apples is 100 parts by weight. The dosage form of the apple foliar spray S2 is powder.

(3) Foliar spray agent S3 for apples
The following components were mixed to produce an apple foliar spray S3.
Monopotassium phosphate: 1 part by weight Bentonite: 99 parts by weight The total weight (solid content) of the foliar spraying agent S3 for apples is 100 parts by weight. The dosage form of the apple foliar spray S3 is powder.

2. Use of foliar spray for apples (1) Preparation of spray liquid In the ratio of 5g per liter of water, apple foliar spray agent S1 is poured into water to prepare a spray liquid (hereinafter referred to as S1 spray liquid). did. Moreover, the foliar spray agent S2 for apples was thrown into water at a ratio of 5 g per liter of water to prepare a spray liquid (hereinafter referred to as S2 spray liquid). Moreover, the foliar spray agent S3 for apples was thrown into water at a ratio of 5 g per liter of water to prepare a spray liquid (hereinafter referred to as S3 spray liquid).

(2) Application of spray liquid to apples Apple orchards were divided into first to fourth sections. The S1 spray liquid is sprayed on the apple fruit tree in the first section, the S2 spray liquid is sprayed on the apple fruit tree in the second section, and the S3 spray liquid is sprayed on the apple fruit tree in the third section. Nothing was sprayed on the apple fruit trees in the parcel. The spraying of the S1 and S3 sprays was performed 2-3 times at intervals of 10 to 15 days from immediately after falling. The S2 spray solution was sprayed 3 to 5 times at intervals of 10 to 15 days from immediately after falling.

(3) Evaluation of apple fruit Then, when the harvested apple fruit was evaluated, the apple fruit harvested from the untreated fourth section was harvested from the first to third sections sprinkled with the S1-S3 spray solution. Compared with, the onset of rust fruit disease was suppressed.

  In particular, in apple fruits harvested from the first section sprayed with the S1 spray solution, the onset of rust disease was further suppressed. This is considered to be due to a synergistic effect of bentonite and magnesium lignin sulfonate contained in the apple foliar spray S1.

Moreover, in the apple fruit harvested from the second section sprayed with the S2 spray solution, the appearance of bitter pits and oil rising was suppressed as compared with the apple fruit harvested from the untreated fourth section. This is considered to be due to the action of calcium sulfate contained in the apple foliar spray S2.
(Example 2)
1. Production of foliar spray for apples (1) Foliar spray for apples S1 to S3
In the same manner as in Example 1, apple foliar sprays S1 to S3 were produced. The foliar sprays S1 to S3 for apples in this example are the same as the foliar sprays S1 to S3 for apples in Example 1.

(2) Foliar spray agent S4 for apples
The following components were mixed to produce an apple foliar spray S4.
Potassium phosphate: 1 part by weight Magnesium sulfate: 15 parts by weight Magnesium lignin sulfonate: 10 parts by weight The total weight (solid content) of the foliar spray agent S4 for apples is 26 parts by weight. The dosage form of the apple foliar spray S4 is powder.

(3) Foliar spray for apples S5
The following components were mixed to produce an apple foliar spray S5.
Monopotassium phosphate: 1 part by weight Magnesium sulfate: 15 parts by weight Bentonite: 74 parts by weight The total weight (solid content) of the foliar spraying agent S5 for apples is 90 parts by weight. The dosage form of the apple foliar spray S5 is powder.

(4) Apple foliar spray S6
The following components were mixed to produce an apple foliar spray S6.
Monopotassium phosphate: 1 part by weight Calcium sulfate: 39 parts by weight The total weight (solid content) of the apple foliar spray S6 is 40 parts by weight. The dosage form of the apple foliar spray S6 is powder.

(5) Foliar spray for apples S7
The following components were mixed to produce an apple foliar spray S7.
Monopotassium phosphate: 1 part by weight Bentonite: 60 parts by weight The total weight (solid content) of the foliar spraying agent S7 for apples is 61 parts by weight. The dosage form of the apple foliar spray S7 is powder.

2. Use of apple foliar spray (1) Preparation of spray liquid At a ratio of 2 g per liter of water, the apple foliar spray S1 is poured into water to form a spray liquid (hereinafter referred to as S1-500 times spray liquid). ) Was prepared. The foliar spray agent S1 for apples was thrown into water at a ratio of 1 g per liter of water to prepare a spray liquid (hereinafter referred to as S1-1000 times spray liquid).

  Apple leaf surface spray agent S2 was added to water at a ratio of 2 g per liter of water to prepare a spray liquid (hereinafter referred to as S2-500 times spray liquid). Apple leaf surface spray agent S2 was added to water at a ratio of 1 g per liter of water to prepare a spray liquid (hereinafter referred to as S2-1000 times spray liquid).

  Apple leaf surface spray agent S3 was added to water at a ratio of 2 g per liter of water to prepare a spray liquid (hereinafter referred to as S3-500 times spray liquid). Apple foliar spray agent S3 was added to water at a ratio of 1 g per liter of water to prepare a spray liquid (hereinafter referred to as S3-1000 times spray liquid).

  Apple leaf surface spray agent S4 was added to water at a ratio of 2 g per liter of water to prepare a spray liquid (hereinafter referred to as S4-500 times spray liquid). Apple leaf surface spray agent S4 was added to water at a ratio of 1 g per liter of water to prepare a spray liquid (hereinafter referred to as S4-1000 times spray liquid).

  Apple foliar spray agent S5 was introduced into water at a ratio of 2 g per liter of water to prepare a spray liquid (hereinafter referred to as S5-500 times spray liquid). Apple foliar spray agent S5 was added to water at a ratio of 1 g per liter of water to prepare a spray liquid (hereinafter referred to as S5-1000 times spray liquid).

  Apple leaf surface spray agent S6 was added to water at a ratio of 2 g per liter of water to prepare a spray liquid (hereinafter referred to as S6-500 times spray liquid). Apple foliar spray agent S6 was added to water at a ratio of 1 g per liter of water to prepare a spray liquid (hereinafter referred to as S6-1000 times spray liquid).

  An apple foliar spray agent S7 was added to water at a ratio of 2 g per liter of water to prepare a spray liquid (hereinafter referred to as S7-500 times spray liquid). Apple foliar spray agent S7 was added to water at a ratio of 1 g per liter of water to prepare a spray liquid (hereinafter referred to as S7-1000 times spray liquid).

(2) Spraying of spray liquid on apples Apple orchards were divided into first to fifteenth sections. As shown in Table 1, a predetermined spray liquid was sprayed on each compartment. The apple variety is "Tsugaru".

That is, the S1-500 times spray liquid was sprayed on the apple fruit trees in the first section, and the S1-1000 times spray liquid was sprayed on the apple fruit trees in the second section.
Moreover, S4-500 times spray liquid was sprayed on the fruit tree of the apple in the third section, and S4-1000 times spray liquid was sprayed on the fruit tree of the apple in the fourth section.

Moreover, S5-500 times spray liquid was sprayed on the fruit tree of the apple in the fifth section, and S5-1000 times spray liquid was sprayed on the fruit tree of the apple in the sixth section.
Moreover, S2-500 times spray liquid was sprayed on the apple fruit tree in the seventh section, and S2-1000 times spray liquid was sprayed on the apple fruit tree in the eighth section.

Moreover, the S6-500 times spray liquid was sprayed on the apple fruit tree in the ninth section, and the S6-1000 times spray liquid was sprayed on the apple fruit tree in the tenth section.
Moreover, S7-500 times spraying liquid was sprayed on the apple fruit tree in the 11th section, and S7-1000 times spraying liquid was sprayed on the apple fruit tree in the 12th section.

Moreover, S3-500 times spraying liquid was sprayed on the apple fruit tree in the 13th section, and S3-1000 times spraying liquid was sprayed on the apple fruit tree in the 14th section.
Nothing was sprayed on the apple fruit trees in the 15th section. S1-500 times dispersion, S1-1000 times dispersion, S3-500 times dispersion, S3-1000 times dispersion, S4-500 times dispersion, S4-1000 times dispersion, S5-500 times dispersion, S5 The dispersion of the -1000-fold dispersion was performed 2-3 times at intervals of 10 to 15 days from immediately after falling.

  S2-500 times dispersion, S2-1000 times dispersion, S6-500 times dispersion, S6-1000 times dispersion, S7-500 times dispersion, S7-1000 times dispersion are sprayed immediately after falling. Performed 3 to 5 times at intervals of ˜15 days.

(3) Evaluation of apple fruit Then, about the harvested apple fruit, the incidence rate of rust fruit disease was computed. The results are shown in Table 1 above. In addition, the rate of occurrence of bitter pits and oil rise was calculated for some sections. The results are shown in Table 1 above.

  As shown in Table 1, when using foliar sprays S1, S2, S3, S5, S7 for apples, when using foliar sprays S4, S6 for apples, and when not treated Compared with, the onset of rust fruit disease was suppressed. In particular, when apple foliar sprays S1 and S3 were used, the onset of rust fruit was suppressed. The effect of using the apple foliar spray S1 is considered to be a synergistic effect of bentonite and magnesium lignin sulfonate. The effect when using the apple foliar spray S3 is considered to be a synergistic effect of bentonite and monopotassium phosphate.

In the case of using the apple foliar spray agent S2, the occurrence of bitter pits was suppressed compared to the case of using the apple foliar spray agent S7 and the case of no treatment.
When the foliar sprays S2 and S7 for apples were used, the occurrence of oil rising was suppressed as compared to the case of no treatment. In particular, when the apple foliar spray agent S2 was used, the occurrence of oil rising was suppressed.

As mentioned above, although the form for implementing this invention was demonstrated, this invention is not limited to the above-mentioned embodiment, It can implement in various deformation | transformation.
(1) The compounding ratio of each component in the foliar spray for apples can be set as appropriate.

  (2) The mixing ratio of water and the foliar spray for apples when preparing the spray liquid can be set as appropriate. For example, it is preferable to mix 1 L of water and 1 to 10 g of a foliar spray for apples. In this case, the effect of suppressing apple rust disease is even higher.

  (3) A function of one component in each of the above embodiments may be shared by a plurality of components, or a function of a plurality of components may be exhibited by one component. Moreover, you may abbreviate | omit a part of structure of said each embodiment as long as a subject can be solved. In addition, at least a part of the configuration of each of the above embodiments may be added to or replaced with the configuration of the other above embodiments. In addition, all the aspects included in the technical idea specified from the wording described in the claims are embodiments of the present disclosure.

  (4) In addition to the above-described apple foliar spray, the present invention can be realized in various forms such as a product set including the apple foliar spray as a constituent element and an apple growing method.

Claims (6)

  An apple foliar spray containing bentonite. The foliar spray for apples according to claim 1,
A foliar spray for apples, wherein the blending ratio of bentonite is 30% by weight or more. The foliar spray for apples according to claim 1 or 2,
An apple foliar spray further comprising magnesium lignin sulfonate. The foliar spray material for apples according to claim 3,
A foliar spray for apples wherein the blending ratio of magnesium lignin sulfonate is 1% by weight or more. The foliar spraying agent for apples according to any one of claims 1 to 4,
An apple foliar spray further comprising calcium sulfate. The foliar spray for apples according to claim 5,
An apple foliar spraying agent having a calcium sulfate content of 5% by weight or more.