OA21263A - Methods for controlling or preventing infestation of plants by a phytopathogenic microorganism of the genus aspergillus. - Google Patents
Methods for controlling or preventing infestation of plants by a phytopathogenic microorganism of the genus aspergillus. Download PDFInfo
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- OA21263A OA21263A OA1202300221 OA21263A OA 21263 A OA21263 A OA 21263A OA 1202300221 OA1202300221 OA 1202300221 OA 21263 A OA21263 A OA 21263A
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- Prior art keywords
- cyclobutrifluram
- plants
- aspergillus
- compound
- phytopathogenic microorganism
- Prior art date
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Abstract
The present invention relates to methods for controlling or preventing infestation of plants by a phytopathogenic microorganism of the genus Aspergillus, comprising applying to a crop of plants, the locus thereof, or propagation material thereof, the compound cyclobutrifluram or a pesticidal composition comprising cyclobutrifluram.
Description
Methods for controlling or preventing infestation of plants by a phytopathogenic microorganism of the genus Aspergillus
Technical Field
The présent invention relates to methods for controlling or preventing infestation of plants by the phytopathogenic microorganism of the genus Aspergillus.
Background
Aspergillus is a genus consisting of a few hundred mould species found in various climates worldwide and belong to the group of Ascomycota. Aspergillus are for example fungal pathogens on certain fruits and vegetables such as grapes, apricots, onions and peanuts. The famiiy of Aspergillus grow as mouids on the surface of substrates. The peanut plant is mostly infected on the roots and on the stem. Hot and dry weather increases the risk for a plant to get infected because the hot soil scalds the tender peanut shoot and makes it vunerable to infection by the fungal pathogen Aspergillus. Symptoms include the rapid death of young plants in the field and the presence profuse, black, sooty fungal sporulation on the infected tissue. Crown rot may resuit in stand losses in the field as high as 50%. Hence, Aspergillus sp. is a commercially very serious phytopathogen in peanut plants. Furthermore, the currently used commercial standards for treating Aspergillus infected peanut plants do not show satisfactory control. Thus, there is a need to provide farmers with further methods for controlling this serious phytopathogen.
The current invention provides improved methods for controlling or preventing infestation of plants by the phytopathogenic microorganism Aspergillus sp., in particular Aspergillus niger.
Description of the embodiments
Cyclobutylcarboxamide compounds and processes for their préparation hâve been disclosed in WO2013/143811 and WO2015/003951. One cyclobutylcarboxamide, cyclobutrifluram (ISO name, CAS RN [1460292-16-3]), has been recently published as being under development as a nematicide (http://pmonline.azurewebsites.net/_Main/Pesticide.aspx). The Chemical structure of cyclobutrifluram is the compound of formula (I) (I).
It was known that cyclobutrifluram has activity against root-knot nematodes such as Meloidogyne genus and cyst-forming nematodes such as Heterodera genus. These nematode species are soil based and attack the root System of many plants. Compounds with the same mechanism of action, i.e. SDHI, complex II, are known to hâve fungicidal activity. However, no data has been reported that cyclobutrifluram has any fungicial activity against a fungi from the genus Aspergillus, or on peanut plants, and in particular no data has been reported that cyclobutrifluram has any activity against Aspergillus niger.
It has now been surprisingly found that cyclobutrifluram is highly effective at controlling or preventing the infestation of plants by a phytopathogenic microorganism of the genus Aspergillus. This highly effective compound thus représente an important new solution for farmers to control or prevent infestation of plants by a phytopathogenic microorganism of the genus Aspergillus. It has been found that cyclobutrifluram is highly effective when used as a seed treatment on peanuts against the infestation by a phytopathogenic microorganism of the genus Aspergillus. Aspergillus for example infects roots and stems of peanut plants which means that cyclobutrifluram is capable to not only protect the seed on which it is applied but also the plant growing from that treated seed. Testing has shown cyclobutrifluram protects the plants growing from a treated seed far more effectively than any currently used commercial standards. Thus, cyclobutrifluram présents an excellent tool for farmers for controlling or preventing infestation of plants by a phytopathogenic microorganism of the engus Aspergillus.
Hence, as embodiment 1, there is provided a method for controlling or preventing infestation of plants by a phytopathogenic microorganism of the genus Aspergillus, comprising applying to a crop of plants, the locus thereof, or propagation material thereof, the compound cyclobutrifluram.
Cyclobutrifluram as disclosed above represents the cis racemate: the phenyl ring on the left hand side and the pyridyl-C(=O)-NH group on the right hand side are cis to each other on the cyclobutyl ring as illustrated for compound of formula (la) and (Ib):
Thus, the racemic compound of cyclobutrifluram is a 1:1 mixture of the compounds of formula (la) and (Ib). The wedged bonds shown in the compounds of formula (la) and (Ib) represent absolute stereochemistry, whereas the thick straight bonds such as those shown for compound of formula (I) represent relative stereochemistry in racemic compounds.
It has also surprisingly been found that one enantiomer of cyclobutrifluram is particularly useful in a method for controlling or preventing infestation of plants by a phytopathogenic microorganism of the genus Aspergillus.
Thus, as embodiment 2, there is provided the method according to embodiment 1 wherein cyclobutrifluram is in the form of the (1 S, 2S) stereoisomer
A skilled person is aware that according to the method of embodiment 1 or 2, cyclobutrifluram is generally applied as part of a pesticidal composition. Hence, as embodiment 3, there is provided a method for controlling or preventing infestation of plants by a phytopathogenic microorganism of the genus Aspergillus comprising applying to a crop of plants, the locus thereof, or propagation material thereof a pesticidal composition comprising cyclobutrifluram and one or more formulation adjuvants. As embodiment 4, there is provided a method for controlling or preventing infestation of plants by a phytopathogenic microorganism of the genus Aspergillus comprising applying to a crop of plants, the locus thereof, or propagation material thereof a pesticidal composition comprising a compound of formula (la) and one or more formulation adjuvants. In a method according to embodiment 5, for pesticidal compositions comprising both the (1 S,2S) and (1R,2R) stereoisomers of cyclobutrifluram, the ratio of the (1S,2S) stereoisomer to its enantiomer (1 R,2R) is greaterthan 1:1. Preferably, the ratio of the (1S.2S) to (1S,2S) is greaterthan 1.5:1, more preferably greaterthan 2.5:1, especially greaterthan 4:1, advantageously greaterthan 9:1, desirably greaterthan 20:1, in particulargreater than 35:1.
Mixtures containing up to 50%, preferably up to 40%, more preferably up to 30%, especially up to 20%, advantageously up to 10%, desirably up to 5%, in particular up to 3 %, of the trans stereoisomers of the compounds of formula (I) (i.e. wherein the phenyl and the pyridyl-C(=O)-NH groups are trans to each other) are also understood to be part of this invention. Preferably, the ratio of the cis isomerto its trans isomer is greaterthan 1.5:1, more preferably greaterthan 2.5:1, especially greaterthan 4:1, advantageously greaterthan 9:1, desirably greaterthan 20:1, in particulargreater than 35:1.
As embodiment 6, there is provided the method according to any one of embodiments 1 to 5, wherein the pesticidal composition is a suspension concentrate composition.
As embodiment 7, there is provided the method according to any one of embodiments 1 to 6 comprising the steps providing cyclobutrifluram or a pesticidal composition comprising cyclobutrifluram as defined in any one of embodiments 1 to 6;
applying the composition to a propagation material;
planting the propagation material.
As embodiment 8, there is provided the method according to any one of embodiments 1 to 6 comprising the steps providing cyclobutrifluram or a pesticidal composition comprising cyclobutrifluram as defined in any one of embodiments 1 to 6;
applying the composition to a crop of plants or the locus thereof.
As embodiment 9, there is provided the use of cyclobutrifluram or a pesticidal composition comprising cyclobutrifluram as defined in any one of embodiments 1 to 6 for controlling or preventing infestation of plants by a phytopathogenic microorganism of the genus Aspergillus.
As embodiment 10, there is provided a method for growing a plant comprising applying or treating a propagation material thereof with cyclobutrifluram or a pesticidal composition comprising cyclobutrifluram as defined in any one of daims 1 to 6.
As embodiment 11, there is provided a method or use according to any one of daims 1 to 10 wherein the propagation material is a seed.
As embodiment 12, there is provided a method or use according to any one of daims 1 to 11, wherein the compound cyclobutrifluram is applied onto the seed in an amount of between 5 gram and 150 gram cyclobutrifluram per 100 kg seeds.
As embodiment 13, there is provided a method or use according to any one of daims 1 to 11, wherein the compound cyclobutrifluram is applied onto the seed in an amount of between 20 gram and 120 gram cyclobutrifluram per 100 kg seeds.
As embodiment 14, there is provided a method or use according to any one of daims 1 to 21, wherein the compound cyclobutrifluram is applied onto the seed in an amount of between 40 gram and 90 gram cyclobutrifluram per 100 kg seeds.
As embodiment 15, there is provided a method or use according to any one of daims 1 to 14, wherein the phytopathogenic microorganism is Aspergillus niger.
As embodiment 16, there is provided a method or use according to any one of daims 1 to 14, wherein the plant is selected from peanuts, grapes, apricots and ornons.
As embodiment 17, there is provided a method or use according to any one of daims 1 to 14, wherein the plant is peanuts.
The préparation of cyclobutrifluram has been disclosed in WO2013/143811 and WO2015/003951 which are incorporated herein by reference.
The term “seed embraces seeds and plant propagules of ail kinds including but not limited to true seeds, seed pièces, suckers, coms, bulbs, fruit, tubers, grains, rhizomes, cuttings, eut shoots and the like and means in a preferred embodiment true seeds.
Application according to the methods or uses according to any one of embodiments 1 to 17 is preferably to a crop of plants, the locus thereof or propagation material thereof. Preferably application is to a crop of plants or propagation material thereof, more preferably to propagation material. Application of cyclobutrifluram or a pesticidal composition comprising cyclobutrifluram can be performed according to any of the usual modes of application, e.g. foliar, drench, soil, in furrow etc.
The methods as defined in any one of embodiments 1 to 17 are suitable for use on any plant, including those that hâve been genetically modified to be résistant to active ingrédients such as herbicides, orto produce biologically active compounds that control infestation by plant pests.
Generally, cyclobutrifluram is used in the form of a composition (e.g. formulation) containing a carrier. Cyclobutrifluram and compositions comprising cyclobutrifluram as defined in any one of embodiments 1 to 5 can be used in various forms such as aérosol dispenser, capsule suspension, cold fogging concentrate, dustable powder, emulsifiable concentrate, émulsion oil in water, émulsion water in oil, encapsulated granule, fine granule, flowable concentrate for seed treatment, gas (under pressure), gas generating product, granule, hot fogging concentrate, macrogranule, microgranule, oil dispersible powder, oil miscible flowable concentrate, oil miscible liquid, paste, plant rodlet, powder for dry seed treatment, seed coated with a pesticide, soluble concentrate, soluble powder, solution for seed treatment, suspension concentrate (flowable concentrate), ultra low volume (ulv) liquid, ultra low volume (ulv) suspension, water dispersible granules or tablets, water dispersible powder for slurry treatment, water soluble granules or tablets, water soluble powder for seed treatment and wettable powder.
A formulation typically comprises a liquid or solid carrier and optionally one or more customary formulation auxiliaries, which may be solid or liquid auxiliaries, for example unepoxidized or epoxidized vegetable oils (for example epoxidized coconut oil, rapeseed oil or soya oil), antifoams, for example silicone oil, preservatives, clays, inorganic compounds, viscosity regulators, surfactant, binders and/or tackifiers. The composition may also further comprise a fertilizer, a micronutrient donor or other préparations which influence the growth of plants as well as comprising a combination containing the compound of the invention with one or more other biologically active agents, such as bactéricides, fungicides, nematicides, plant activators, acaricides, and insecticides.
The compositions are prepared in a manner known per se, in the absence of auxiliaries for example by grinding, screening and/or compressing a solid compound of the présent invention and in the presence of at least one auxiliary for example by intimately mixing and/or grinding the compound of the présent invention with the auxiliary (auxiliaries). In the case of solid compounds of the invention, the grinding/milling of the compounds is to ensure spécifie particle size.
Examples of compositions for use in agriculture are emulsifiable concentrâtes, suspension concentrâtes, microemulsions, oil dispersibles, directly sprayable or dilutable solutions, spreadable pastes, dilute émulsions, soluble powders, dispersible powders, wettable powders, dusts, granules or encapsulations in polymeric substances, which comprise - at least - cyclobutrifluram and the type of composition is to be selected to suit the intended aims and the prevailing circumstances.
As a rule, the compositions comprise 0.1 to 99%, especially 0.1 to 95%, of cyclobutrifluram and 1 to 99.9%, especially 5 to 99.9%, of at least one solid or liquid carrier, it being possible as a rule for 0 to 25%, especially 0.1 to 20%, of the composition to be surfactants (% in each case meaning percent by weight). Whereas concentrated compositions tend to be preferred for commercial goods, the end consumer as a rule uses dilute compositions which hâve substantially lower concentrations of active ingrédient.
Examples of foliar formulation types for pre-mix compositions are: GR: Granules
WP: wettable powders
WG: water dispersable granules (powders)
SG: water soluble granules
SL: soluble concentrâtes
EC: emulsifiable concentrate
EW: émulsions, oil in water.
ME: micro-emulsion
SC: aqueous suspension concentrate
CS: aqueous capsule suspension
OD: oil-based suspension concentrate, and
SE: aqueous suspo-emulsion.
Whereas, examples of seed treatment formulation types for pre-mix compositions are:
WS: wettable powders for seed treatment slurry
LS: solution for seed treatment
ES: émulsions for seed treatment
FS: suspension concentrate for seed treatment
WG: water dispersible granules, and
CS: aqueous capsule suspension.
Examples of formulation types suitable for tank-mix compositions are solutions, dilute émulsions, suspensions, or a mixture thereof, and dusts.
As with the nature ofthe formulations, the methods of application, such as foliar, drench, spraying, atomizing, dusting, scattering, coating or pouring, are chosen in accordance with the intended objectives and the prevailing circumstances.
The tank-mix compositions are generally prepared by diluting with a solvent (for example, water) the one or more pre-mix compositions containing different pesticides, and optionally further auxiliaries.
Suitable carriers and adjuvants can be solid or liquid and are the substances ordinarily employed in formulation technology, e.g. natural or regenerated minerai substances, solvents, dispersants, wetting agents, tackifiers, thickeners, binders or fertilizers.
Generally, a tank-mix formulation for foliar or soil application comprises 0.1 to 20%, especially 0.1 to 15 %, ofthe desired ingrédients, and 99.9 to 80 %, especially 99.9 to 85 %, of a solid or liquid auxiliaries (including, for example, a solvent such as water), where the auxiliaries can be a surfactant in an amount of 0 to 20 %, especially 0.1 to 15 %, based on the tank-mix formulation.
Typically, a pre-mix formulation for foliar application comprises 0.1 to 99.9 %, especially 1 to 95 %, of the desired ingrédients, and 99.9 to 0.1 %, especially 99 to 5 %, of a solid or liquid adjuvant (including, for example, a solvent such as water), where the auxiliaries can be a surfactant in an amount of 0 to 50 %, especially 0.5 to 40 %, based on the pre-mix formulation.
Normaliy, a tank-mix formulation for seed treatment application comprises 0.25 to 80 %, especially 1 to 75 %, ofthe desired ingrédients, and 99.75 to 20 %, especially 99 to 25 %, of a solid or liquid auxiliaries (including, for example, a solvent such as water), where the auxiliaries can be a surfactant in an amount of 0 to 40 %, especially 0.5 to 30 %, based on the tank-mix formulation.
Typically, a pre-mix formulation for seed treatment application comprises 0.5 to 99.9 %, especially 1 to 95 %, ofthe desired ingrédients, and 99.5 to 0.1 %, especially 99 to 5 %, ofa solid or liquid adjuvant (including, for example, a solvent such as water), where the auxiliaries can be a surfactant in an amount of 0 to 50 %, especially 0.5 to 40 %, based on the pre-mix formulation.
.
Whereas commercial products will preferably be formulated as concentrâtes (e.g., pre-mix composition (formulation)), the end user will normally employ dilute formulations (e.g., tank mix composition).
Preferred seed treatment pre-mix formulations are aqueous suspension concentrâtes. The formulation can be applied to the seeds using conventional treating techniques and machines, such as fluidized bed techniques, the roller mill method, rotostatic seed treaters, and drum coaters. Other methods, such as spouted beds may also be useful. The seeds may be presized before coating. After coating, the seeds are typically dried and then transferred to a sizing machine for sizing. Such procedures are known in the art. Cyclobutrifluram is particularly suited for use in soil and seed treatment applications.
The invention will now be illustrated by the following non-limiting Examples. Ail citations are incorporated by reference.
Biological examples (I) Effect of different funqicide treatments aqainst Asperqillus niaer
A peanut field trial was carried out on May 11, 2020 in Malpur, Gujarat, India, to evaluate the efficacy of different compounds against Aspergillus sp. fungi. The disease symptoms started to occur 4 weeks after planting and an assessment on disease incidence (% infected plants) was done 42 days after planting.
Trial location:
Trial | Planting Date | Variety |
Location | ||
Malpur, Gujarat, India | 11-Jun-2020 | Peanut, GG 20 |
Treatment list - field trials:
Treatment | Al Rate (g Al/ha) | Application method | |
1 | Untreated | — | — |
2 | VITAVAX® POWER 75 WS, Carboxin 37.5, Thiram 37.5 (g/100g) | 225 g AI/100 kg | Seed treatment |
3 | Cyclobutrifluram, 200FS | 60 g AI/100 kg | Seed treatment |
4 | VIBRANCE® MAXX Sedaxane Fludioxonil/Thiamethoxam | 150 g AI/100 kg; | Seed treatment |
5 | EVERGOL® XTEND 308 FS; Penflufen/Trifloxystrobin | 30.8 g AI/100 kg; | Seed treatment |
Crops and tarqets occurred in the field trials:
Latin name | Common name | |
Target | Aspergillus niger | |
Crop | Arachis hypogaea | Peanut |
Crop description:
Test Crop | Peanut |
Variety | GG 20 |
Sowing or planting date | 11-Jun-2020 |
Trial lavout:
Trial Environment (Test Method) | Field trial |
Experimental Design | Randomized Complété Block |
Plot size | 20.58 m2 |
# réplications | 4 |
Application details:
Application Date | 11-Jun-2020 |
Appl. Equipment Type | Seed Treatment Drum |
Spray Volume | 8 ml/kg |
Nozzle spacing and type | NA |
Treatments applied | 1 |
Assessments:
Pest incidence, 42 days after planting
Treatment | Pest incidence (LS Means), significantly different (Treatments with no letter in common are significantly different at the 5% probability level) | % efficacy based on disease incidence | ||
1 | Untreated | - | 14.12, A | 0.00 |
2 | VITAVAX® POWER 75 WS, Carboxin 37.5, Thiram 37.5 (g/100g) | 225 g AI/100 kg | 7, B | 50.42 |
3 | Cyclobutrifluram, 200FS | 60 g AI/100 kg | 0.42, D | 97.03 |
4 | VIBRANCE® MAXX Sedaxane Fludioxonil/Thiamethoxam Tebuconazole | 150 g AI/100 kg; 188gAI/ha | 6.89, B | 51.20 |
5 | EVERGOL® XTEND 308 FS; Penflufen/Trifloxystrobin Tebuconazole | 30.8 g AI/100 kg; 188gAI/ha | 5, C | 64.59 |
Conclusion:
Cyclobutrifluram (treatment 3) results in a significantly lower Aspergillus niger pest incidence compared to the untreated and standard treatments. Cyclobutrifluram (treatment 3) exhibits surprisingly excellent control of Aspergillus niger on this peanut trial in Gujarat/lndia over a duration of 42 days after application. This control is significantly betterthan the commercial standards VITAVAX® POWER 75 WS, VIBRANCE® MAXX and EVERGOL® XTEND and hence provides an important tool for farmers to control Aspergillus niger.
(I l) Sensitivitv to cyclobutrifluram and azoxystrobin of Aspergillus nigerand Aspergillus flavus isolâtes
The sensitivity to cyclobutrifluram of 104 isolâtes of Aspergillus niger and 31 isolâtes of Aspergillus 15 flavus was determined under in vitro lab conditions using a mycelial growth inhibition assay. Isolâtes of Aspergillus niger were retrieved from infected seeds or infected plants with clear symptoms of .
crown rot disease. Isolâtes of Aspergillus flavus were collected from infected seeds. The sensitivity to azoxystrobin of the isolâtes was determined under in vitro conditions using a conidial germination inhibition assay. Sensitivity tests were conducted in vitro using agar medium amended with cyclobutrifluram or azoxystrobin at the following concentrations: 0, 0.001, 0.01, 0.1,1, and 10 mg
a.i./L. The plates were incubated at room température (22 G). The mycelial growth of the colonies growing on plates amended or not with cyclobutrifluram was determined after 5 days of incubation. The conidial germination on agar plates amended or not with azoxystrobin was determined after 18 hours of incubation. A conidium was rated as germinated, if a normally developing germ tube had at least the length of a conidium.
The concentration that effectively inhibited the mycelial growth (cyclobutrifluram) or inhibited conidial germination (azoxystrobin) by 50% of the nontreated control (ECso values) was calculated for each isolate by regressing the radial growth values against the log 10 values of the fungicide concentrations. Effective dose values (ECso) are expressed in mg of cyclobutrifluram or azoxystrobin 15 active ingrédient / L
Trial location:
Trial location | Syngenta Vero Beach Reserach Center 7145 58th Avenue Vero Beach, Fllorida 32960, USA |
Trial lavout:
Trial Environment (Test Method) | Laboratory study |
Experimental Design | Fully randomized |
Pétri plates size | 60 mm diameterx 15 mm height |
# réplications | 2 |
Results:
The distribution of sensitivities (ECso values) of Aspergillus niger isolâtes to cyclobutrifluram ranged from 0.009245 to 0.703309 mg a.i./L, with a géométrie mean of 0.082012 mg a.i./L and a range of 76x. The azoxystrobin sensitivities (EC50 values) ranged from 0.000793 to more than 10 mg.ai/L 25 (highest concentration used in the study), indicating that several isolâtes were résistant or tolerate the fungicide azoxystrobin (Table 1).
The distribution of sensitivities (ECso values) of Aspergillus flavus isolâtes to cyclobutrifluram ranged from 0.026207 to 0.700136 mg a.i./L, with a géométrie mean of 0.107749 mg a.i./L and a range of 30 27x. The azoxystrobin sensitivities (EC50 values) ranged from 0.003457 to more than 10 mg.ai/L, demonstrating that several isolâtes were also résistant to the fungicide azoxystrobin (Table 2).
. 12
Table 1. Sensitivity to cyclobutrifluram and azoxystrobin of Aspergillus niger isolâtes retrieved from infected peanut seeds or infected peanut plants.
Azoxystrobin ECso values (mg.ai/L) | Cyclobutrifluram ECso values (mg.ai/L) | |
Mean | - | 0.082012 |
Minimum | <0.001 | 0.009245 |
Maximum | >10 | 0.703309 |
Range | >1000x | 76x |
Number of isolâtes | 104 | 104 |
Table 2. Sensitivity to cyclobutrifluram and azoxystrobin of Aspergillus flavus isolâtes retrieved from 5 infected peanuts seeds.
Azoxystrobin ECso values (mg.ai/L) | Cyclobutrifluram ECso values (mg.ai/L) | |
Mean | - | 0.107749 |
Minimum | 0.003457 | 0.026207 |
Maximum | >10 | 0.700136 |
Range | >1000x | 27x |
Number of isolâtes | 31 | 31 |
Conclusion:
The above results demonstrate that cyclobutrifluram exhibits surprisingly strong and consistent activity against both Aspergillus niger and Aspergillus flavus. Azoxystrobin has been the most common fungicide used to control peanut crown rot caused by Aspergillus niger, but résistant development to azoxystrobin has reduced its use in areas where résistant isolâtes are detected. Similarly, azoxystrobin has been the product of choice to clean peanut seeds infected by Aspergillus flavus, but résistance development has decreased this fungicide use application. Cyclobutrifluram exhibits surprisingly excellent control of Aspergillus niger and Aspergillus flavus isolâtes that are sensitive or résistant to azoxystrobin. Cyclobutrifluram can therefore be used to control Aspergillus niger and Aspergillus flavus that hâve developed résistance to the current commercial standard, azoxystrobin, and hence provides an important résistance management tool for farmers.
Claims (13)
1. A method for controlling or preventing infestation of plants by a phytopathogenic microorganism of the genus Aspergillus, comprising applying to a crop of plants, the locus thereof, or propagation
5 material thereof, the compound cyclobutrifluram.
2. The method according to claim 1, wherein the compound cyclobutrifluram is applied as a pesticidal composition comprising cyclobutrifluram and one or more formulation adjuvants.
10
3. The method according to claim 1 or 2, wherein the pesticidal composition is a suspension composition.
4. The method according to any one of claims 1 to 3, wherein the compound cyclobutrifluram or a pesticidal composition comprising cyclobutrifluram is applied on a propagation material.
5. The method according to claim 4, wherein the propagation material is a seed.
6. The method according to claim 5 wherein the compound cyclobutrifluram is applied onto the seed in an amount of between 5 g ram and 150 gram cyclobutrifluram per 100 kg seeds.
7. The method according to claim 6 wherein the compound cyclobutrifluram is applied onto the seed in an amount of between 20 gram and 120 gram cyclobutrifluram per 100 kg seeds.
8. The method according to claim 7 wherein the compound cyclobutrifluram is applied onto the seed 25 in an amount of between 40 gram and 90 gram cyclobutrifluram per 100 kg seeds.
9. Use of cyclobutrifluram or a pesticidal composition comprising cyclobutrifluram for controlling or preventing infestation of plants by a phytopathogenic microorganism Aspergillus.
30
10. The method or use according to any one of claims 1 to 9, wherein the phytopathogenic microorganism is Aspergillus niger.
11. The method or use according to any one of claims 1 to 9, wherein the phytopathogenic microorganism is Aspergillus flavus.
12. The method or use according to any one of claims 1 to 11, wherein the phytopathogenic microorganism is résistant to azoxystrobin.
13. The method or use according to any one of claims 1 to 12, wherein the plant is selected from
40 peanuts, grapes, apricots and onions.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP20214958.9 | 2020-12-17 |
Publications (1)
Publication Number | Publication Date |
---|---|
OA21263A true OA21263A (en) | 2024-03-18 |
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