JP2005289845A - Method for preventing growth of alga on turfgrass - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for preventing the growth of algae on turfgrass, which has a high selectivity to the turfgrass, high safety of a chemical to a person in charge, is laborsaving, excellent in a preventive effect and an initial treatment effect, and additionally can exterminate both already grown mosses/algae and the bacterial disease of the turfglass becoming a problem in recent years. <P>SOLUTION: The method for preventing the growth of algae on the turfgrass comprises treating the soil or the stem and leaf of turfgrass with an agrochemical composition containing streptomycin or its salt. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a method for controlling algae that damage lawns, in particular, cyanobacteria belonging to the genus Formidium and the genus Nostock.

  In recent years, damage caused by algae has become conspicuous on the lawn of golf courses such as green. The reasons for this include the widespread use of sand green, low mowing, 1 greening, and regulations on the use of pesticides with C-type fish poisons.

  Algae that cause damage to the lawn mainly belong to cyanobacteria, and among them, those that belong to the genus Formidium and the genus Nostock are the main causes. Those belonging to Formidium have an appearance that spreads flat on the ground surface, and microorganisms of the genus Nostock have an appearance resembling a jellyfish, which, by breeding on the surface of the lawn, harms the beauty of the lawn and inhibits the growth of the lawn To do.

  Conventionally, as a method for controlling algae that damages lawns, a method based on growth management (so-called cultivated control method) and a method using chemicals are known. More specifically, as a control method by growth management, (i) a method of increasing the density of upright stalks of turf, (ii) a method of avoiding excessive irrigation, (iii) a method of constantly changing the surface of the lawn, (iv) There are known preventive methods such as a method of using baked sand as joint soil, and a method (v) of improving sunshine conditions. As a method using a drug, specifically, a fosetyl + polycarbamate mixture (Golet: registered trademark) or the like is used.

  However, the above-described growth management method and existing registered chemical control method for turf algae are difficult to obtain a sufficient effect except for the suppression of algae generation or control at the initial stage of algae generation. There was a problem that a great deal of labor was required for management. In addition, when using existing registered pesticides, there is a risk of causing phytotoxicity to turf or causing blurring to humans depending on the conditions. In addition, these drugs have a problem that they do not exhibit a sufficient effect on the bacterial disease of turf which has been a problem in recent years.

  On the other hand, the damage caused by cyanobacteria on the lawn is also known in the United States and the United Kingdom, and although TPN and mancozeb are effective, it is reported that complete chemical control is difficult as in Japan (Non-Patent Document 2, 3 etc.). In addition, some of the British genus Nostock are known to produce toxins such as Nostocyclin (Non-patent Document 4).

  Furthermore, in recent years, leaf blight caused by Pseudomonas syringae group bacteria (Halo bright), leaf rot caused by Pseudomonas syringae group bacteria (Sheath brown rot), and leaf blight caused by bacteria belonging to the genus Xanthomonas Bacterial diseases such as Bacterial leaf blight) occur in the lawn and become a problem, and there is a demand for an effective control agent (Non-patent Document 5, etc.).

  In connection with the present invention, streptomycin (CAS 57-92-1,1 ′-[1-L- (1,3,5 / 2,4,6) -4- [5] is effective as an antibiotic effective against cyanobacteria. -Deoxy-2-O-methylamino-α-L-glucopyranosyl-3-C-formyl-α-L-hydrofuranoyloxy] -2,5,6-trihydroxycyclohex-1,3-ylene])), etc. (Nonpatent literature 6 grade | etc.,). Moreover, it is known that a streptomycin composition will show a high effect with respect to various bacterial diseases as a single agent or a mixture by spraying foliage, injecting tree trunks, soaking seeds, and dressing as agricultural chemicals.

  However, a treatment method for controlling moss and cyanobacteria by turf soil or foliage spraying is not known. In general, even if agrochemical candidate compounds have a growth-inhibiting effect under limited indoor experimental conditions (in vitro), in order to actually be effective as pest control agents in the field, Stability (deactivation due to soil adsorption, photolysis, metabolism due to microorganisms in the soil, runoff due to rainfall, etc.), absorption, migration, metabolism, life cycle, etc. in the target organism are actually enough In many cases, it is necessary to confirm the effect in an actual field.

Hiroyuki Yamaji, (2) “Green Moss and Algae Control”, News from Research Institute, West Japan Green Research Institute, December 2002, Volume 55, p. 19-27 Phillip Colbauch, “Algae-cristy fors for golf greens”, Research by Science and Technology Promotion Coordination Fund (FY1997) Paul Vincelli and 1 other, "Chemical Control of Turfglass Diseases 2004", University of kentuckle college of agility, UK cooperative. 6 Haseya and two others, “Chemical structure and biological effects of novel harmful substances in the filamentous cyanobacteria Oscilaria and Nostock in Japanese and English waters”, Research by Science and Technology Promotion Adjustment Cost (FY 1997) Maki Kobayashi et al., “Three Bacterial Diseases Occurring in Creeping Bentgrass”, Turfgrass Research, Vol. 31, No. 1, Conference, 2002, Japanese Society of Turfgrass Science, p. 36-37 Tamiya Hiroshi, Watanabe Atsushi, Algae Experimental Method, Nanedo Co., Ltd., October 1965, p. 40-43

  The present invention has been made in view of such circumstances, and is a method for controlling algae generated on lawn, which has high selectivity to lawn and high safety of medicines for handlers, labor saving, and excellent prevention. It is an object of the present invention to provide a method for controlling algae generated in lawn, which can simultaneously control the growth of moss and algae that have been growing and the bacterial disease of lawn that has recently become a problem, in addition to the effects of treatment and initial treatment.

  In order to solve the above-mentioned problems, the present inventors screened a drug that can effectively control algae generated on the lawn. As a result, the streptomycin single agent and its mixed composition have a high preventive effect on algae generated on the lawn and an initial treatment effect, as well as a high control effect on algae that have grown, and selection on the lawn As a result, the present invention has been completed.

Thus, according to the present invention, there is provided a method for controlling algae occurring in lawns, characterized by treating a pesticide composition containing streptomycin or a salt thereof with soil or foliage.
In the algae control method of the present invention, it is preferable that the agrochemical composition further contains one or more other agrochemical components.
In the method for controlling algae according to the present invention, the agrochemical composition further contains one or more other agrochemical components, and the other agrochemical components are azoxystrobin, isoprothiolane, flutolanil, iprodione, iminoctadine, tolcrophos. Methyl, validamycin, fosetyl, organocopper, thiuram, polyoxin, microbutanyl, imibenconazole, captan, cresoxymethyl, chloronebu, cyproconazole, cimeconazole, benomyl, thiophanate methyl, pencyclon, triflumizole, tifluzamide, tetraconazole, triphorin, ferrimzone , Viteltanol, hydroxyisoxazole, propiconazole, metalaxyl, pyributicarb, fenarimol, propamocarb, mepronil, polycarbamate, MIPC, T N, isoxaben, bethrosin, imazosulfuron, ethoxysulfuron, cumyllon, ciduron, halosulfuron methyl, biphenox, prodiamine, MCPA, flurprimidol, trinexapac ethyl, paclobutrazole, indole butyric acid, acetamiprid, oxytetracycline, mannebu More preferably, at least one selected from the group consisting of, Zineb, Mancozeb, Diram, Inorganic copper, Oxolinic acid, Kasugamycin, Oxytetracycline, ACN, and Nonylphenol sulfonate copper.

In the algal control method of the present invention, the lawn is preferably bent green.
In the algae control method of the present invention, the algae is preferably a cyanobacteria, the algae is a cyanobacteria, and the cyanobacteria belong to the genus Formidium or the genus Nostock. More preferably.

According to the control method of the present invention, it has a high selectivity to lawn, and is high also for moss and algae that have grown in addition to the preventive effect of the damage caused by algae occurring on the lawn and the initial treatment effect. A control effect can be obtained.
The control method of the present invention does not require much labor like the control method by growth management, and there is little possibility of causing phytotoxicity to lawns or causing blurring to humans depending on conditions like existing registered agricultural chemicals. Is.
In addition, the control method of the present invention has a wide application period of the drug, has an excellent control effect on algae generated on the lawn, and at the same time has an excellent control effect on bacterial diseases of the lawn that have become a problem in recent years. Is.

Hereinafter, the present invention will be described in detail.
The method for controlling algae occurring on the lawn of the present invention is characterized in that a pesticide composition comprising streptomycin or a salt thereof is treated with soil or foliage.

The agrochemical composition used in the present invention contains streptomycin or a salt thereof.
Streptomycin or a salt thereof is not particularly limited as long as it is streptomycin or a pharmacologically acceptable salt of streptomycin.

  Various additives and carriers can be added to the agricultural chemical composition used in the present invention as desired. As the additive and carrier, when the purpose is a solid agent, for example, vegetable powder such as soybean powder and wheat flour, mineral fine powder such as diatomaceous earth, apatite, gypsum, talc, bentonite, pyrophyllite and clay Organic and inorganic compounds such as sodium benzoate, urea, and sodium sulfate are used. When liquid dosage forms are intended, for example, kerosene, xylene and petroleum aromatic hydrocarbons, cyclohexane, cyclohexanone, dimethylformamide, dimethyl sulfoxide, alcohol, acetone, trichloroethylene, methyl isobutyl ketone, mineral oil Vegetable oil, water or the like can be used as a solvent.

  Moreover, surfactant can also be added to the agrochemical composition used for this invention as needed. The surfactant that can be added is not particularly limited. For example, alkylphenyl ether added with polyoxyethylene, alkyl ether added with polyoxyethylene, higher fatty acid ester added with polyoxyethylene, polyoxyethylene Sorbitan higher fatty acid ester added with polyoxyethylene, nonionic surfactant such as tristyryl phenyl ether added with polyoxyethylene, sulfate ester salt of alkylphenyl ether added with polyoxyethylene, alkylbenzene sulfonate, sulfuric acid of higher alcohol Examples include ester salts, alkyl naphthalene sulfonates, polycarboxylates, lignin sulfonates, formaldehyde condensates of alkyl naphthalene sulfonates, and isobutylene-maleic anhydride copolymers.

  The amount of active ingredient (streptomycin or a salt thereof) in the agricultural chemical composition used in the present invention is usually preferably 0.01 to 90% by weight, more preferably 0.05 to 90% by weight based on the whole composition (formulation). 85% by weight.

  It goes without saying that the agrochemical composition used in the present invention is sufficiently effective even with streptomycin or a salt thereof alone, but various fungicides, insecticides, acaricides, herbicides, plant growth regulators, fertilizers and the like are mixed. You can also. In particular, it is possible to reduce the amount of drug used by mixing with fungicides or herbicides. Moreover, not only can labor be saved, but a higher effect can be expected due to the synergistic action of the mixed drugs. In that case, a combination with a plurality of known agents is also possible.

  Representative examples of fungicides, insecticides, herbicides, and plant growth regulators that can be mixed with streptomycin or a salt thereof are shown below, but these are merely examples and are not limited.

(Fungicide)
TPN, azoxystrobin, isoprothiolane, iprodione, iminotadine albesylate, iminotazine acetate, imibenconazole, eclomezole, oxycarboxy, captan, cresoxime methyl, chloroneb, cyproconazole, cyconconazole, hydrated sulfur, thiuram, thiophanate methyl, Tifluzamide, tetraconazole, tebuconazole, triadimephone, triclofosmethyl, trifumizole, trifolin, tolcrofosmethyl, paridamycin, paridamycin, paridamycin A, viteltanol, hydroxyisoxazole, pyributicalbu, fenarimol, ferrimzone, flutolanil, prosimidone, propamocarb hydrochloride Salt, propiconazole, benomyl, pencyclon, fosetyl, polyoxy It can include polyoxin D, polyoxin D zinc salt, poly carbamate, Mikurobutamiru, metalaxyl, mepronil, the organic copper.

(Insecticide)
BT, CVMP, CVP, CYAP, DDVP, DEP, MEP, MIPC, NAC, PHC, acetamiprid, acephate, isoxathione, imidacloprid, etofenprox, clothianidin, chlorpyrifos, cyhalothrin, silafluophene, steiner gurasairai Examples thereof include diazinon, thiamethoxam, thiodicarb, tebufenoside, teflubenzuron, tralomethrin, bifenthrin, pyridafenthion, fenobucarb, bulwer lucaurea, prothiophos, perfumethrin microcapsules, permethrin, bensultap, mesomil, and monochlorophos.

(Herbicide)
2,4-PA, CAT, MCPP, MCP, isopropylamine salt, MDBA, SAP, ashram, amiprophosmethyl, alachlor, isoxaben, imazaquinammonium, imazosulfuron, ethoxysulfuron, endtal disodium salt, oxaziargyl , Oxadichrome mehon, oryzalin, orthoben curve, cavenstrol, zantmona scan pastoris, cyanazine, cyclosulfamuron, dithiopyr, ciduron, sinosulfuron, cinmethylin, tenylchlor, triadifram, triclopyr, trifloxysulfuron sodium salt, napropamide, halosulfuron methyl , Pifenox, piributicalbu, butamifos, flazasulfuron, prodiamine, propizzamide, florasulam, vesodi , Mention may be made of pendimethalin, mecoprop P calcium salts, methyl daimuron, metsulfuron methyl, lenacil, and the like.

(Plant growth regulator)
Examples include trinexapac ethyl, paclobutrazol, fenarimol, flurprimidol, and prohexadione calcium salt.
Moreover, additives, such as a vegetable oil and an oil concentrate, can also be added to the composition which combined these.

  As the agrochemical composition comprising streptomycin or a salt thereof or streptomycin or a salt thereof and other agrochemical components used in the present invention, more specifically, a streptomycin solution, a streptomycin wettable powder, a streptomycin thiophanate methyl wettable powder, a streptomycin -Commercial preparations containing streptomycin such as copper wettable powder, streptomycin / fludioxonil wettable powder, streptomycin / organic copper wettable powder, and the like.

  When a pesticide composition containing streptomycin or a salt thereof is actually applied, it can be used in a pure form without adding other components, and a general pesticide can be used for pesticide use, that is, water. It can also be used in the form of a powder, a granule, a powder, an emulsion, an aqueous solvent, a suspension, a flowable, a granule wettable powder, a liquid.

  Such wettable powders, emulsions, flowable powders, aqueous solvents, granular wettable powders, etc. are diluted with water to a predetermined concentration to give a solution, suspension, or emulsion. Used in a spraying method.

  The formulated agrochemical composition used in the present invention is applied to a plant body, seeds, water surface or soil as it is or diluted with water or the like. The application amount varies depending on weather conditions, formulation form, application time, application method, application place, disease to be controlled, target crop, etc., but is usually 1 to 2,000 g as an active ingredient compound amount per 10 ares, preferably 10 1,000 g.

  The control method of the present invention can be applied to algae, preferably cyanobacteria, more preferably microorganisms belonging to the genus Formidium or the genus Nostock.

  The control method of the present invention is useful as a method for controlling algae generated on cultivated land and non-cultivated land including lawn, flower buds, turf, and pasture. Especially, the control method of this invention is useful as a method of controlling the algae which generate | occur | produces on lawn, Preferably bent green.

  Hereinafter, the control method of the present invention will be specifically described by way of examples. However, the present invention is not limited to the following examples, and the composition ratios and agents of the preparation are within the scope of the present invention. The mold etc. can be changed freely.

In the field of 3 series in District 1 2m ² wide, USGA method according to (bentgrass - Yoshisuke Maki, YanagiHisa, Akira Okubo, Ltd. Soft Science, Inc. July 1991 - characteristics and the latest Green Construction and Management) Bentgrass was sown. After the first trimming (cutting height 8 mm), we trimmed twice a week in summer and about once in autumn. The fertilizer was appropriately supplemented in addition to the original fertilizer, and irrigation was continued 3 times a day for 15 minutes. After about 3 months from the sowing of bentgrass, cyanobacteria colonies (poor permeability) were confirmed throughout the field. As a result of the identification, it was found that formidium (Pormidium sp.) Has priority, and the occurrence of Nostock (Nostoc commune) is small in the field.

After seeding of bentgrass, after 135 days and 147 days, each of the following drugs A and B was sprayed at a rate of 1 liter / m ^{2 with} a certain distance from the top of the grass with a watering can.
Drug A: Streptomycin 18.8% + Thiophanate methyl 50% wettable powder (Attakin (registered trademark) wettable powder (WP), Nippon Soda Co., Ltd.) diluted 500 times with water Drug B: Focetyl 25% + Aqueous solution of 50% polycarbamate wettable powder (Gorette (registered trademark) wettable powder) diluted 333 times with water

(Investigation of efficacy and phytotoxicity)
After spraying the drug, after 14 days and 28 days, the efficacy and phytotoxicity were investigated twice according to the criteria shown below. The survey results are shown in Table 1.

(1) Investigation method (a) Cyanobacteria: The colony (dark blue) generation area was inspected and judged according to the following criteria.
Occurrence area index:
0: Less than 1%: No damage 1: 1% or more and less than 6%: Damaged but minor 2: 6% or more and less than 13%: Damage that causes practical problems 3: 13% or more: Damage that causes practical problems

(B) Lawn: Inspected and judged on the following criteria for phytotoxicity against turf.
Drug damage index:
0: Less than 1%: No phytotoxicity 1: 1% or more and less than 6%: There is phytotoxicity but minor 2: 6% or more and less than 13%: There is no phytotoxicity to a certain extent in practical use, but caution is required 3: 13% or more: Practical problems with some phytotoxicity

第１表より、アタッキン処理区は対照薬剤のゴーレット（市販剤）と同等以上の効力を示し、２８日後でも藍藻類（フォルミジウムが主体）の発生が認められなかった。また薬害も全くみられなかった。

From Table 1, the Attkin treatment group showed the same or better efficacy than the control drug Golet (commercially available agent), and the occurrence of cyanobacteria (mainly formidium) was not observed even after 28 days. There was no phytotoxicity.

Claims (6)

  A method for controlling algae generated on a lawn, comprising treating a pesticide composition containing streptomycin or a salt thereof with a soil or a foliage.   The method for controlling algae generated on the lawn according to claim 1, wherein the agrochemical composition further contains one or more other agrochemical components.   The other agrochemical components are azoxystrobin, isoprothiolane, flutolanil, iprodione, iminotazine, tolcrofosmethyl, validamycin, fosetyl, organic copper, thiuram, polyoxin, microbutanyl, imibenconazole, captan, cresoxymethyl, chloroneb, cyproconazole, Cimeconazole, benomyl, thiophanate methyl, pencyclon, triflumizole, tifluzamide, tetraconazole, trifolin, ferimzone, viteltanol, hydroxyisoxazole, propiconazole, metalaxyl, pyributicarb, fenarimol, propamocarb, mepronil, polycarbamate, MIPC, TPN, Isoxaben, Bethrosin, Imazosulfuron, Ethoxysulfuron, Cumylron, Siduro , Halosulfuron methyl, biphenox, prodiamine, MCPA, flurprimidol, trinexapac ethyl, paclobutrazol, indole butyric acid, acetamiprid, oxytetracycline, mannebu, dineb, mancozeb, ziram, inorganic copper, oxolinic acid, kasugamycin, The control method according to claim 2, which is at least one selected from oxytetracycline, ACN, and copper nonylphenol sulfonate.   The method for controlling algae generated on a lawn according to any one of claims 1 to 3, wherein the lawn is bent green.   The said algae is cyanobacteria, The control method of the algae which generate | occur | produces in the lawn in any one of Claims 1-4.   6. The method for controlling algae according to claim 5, wherein the cyanobacteria are algae belonging to the genus Formimidium or the genus Nostoc.