JP2003063906A - Plant disease control agent and disease control method using the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a plant disease control agent, which can effectively control plant diseases without causing injuries in plants, and also to provide a disease control method using the agent. SOLUTION: The plant disease control agent comprises a solution of salicylic acid and/or a salicylate and plant nutrients, namely phosphoric acid and potassium. The solution may further contain more than one or all of nitrogen, manganese, boron, iron, copper, zinc and molybdenum. An appropriate amount of the plant disease control agent is sprayed onto the leaves of the plants.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a plant disease control agent and a disease control method using the same.

[0002]

2. Description of the Related Art Salicylic acid present in plants is known to induce systemic acquired resistance of plants and suppress plant diseases (T. Gaffney, e.
t. , Requirements of Salicyl
ic Acid for theInduction
of Systemic Acquired Resi
stance, Science, 261, 754-75
6 (1993)).

Even when salicylic acid is externally treated,
It is known that systemic acquired resistance of a plant is induced, expression of a pathogenicity-related protein (PR protein) is increased, and a resistance reaction occurs (Z. Chen, et., Ac.
live Oxygen Specialties in th
e induction of Plant System
emic Aquired Resistance b
y Salicyclic Acid, Science
e, 262, 1883-1886 (1993)).

Utilizing the systemic acquired resistance of salicylic acid,
If plant diseases can be effectively suppressed, the occurrence of resistant bacteria and the harm to humans and the environment, which are major problems when using fungicides and pesticides, can be reduced.

However, salicylic acid alone cannot effectively control plant diseases. This is because if salicylic acid is foliarly sprayed on a plant to control the disease of the plant, it is necessary to spray a high-concentration salicylic acid aqueous solution, which causes damage to the plant. On the other hand, if the concentration of salicylic acid is reduced and the leaves are sprayed on the plants so that the plants are not damaged, there is a problem that the diseases of the plants cannot be effectively controlled.

As a method for controlling plant diseases using salicylic acid, a crossbreeding disease preventive agent for agricultural and horticultural use containing water-soluble chitosan, salicylic acid, and magnesium (JP-A-2000)
-212013) has been proposed. However, in this method, it is specified that the stability of the formulation as a liquid is uncertain.

[0007]

SUMMARY OF THE INVENTION The first object of the present invention is to solve the problems of the prior art, and to have a fungicide pesticide without inducing systemic acquired resistance of the plant and causing damage to the plant. It is possible to reduce the outbreak of resistant bacteria, which is a big problem, and harm to humans and the environment, and effectively control plant diseases.
And to provide a plant disease control agent having excellent stability of a formulation as a liquid agent, and a second object of the present invention is to effectively treat a plant disease by using such a plant disease control agent. It is to provide a method of controlling.

[0008]

Means for Solving the Problems As a result of earnest efforts to solve the above problems, the present inventors have found that salicylic acid or /
Further, it has been found that by spreading foliar application of salicylate and plant nutrients on plants, plant diseases can be effectively controlled without causing plant damage, and the present invention has been completed.

That is, the plant disease controlling agent according to claim 1 of the present invention is characterized by comprising an aqueous solution containing salicylic acid or / and a salicylate and the plant nutrients of phosphoric acid and potassium.

The plant disease controlling agent according to claim 2 of the present invention comprises salicylic acid or / and salicylate and the plant nutrients phosphoric acid and potassium, as well as nitrogen, manganese, boron, iron, copper, zinc and molybdenum. It is characterized by comprising an aqueous solution containing one or more or all of them.

The plant disease controlling agent according to claim 3 of the present invention is the plant disease controlling agent according to claim 1 or 2, wherein the phosphoric acid is orthophosphoric acid and / or polyphosphoric acid. And

[0012] A fourth aspect of the present invention is a disease controlling method, which comprises applying an appropriate amount of the plant disease controlling agent according to any one of the first to third aspects to a leaf surface of a plant.

A fifth aspect of the present invention is the method for controlling a disease according to the fourth aspect, wherein the concentration of salicylic acid and / or salicylate in the plant disease controlling agent according to any one of the first to third aspects is adjusted. It is characterized in that it is adjusted to 1 to 100 ppm (mass) and sprayed on the leaf surface of the plant.

By spraying an appropriate amount of the plant disease control agent of the present invention on the leaf surface of a plant, it is spread, penetrated and absorbed into the plant leaf to induce systemic acquired resistance of the plant, thereby damaging the plant. Plant diseases can be effectively controlled without causing them. The plant disease control agent of the present invention is inexpensive, has excellent stability, and is easy to handle. As described above, the plant disease control agent of the present invention does not contain water-soluble chitosan and magnesium, the formulation is also a liquid agent, and the agricultural and horticultural hybrid disease preventive agent (JP 2000-212013 A).
(Publication) is completely different.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, the contents of the present invention will be described in detail. The present invention, as described above, by foliar application of salicylic acid or / and salicylate and plant nutrients to plants by the present inventors, effectively control plant diseases without causing plant damage. It was made based on the first discovery of having the new function of being able to.

The salicylic acid or salicylic acid salt used in the present invention is an inexpensive material that is stable and easily available. Since it is water-soluble, it can be easily formulated and used.

In addition to these, the phosphoric acid, potassium, nitrogen, manganese, boron, iron, copper, zinc and molybdenum used in the present invention are sold as compounds such as water-soluble salts, and can be stably and easily prepared. It is a material that is available, easy to formulate, and easy to use.

The mechanism of action of the plant disease control agent of the present invention has not yet been elucidated. The plant disease control agent of the present invention, since using salicylic acid or / and salicylate, the plant disease control agent of the present invention, salicylic acid or the like induce systemic acquired resistance of the plant, Since it has a known mechanism of action for preventing disease, and contains phosphates and potassium which are plant nutrients, salicylic acid or / and salicylate have an effect of preventing plant disease more than the case of using them alone. / And it is considered that there is an unclear mechanism of action due to the synergistic effect of salicylate and phosphoric acid or potassium.
By adding boron, iron, copper, zinc, molybdenum, since the effect of preventing disease of plants is further enhanced, salicylic acid or / and salicylate and phosphoric acid and potassium, nitrogen, manganese, boron, iron, copper, zinc, It is thought that there is an unclear mechanism of action due to the further synergistic effect with molybdenum. Of course, the mechanism of action of the plant disease control agent of the present invention is not limited to this idea.

The plant disease control agent of the present invention is a liquid preparation in which a compound of salicylic acid or / and salicylate, phosphoric acid or potassium is dissolved in water, or in addition thereto, nitrogen, manganese, boron, iron or copper. It is a liquid formulation in which one or more or all compounds of zinc, molybdenum are dissolved in water. Compounds of salicylic acid or / and salicylates, phosphoric acid, potassium dissolved in these preparations, or in addition to these, nitrogen, manganese, boron, iron, copper, zinc,
The amount of molybdenum compound is not particularly limited because it varies depending on the type of plant, the type and degree of disease, and the like.

The plant disease control agent of the present invention further comprises
An acid such as citric acid or a chelating agent such as ethylenediaminetetraacetic acid / tetrasodium can be appropriately added as necessary in order to prevent precipitation or deterioration of the preparation. Furthermore, in order to spread and permeate the preparation into plant leaves and facilitate absorption, sugars and surfactants can be appropriately added as necessary.

The salicylate salt used in the present invention is not particularly limited, but the sodium salt is particularly soluble in water and easy to use, and therefore it is preferably used in the present invention.

The method of using the plant disease controlling agent of the present invention is not particularly limited, but when used, the concentration of salicylic acid or / and salicylate is diluted with water with respect to the whole plant disease controlling agent. It is desirable to adjust the amount to 1 to 100 ppm (mass), preferably 10 to 100 ppm (mass), and to spray the plants on the leaves. 1p
If it is less than pm, there is a risk that the plant disease prevention effect may not be obtained, and if it exceeds 100 ppm, the plant may be damaged, which is not preferable.

The use time of the plant disease control agent of the present invention is not particularly limited, but it can be used, for example, before the time when the plant disease is likely to occur, at the early stage, or during the development. Further, the target plant and its disease are not particularly limited, for example, powdery mildew and leaf mold disease of tomato, powdery mildew of cherry tomato and cucumber, and spot-like disease caused by mold that has occurred in soybean leaves. And the like.

[0024]

The present invention will be described below with reference to Examples and Comparative Examples, but the present invention is not limited to these Examples. The following% and ppm represent mass% and mass ppm, respectively. (Comparative Example 1) (Occurrence caused by foliar application of sodium salicylate to cherry tomatoes and powdery mildew control test) The concentration of sodium salicylate was 1,000 ppm and 100 ppm, respectively.
A 10 ppm aqueous solution was prepared and sprayed once on the cherry tomato seedlings. Tomato seedlings were cultivated in a glass house where powdery mildew fungus spreads, and mini tomato seedlings were infected with powdery mildew fungi. 6 days after spraying, the presence or absence of damage to the cherry tomato seedlings was investigated, and further, the degree to which the 6th leaf of the cherry tomato was affected by powdery mildew was investigated, and powdery mildew control was performed according to the following criteria. The effect was determined visually. The results are shown in Table 1.

(Comparative Example 2) Similar to Comparative Example 1, the presence or absence of damage to the mini-tomato seedlings which were not sprayed on the leaves was investigated, and the mini-tomato seedlings were infected with powdery mildew in the same manner as in Comparative Example 1 to prepare a comparative example. The control effect was visually determined in the same manner as in 1. The results are shown in Table 1.

[0026]     Criteria for control effect     Control effect Degree of disease         0 About 80% of leaves are covered with powdery mildew         Powdery mildew fungus covers about 60% of one leaf         2 About 40% of leaves are covered with powdery mildew         Powdery mildew fungus covers about 20% of 3 leaves         4 Several powdery mildew fungi are found on leaves         5 not ill

[0027]

[Table 1]

As shown in Table 1, the cherry tomatoes sprayed with the 1,000 ppm aqueous solution of sodium salicylate of Comparative Example 1 suffered from browning necrosis of a part of the leaves. It can be seen that the mini-tomato seedlings of Comparative Example 1 to which the 100 ppm or 10 ppm aqueous solution of sodium salicylate was sprayed on the foliage and the mini-tomato seedlings of Comparative Example 2 to which the foliar spray was not applied did not cause any damage.

From Table 1, comparing the powdery mildew control effect of cherry tomatoes by foliar application of sodium salicylate with the control effect 3.0 of non-dispersion of Comparative Example 2, an aqueous solution of sodium salicylate of 1,000 ppm in Comparative Example 1 is compared. The control effect by is as high as 4.0, while 100ppm and 10ppm
It can be seen that the control effect of the above aqueous solution is 3.0, which is not different from Comparative Example 2.

As described above, sodium salicylate 1,0
The foliar application of a 00 ppm aqueous solution has a higher control effect on cherry tomatoes than the non-applied ones, but causes damage. Foliar spraying of 100 ppm and 10 ppm aqueous solutions of sodium salicylate does not cause any damage to cherry tomatoes, but does not differ from non-sprinkling. That is, it can be seen that spraying sodium salicylate onto cherry tomatoes to control powdery mildew causes damage, and spraying leaf at a concentration that does not cause damage cannot control powdery mildew.

(Example 1) (Preparation of a plant disease controlling agent of the present invention) Sodium salicylate is 1%, phosphoric acid is P ₂ O ₅ as 7%, and potassium hydroxide is K ₂ O as 6%. An aqueous solution was prepared to prepare a plant disease control agent 1 of the present invention.

An aqueous solution prepared by diluting the plant disease control agent 1 thus prepared 300 times with water (sodium salicylate concentration is 33 ppm) was applied twice to a tomato seedling having three true leaves twice every 6 days. It was spread over the surface. Tomato seedlings were cultivated in a glass house where powdery mildew fungi spread, and the tomato seedlings were infected with powdery mildew. Ten days after the initial foliar application, the degree to which the second leaf of the tomato seedlings was affected by powdery mildew was investigated, and the powdery mildew control effect of the plant disease control agent 1 of the present invention was determined according to the above criteria. It was visually determined.
The results are shown in Table 2.

(Comparative Example 3) Plant disease controlling agent 1 of the present invention
Instead of using sodium salicylate 100pp
In the same manner as in Example 1, tomato seedlings to which the aqueous solution adjusted to have m or 10 ppm was sprayed twice on the leaves at intervals of 6 days and tomato seedlings that were not sprayed on the leaves were infected with powdery mildew fungus,
The control effect was visually determined. The results are shown in Table 2 in addition to Example 1.

[0034]

[Table 2]

As shown in Table 2, in comparison with Comparative Example 3, when the plant disease control agent 1 of the present invention is used, the powdery mildew control effect is much higher, and tomato powdery mildew is more effective. It turns out that it can be controlled.

(Example 2) (Preparation of another plant disease controlling agent of the present invention) 1% sodium salicylate, 7% phosphoric acid as P ₂ O ₅ , 6% potassium as K ₂ O, and nitrogen 3% as N, 0.1% as manganese as MnO, and 0.2% as boron as B ₂ O ₃ .
2%, iron as 0.08% as Fe, and copper as Cu.
05%, 0.05% zinc as Zn, 0.05% molybdenum as M
Make an aqueous solution to be 0.07% as o, add appropriate amounts of citric acid and ethylenediaminetetraacetic acid / tetrasodium to stabilize the aqueous solution, and further add sugar and a surfactant to enhance the effect of foliar application. An aqueous solution added in an appropriate amount was prepared to prepare a plant disease control agent 2 of the present invention.

The plant disease controlling agent 2 of the present invention thus prepared was diluted 100 times with water (sodium salicylate concentration was 100 ppm), and the resulting solution was sprayed onto cherry tomatoes (cultivar: carol) on a foliar surface. After a day, an aqueous solution prepared by diluting the plant disease control agent 2 of the present invention with water 300 times (sodium salicylate concentration was 33 ppm) was sprayed on the leaves. Cherry tomatoes were cultivated in a glass house where powdery mildew fungus spreads, and the cherry tomatoes were infected with powdery mildew.
19 days after the initial foliar application, the degree to which the fifth leaf of the tomato seedlings was affected by powdery mildew was investigated, and the powdery mildew control effect of the plant disease control agent 2 of the present invention was determined according to the above criteria. It was visually determined. The results are shown in Table 3.

(Comparative Example 4) Plant disease controlling agent 2 of the present invention
Instead of using sodium salicylate 100pp
The aqueous solution adjusted to be m was sprayed onto the cherry tomatoes twice every 6 days. The cherry tomatoes and the cherry tomatoes that were not sprayed on the leaves were infected with powdery mildew fungi in the same manner as in Example 2, and the control effect was visually determined. The results are shown in Table 3 in addition to Example 2.

[0039]

[Table 3]

As shown in Table 3, when the plant disease control agent 2 of the present invention is used as compared with Comparative Example 4, the powdery mildew control effect is remarkably high and the powdery mildew of cherry tomato is effective. It turns out that it can be controlled.

Example 3 An aqueous solution prepared by diluting the plant disease control agent 2 prepared in Example 2 with water 300 times (sodium salicylate concentration is 33 ppm) was applied to cucumber seedlings (cultivar: four leaves) at intervals of 6 days. The leaves were sprayed twice. Cucumber seedlings were cultivated in a glass house where powdery mildew fungi spread, and the cucumber seedlings were infected with powdery mildew fungi. Eleven days after the initial foliar application, the degree to which the second leaf of the cucumber seedling was affected by powdery mildew was investigated, and the powdery mildew control effect of the plant disease control agent 2 of the present invention was determined according to the above criteria. It was visually determined. The results are shown in Table 4.

Comparative Example 5 Plant Disease Control Agent 2 of the Present Invention
Instead of using sodium salicylate 100pp
In the same manner as in Example 3, cucumber seedlings sprayed twice with an aqueous solution adjusted to have m or 10 ppm twice at 6-day intervals and cucumber seedlings not sprayed with leaf leaves were infected with powdery mildew, and the control effect was visually observed. I asked. The results are shown in Table 4.

[0043]

[Table 4]

As shown in Table 4, compared to Comparative Example 5, when the plant disease control agent 2 of the present invention was used, the powdery mildew control effect was remarkably high, and the powdery mildew of cucumber was effective. It turns out that it can be controlled.

(Example 4) An aqueous solution prepared by diluting the plant disease control agent 2 of the present invention 100 times with water (sodium salicylate concentration is 100 ppm) was applied to soybeans in which spot-like diseases caused by mold were caused on the leaves. It was spread over the surface. As a result, the development of soybean disease stopped for about three weeks before the harvest.
From these results, it is understood that the plant disease control agent 2 of the present invention effectively suppresses the spotted disease caused by mold of soybean leaves.

[0046]

Since the plant disease controlling agent according to claim 1 of the present invention comprises an aqueous solution containing salicylic acid or / and salicylate and phosphoric acid and potassium of plant nutrients,
Inexpensive, stable, and easy to handle, and by spreading an appropriate amount on the leaf surface of the plant, it spreads, penetrates and absorbs into the plant leaf to induce the systemic acquired resistance of the plant. Thus, a remarkable effect that plant diseases can be effectively controlled without causing damage to the plants is exhibited.

The plant disease controlling agent according to claim 2 of the present invention comprises salicylic acid or / and salicylate and the plant nutrients phosphoric acid and potassium, as well as nitrogen, manganese, boron, iron, copper, zinc and molybdenum. As it consists of an aqueous solution containing one or more or all of them, it is inexpensive, has excellent stability, is easy to handle, and spreads on the leaves of the plant by spreading it on the leaves of the plant in an appropriate amount. It has a remarkable effect that it can be absorbed to further induce the systemic acquired resistance of the plant, and the disease of the plant can be more effectively controlled without causing damage to the plant.

The plant disease controlling agent according to claim 3 of the present invention is the plant disease controlling agent according to claim 1 or 2, wherein the phosphoric acid is orthophosphoric acid and / or polyphosphoric acid. In addition to having the same effect as the plant disease control agent according to claim 1 or claim 2, it is easily soluble in water,
It has a further remarkable effect of being able to control plant diseases even more effectively.

The disease control method according to claim 4 of the present invention comprises:
Since a suitable amount of the plant disease control agent according to any one of claims 1 to 3 is sprayed on the leaf surface of a plant, it spreads, penetrates and is absorbed into the plant leaf to induce systemic acquired resistance of the plant. Thus, a remarkable effect that plant diseases can be easily and effectively controlled without causing damage to the plants.

A fifth aspect of the present invention is the method for controlling a disease according to the fourth aspect, wherein the concentration of salicylic acid or / and salicylate in the plant disease controlling agent according to any one of the first to third aspects is adjusted. Since it is adjusted to 1 to 100 ppm (mass) and sprayed on the leaf surface of the plant, the same effect as the disease control method according to claim 4 can be obtained, and it is possible to surely cause no damage to the plant without fail. It has the further remarkable effect of easily and effectively controlling plant diseases.

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Claims (5)

[Claims] 1. A plant disease control agent comprising an aqueous solution containing salicylic acid or / and salicylate and plant nutrients such as phosphoric acid and potassium. 2. An aqueous solution containing salicylic acid or / and salicylate and one or more of nitrogen, manganese, boron, iron, copper, zinc and molybdenum, in addition to phosphoric acid and potassium which are plant nutrients. And a plant disease control agent. 3. The plant disease controlling agent according to claim 1 or 2, wherein the phosphoric acid is orthophosphoric acid and / or polyphosphoric acid. 4. A disease control method, which comprises applying an appropriate amount of the plant disease control agent according to any one of claims 1 to 3 to a leaf surface of a plant. 5. A plant leaf in which the concentration of salicylic acid or / and salicylate in the plant disease controlling agent according to any one of claims 1 to 3 is adjusted to be 1 to 100 ppm (mass). The method for controlling disease according to claim 4, which is sprayed on the surface.