JP4531732B2 - Pesticide - Google Patents

Description

  The present invention relates to a powdery pesticide used by being sprayed on a plant.

  Conventionally, agricultural chemicals have been widely used to protect plants from diseases and the like, but on the other hand, the effects of residual agricultural chemicals on the human body are regarded as problems.

  Therefore, in recent years, considering the influence on the human body and the environment, it has been considered to use titanium dioxide as an agrochemical by paying attention to the photocatalytic action of titanium dioxide which is an inorganic substance (for example, see Patent Document 1). ).

JP-A-11-343209

  However, photocatalysts typified by titanium dioxide generate OH radicals when irradiated with ultraviolet rays, and have the action of decomposing organic substances by these OH radicals, so they are effective against pathogenic bacteria and pests that are harmful to plants. In addition to that, it also has the effect of decomposing the surface of the plant itself, such as the leaves, stems and fruits of the plant.

  Therefore, simply spraying powdered titanium dioxide toward a plant may have a great influence on the plant and is not suitable for use as an agricultural chemical.

  In particular, because titanium dioxide has low adhesion, it cannot be left on the surface of plants for a long time. When used as an agrochemical, a large amount of titanium dioxide must be sprayed, The surface was whitened and this point was not suitable for use as an agrochemical.

  Moreover, in recent years, in consideration of the influence of ultraviolet rays on plants, plants are often cultivated in houses covered with ultraviolet cut films, and the plants are irradiated accordingly. The amount of ultraviolet rays has decreased, and an increasing amount of titanium dioxide has to be used, making it unsuitable for use as an agrochemical because of its cost.

Therefore, in the present invention, a powdery photocatalyst and a powdery apatite are mixed in a powdery pesticide used by being sprayed toward a plant.

In the present invention, the photocatalyst having a smaller diameter than the apatite is used.

In the present invention, the content of the photocatalyst is less than that of the apatite.

In the present invention, the photocatalyst contains visible light responsive titanium dioxide.

In the present invention , natural apatite is used as the apatite.

  And in this invention, there exists an effect described below.

That is, in the present invention, in a powdery pesticide used by being sprayed on a plant, a powdery photocatalyst and a powdery apatite are mixed, so that the apatite functions as a spreading agent. It adheres to the surface of the plant, and the photocatalyst is adsorbed on the surface of the apatite due to the adsorbability of the apatite.

  Therefore, the photocatalyst can be attached to the surface of the plant for a long time via apatite, the effect as an agrochemical can be maintained, and the photocatalyst can be prevented from directly attaching to the surface of the plant. Therefore, it is possible to prevent the surface of the plant itself from being decomposed by the action of the photocatalyst.

  And since the photocatalyst and apatite are mixed, the usage-amount of a photocatalyst can be reduced and the cost as an agrochemical can be reduced.

Moreover, pathogenic bacteria and microorganisms can be adsorbed by the adsorptivity of apatite, and the bactericidal action and insecticidal action by the photocatalyst can be improved.
Furthermore, since apatite contains phosphorus as a fertilizer component, apatite dropped from the surface of the plant to the ground can promote the growth of the plant as a fertilizer.

In the present invention, since a photocatalyst having a smaller diameter than apatite is used, the photocatalyst having a relatively small diameter can be favorably adsorbed on the surface of a relatively large diameter apatite. Direct adhesion can be surely prevented.

In the present invention, since the photocatalyst content is less than the apatite content, a relatively small amount of photocatalyst can be adsorbed favorably on the surface of a relatively large amount of apatite. It is possible to reliably prevent the photocatalyst from directly adhering to the photocatalyst and to reduce the amount of the photocatalyst used, thereby reducing the cost of the agricultural chemical.

Further, in the present invention, since visible light responsive titanium dioxide is contained as a photocatalyst, the photocatalyst can exhibit a bactericidal action and an insecticidal action even in a place where the amount of ultraviolet light irradiation is small, and effectively acts as an agrochemical. be able to.

Moreover, in this invention, since natural apatite is used as apatite, it can be set as the agrochemical designated as specific control material (specific pesticide).

  The agrochemical according to the present invention removes pathogenic bacteria and pests harmful to plants by utilizing the bactericidal action and insecticidal action of photocatalysts, assists and promotes the growth of plants, and is a commonly used drug spreader It is a powdery pesticide that is used by spraying it on plants.

  And in this invention, it is the composition which mixed the powdery photocatalyst and the powdery apatite. As the extender, one or a mixture of two or more of clay, tackle, calcium carbonate, diatomaceous earth, and zeolite can be added.

  In this way, by making a pesticide that is a mixture of powdered photocatalyst and powdered apatite, apatite with better spreadability than the photocatalyst adheres to the plant surface when sprayed toward the plant It will be.

  In addition, by using an agrochemical in which a powdery photocatalyst and a powdery apatite are mixed, apatite having better adsorbability than the photocatalyst adsorbs the photocatalyst.

  As a result, apatite mainly adheres directly to the surface of the plant, the photocatalyst adheres to the surface of the apatite, and the photocatalyst adheres to the surface of the plant via the apatite.

  This allows the photocatalyst to continue to adhere to the surface of the plant over a long period of time due to the spreadability of the apatite compared to the case where only the photocatalyst is sprayed toward the plant. The effect can be sustained.

  In addition, unlike the case where only the photocatalyst is sprayed on the plant, it is possible to prevent the photocatalyst from directly attaching to the surface of the plant, so that the surface of the plant itself is decomposed by the action of the photocatalyst. Can be prevented.

  And since the photocatalyst and apatite are mixed, compared with the case where only a photocatalyst is used as an agrochemical, the usage-amount of a photocatalyst can be reduced and the cost as an agrochemical can be reduced.

  In addition, because it contains apatite, it can adsorb pathogenic bacteria and microorganisms existing on the surface of plants and in the vicinity by apatite, which has better adsorbability than photocatalyst, compared to the case where only photocatalyst is used as an agrochemical. The bactericidal action and insecticidal action by the photocatalyst can be improved.

  Furthermore, since it contains apatite, apatite that has fallen to the ground from the surface of the plant by the action of phosphorus as a fertilizer component contained in the apatite can promote the growth of the plant as a fertilizer.

Here, a photocatalyst is a substance capable of generating OH radicals by light irradiation and decomposing organic substances, such as metal oxides (TiO ₂ , ZnO, NiO, Cu ₂ O) and metal sulfides (ZnS, CdS). , HgS) and metal selenide (CdSe).

  In particular, titanium dioxide is preferable as a photocatalyst in view of availability and functionality, and visible light responsive titanium dioxide is preferable in consideration of use in a house using a recent ultraviolet cut film. Further, as a photocatalyst, a mixture of general titanium dioxide and visible light responsive titanium dioxide may be used.

  In this way, when visible light responsive titanium dioxide is included as a photocatalyst, the photocatalyst's bactericidal action and insecticidal action can be exerted even in places where the amount of ultraviolet irradiation is small, such as a house using an ultraviolet cut film. Can be effectively used as an agrochemical.

On the other hand, apatite is composed of fluorapatite (Ca ₅ F (PO ₄ ) ₃ ), chlorapatite (Ca ₅ Cl (PO ₄ ) ₃ ), hydroxyapatite (Ca ₅ (OH) (PO ₄ ) ₃ ), apatite carbonate ( Ca ₅ F (CO ₃ ) ₃ , Ca ₅ Cl (CO ₃ ) ₃ , Ca ₅ (OH) (CO ₃ ) ₃ ) can be used, and natural materials such as minerals and calcined bone meal produced from the ground Apatite or artificially chemically synthesized apatite may be used.

  In particular, as apatite, natural apatite represented by calcined bone powder is preferable, and in this case, it can be a pesticide designated as a specific control material (specific pesticide).

  As the photocatalyst, one having a particle size of 30 nm to 500 nm is used. On the other hand, as the apatite, it is preferable to use one having a particle size of 1 μm to 100 μm, and the particle size of the photocatalyst is made smaller than that of the apatite. It is preferable.

  Thus, when a photocatalyst having a diameter smaller than that of apatite is used, the photocatalyst having a relatively small diameter can be favorably adsorbed on the surface of the relatively large diameter apatite, and the photocatalyst is directly applied to the surface of the plant. Can be reliably prevented from adhering to the surface.

  The photocatalyst content is preferably 30% by weight or less, and the photocatalyst content is preferably less than the apatite content.

  Thus, when the content of the photocatalyst is less than the content of the apatite, a relatively small amount of the photocatalyst can be favorably adsorbed on the surface of a relatively large amount of the apatite. Direct adhesion can be surely prevented, and the amount of photocatalyst used can be reduced, so that the cost of agricultural chemicals can be reduced.

Claims (3)

In powdered pesticides used by spraying on plants,
An agrochemical characterized by mixing powdery apatite functioning as a spreading agent and a small amount of powdery photocatalyst smaller than apatite and attaching the photocatalyst to the surface of the apatite . The agrochemical according to claim 1 , wherein the photocatalyst contains visible light responsive titanium dioxide. The agrochemical according to claim 1 or 2 , wherein natural apatite is used as the apatite.