CA2075284A1 - Pesticidal formulations - Google Patents

Abstract

Pesticidal formulations comprising a photosensitive insecticide or a photosensitive herbicide or photosensitive insecticide or herbicide synergist encapsulated in yeast, and their use in the control of insect and acarine pests and rodents are described.

Description

WO 91/1941/ PCI/~B91/00944 1 2~7S~8 PESTICIDAL FORMULATIONS

The present invention relates to formulations for stabilising light sensitive substances, particularly pesticides and/or pesticides and herbicide synergists, and the use of such formulations in the control of pests.
~, European patent No. 85805B discloses encapsulated products involving a microbial capsule, and specifically a yeast capsule, and a method for producing such encapsulated products. The encapsulated products are formed by treating the grown microbe with an organic lipid-extending substance in which the material being encapsulated is soluble, and simultaneously and/or subsequently contacting the microbe with the material to be encapsulated. It is mentioned that the encapsulation method is particularly suitable for producing encapsulated dyes but other examples of material to be encapsulated include adhesives, adhesive components, pharmaceuticals, flavours, rodenticides, insecticides, herbicides, fungicides and od;ferous materials.

European patent specification No. 242135A discloses a modification of this microbial encapsulation technique in which the grown intact microbe is treated with an encapsulatable material in liquid form whereby the encapsulatable material diffuses into the microbial cell without causing total lysis thereof. The process is carried out in . the absence of a lipid-extending substance (as defined in European '; patent No. 85805B). The products of this encapsulation technique are ~f,',. described as being usually more stable than non encapsulated materialsand to give products with controlled release characteristics advantageous for the administration of drugs, pheromones and pesticides. However, it was not known that one could decrease the - sensitivity of a substance to light (ie. its photosensitivity) by simply encapsulating the substance without incorporating further materials such as absorbers or light scatterers.

SUBSTITUTE S~IEET

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It has now been found that light sensi~ive/photosensitive substances, such as the synergist piperonyl butoxide and insecticides extracted from pyrethrum (the pyrethrins) when encapsulated in yeast become significantly less light sensitive and can be used for applications not previously available to them.

In the present context a photosensitive substance is a substance which degrades rapidly on exposure to daylight and would typically have a half-life of less than 5 hours when this is measured under test conditions, and particularly is a substance which has a half-life of less than l hour and more particularly is a substance which has a half-life of less than 40 minutes. Typically the use of the photosensitive substance is limited by its photosensitivity. Suitable test conditions are provided by applying the substance to an inert surface (such as glass) and exposing the deposit to controlled artificial light conditions. A suitable source of artificial sunlight is provided, by the use of a "Hanau Suntester" (Heraeus Suntest Lamp, accelerated exposure table unit), as described hereinafter.
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Accordingly, the present invention provides a formulation which comprises a photosensitive active ingredient encapsulated in yeast.
Suitably, the photosensitive active ingredient is a photosensitive insecticide or a photosensitive herbicide or an insecticide synergist or herbicide synergist encapsulated in yeast. Suitably the photosensitive insecticide has a half-life of less than 40 minutes and is a member of the pyrethrin class of insecticides. Further insecticides which may with advantage be included in the formulation of the present invention are those which have a half-life of greater than 1 hour and include pyrethroids such as the allethrins (such as bioallethrin, S-bioallethrin and esbiothrinj, the resmethrins (resmethrin, bioresmethrin), lipid amides (for example as described in European Patent Specifications 0369762, 111105, 164187, 194764, 209289, 225011, 251472, 269457 and 317188) and pyrethroids which have some degree of light -stability, for example, permethrin, ~-cypermethrin and deltamethrin.

., SuBsTlTuTF SHEET

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A suitable photosensitive herbicide is trifluralin. A suitable rodenticide is cholecalciferol (vitamin D3). Suitably the insecticide or herbicide synergist is piperonyl butoxide (5-[2-(2-butoxyethoxy)-ethoxymethyl~-6-propyl-1,3-benzodioxole). Preferably the encapsulated material is piperonyl butoxide or a mixture of this with a pyrethrum extract or d member of the allethrin class of insecticides.
Preferably, the herbicide, insecticide or herbicide or insecticide synergist is encapsulated in yeast by the method of European patent specification No. 242135A or European patent No. 85805B.

The precise amount of encapsulated material to be applied to a locus would depend on the inherent activity of the material against the insect or weed species to be controlled, the method of application and the nature of the formulation to be applied and whether or not piperonyl butoxide is included in the formulation, but in general the following quantities would be applied : pyrethrins between 50 and 300 grams per hectare (two and twelve ounces per acre), piperonyl butoxide between 50 and 1200 grams per hectare (0.125 and 31bs per acre) and lipid amides between 5 and 150 grams per hectare (0.0125 and 0.41bs per acre).
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Formulations of the present invention may be applied as solid formulations in a mixture with a powdered solid inert carrier, for example suitable clays, kaolin, bentonite, attapulgite, absorbant carbon black, talc, mica, chalk, gypsum, tricalcium phosphate, powdered cork, magnesium silicate, vegetable carriers, starch and diatomaceous earths.

Wettable powders comprise an inert solid carrier(s), optionally one or more surface active agents, and/or stabilisers and/or anti-oxidants.

Wettable powders will normally contain from 5 to 95% by weight of the active ingredient, and are diluted, for example with water, before use.

SUE3ST~UTE SHE~ET

~' 91/19~17 PCT/GB91/00944 2f'7~J~8~

Aqueous suspensions of a formulation of the present invention may comprise a suspension in water toget~er with suspending, stabilising or other agents. The suspensions or solution may be applied Per se or in a diluted form in known fashion.

Aerosol sprays may be prepared as a suspension of the active ingredient in water in the presence of an aerosol propellant, such as carbon dioxide. Pour-on formulations may be made as a suspension of a formulation of the present invention in water.
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Baits may comprise a formulation of the present invention, optionally admixed with additional edible material in a sùitable binding matrix.

The formulations of the present invention may be used to control pests such as arthropod (insect and acarine) pests, and rodents.

Thus the present invention provides a method for the control of arthropod or rodent pests which comprises administering to the arthropod or rodent pest or to its environment a pesticidally effective amount of a pesticidal formulation of the present invention.
The present invention also provides a method for the control and/or eradication of arthropod infestations of animals and/or of plants, (including trees), and/or stored products which comprises administering to the animal or locus an effective amount of an arthropodicidal formulation of the present invention. The present invention further provides pesticidal formulations of the present invention for use in controlling pests in human and veterinary medicine, in public health control and in agriculture.

The formulations of the present invention may also be used to control weeds.

Thus, the present invention provides a method for the control of weeds which comprises administering-to the weed or to its environment a SUBSTITUT~ S~lEET

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herbicidally effective amount of a herbicidal formulation of the present invention.

The insecticidal formulations of the present invention are of particular value in the protection of field, forage, plantation, glasshouse, orchard and vineyard crops, of ornamentals and of plantation and forest trees, for example, cereals (such as maize, wheat, rice, sorghum), cotton, tobacco, vegetables and salads (such as beans, cole crops, curcubits, lettuce, onions, tomatoes and peppers), field crops (such as potato, sugar beet, ground nuts, soyabean, oil seed rape), sugar cane, grassland and forage (such as maize, sorghum, lucerne), plantations (such as of tea, coffee, cocoa, banana, oil palm, coconut, rubber, spices) orchards and groves (such as of stone and pip fruit, citrus, kiwifruit, avocado, mango, olives and walnuts), vineyards, ornamental plants, flowers and shrubs under glass and in gardens and parks, forest trees (both deciduous and evergreen) in forests, plantations and nurseries.

They are also valuable in the protection of timber (standing, felled, converted, stored or structural) from attack by sawflies (e.g.
Urocerus) or beetles (e.g. scolytids, platypodids, lyctids, bostrychids, cerambycides, anobiids).

They have applications in the protection of stored products such as grains, fruits, nuts, spices and tobacco, whether whole, milled or compounqed into products, from moth, beetle and mite attack. Also protected are stored animal products such as skins, hair, wool and feathers in natural or converted form (e.g. as carpets or textiles) from moth and beetle attack; also stored meat and fish from beetle, mite and fly attack.

The insecticidal compositions of the present invention are thus useful in the control of arthropods, e.g. insects and acarines in any environment where these const~itute pests, e.g. in agriculture, in animal husbandry, in public health control and in domestic situations.

SUBSTITUT~: SHEET

O 91/19417 P~T/GB91/00944 6 2~ ,~

Insect pests include members of the orders Coleoptera (e.g. Anobium, Ceutorhvnchus, Rhvnchophorus, Cosmopolites, LissorhoPtrus~ Meliqethes, Hvpothenemus, Hylesinus, Acalvmma, Lema, Psylliodes, LePtinotarsa, Gonocephalum, Aariotes, Dermolepida, Heteronychus, Phaedon, Tribolium, SitoDhilus, Diabrotica, Anthonomus or Anthrenus spp.), LepidoPtera (e.g. Ephestia, Mamestra, Earias, Pectinophora, Ostrinia, TrichoPlusia, Pieris, LaPhvama, Aqrotis, Amathes, Wiseana, TrvDorvsa, Diatrae, Soorqanothis, Cvdia, ArchiPs, Plutella, Chilo, Heliothis, SDodoDtera or Tineola spp.), Diptera (e.g. Musca, Aedes, AnoDheles, Culex, Glossina, Simulium, StomoxYs, Haematobia, Tabanus, Hvdrotaea, Lucilia, Chrvsomia, Callitroaa, Dermatobia, Gasterophilus, HvDoderma, Hvlemyia, Atheriqona, ChloroPs, Phytomyza, Ceratitis, Liriomvza and Melophaqus spp.), Phthiraptera (Malophaqa e.g. Damalina spp. and AnoPlura e.g. Linoqnathus and HaematoDinus spp.), Hemiptera (e.g.
APhis~ Bemisia, Phorodon, Aeneolamia, EmPoasca, Parkinsiella, Pvrilla, Aonidiella, Coccus, Pseudococus, Helopeltis, LYqus, DYsdercus, Oxvcarenus, Nezara, Aleurodes, Triatoma, Psvlla, Mvsus, Meaoura, Phvlloxera, Adelves, NiloParvata, Nephrotetix or Cimex spp.), Orthoptera (e.g. Locusta, Grvllus, Schistocerca or Acheta spp.), Dictyoptera (e.g. Blattella, Periplaneta or Blatta spp.) Hymenoptera (e.g. Athalia, Cephus, Atta, Solenopsis or Monomorium spp.), Isoptera (e.g. Odontotermes and Reticulitermes spp.), Siphonaptera (e.g.
Ctencephalides or Pulex spp.), Thysanura (e.g. LePisma spp.), Dermaptera (e.g. Forficula spp.), Pscoptera (e.g. PeriPsocus spp.) and Thysanoptera (e.g. Thrips tabaci),. Acarine pests include ticks, e.g.
members of the genera BooPhilus, Ornithodorus, RhiPicePhalus, Amblvomma, Hyalomma, Ixodes, HaemaPhvsalis, Dermacentor and Anocentor, and mites and manges such as Acarus, Tetranvchus, PsoroPtesl Notoednes, SarcoDtes, Psorerqates, Chorioptes, Eutrombicula, Demodex, Panonychus, Brvobia, ErioDhves, Blaniulus, Polyphaaotarsonemus, Scutiqerella, and Oniscus spp.

The formulations of the present invention can be used in the control of larvae, for example, in t~e form of a bait containing a suitable larvicide such as permethrin.

SUBSTITUTE SHEET

~VO 91/19417 PCT/CB91/00944 " s~7~

The formulations of the present invention which contain a rodenticide can be used in the control of rodents.

The present invention will now be described in more detail by way of ~;' the fo1lowing examples:
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,,V5,ji Examples 1-7 are formulations according to the present invention in which the method of yeast encapsulation followed is as given in the method of European patent specification 242135 in that the material to . be encapsulated is mixed with the yeast in a liquid medium. Example 8 ~,: shows the results of tests to determine the light-stability of ~; piperonyl butoxide encapsulated in yeast cells. Example 9 shows the ~ results of biological tests on cockroaches.
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". ~ ExamDle 1 Prav dried formulation of Yeast encaPsulated Pvrethrum/PiDeronvl ' butoxide ' approx.
% w/w :
Pyrethrum Pale 25% 10.8 Piperonyl butoxide (PB0) 29.3 Bakers yeast 56.0 Synthetic silica 3.9 (eg Sipernat 22S) ~"' .

. SUBSTITUTE SHEET

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This formulation i5 made from the following concentrate.

Concentrate:
.
approx.
% wlw Pyrethrum Pale 25% 4.6 PBO 11.5 Bakers yeast 30.1 Water 53.5 Preservative 0.3 :
The formulation is made by mixing the concentrate with fumed silica (eg. Cab-o-sil M5) and water in the following ratio after which the formulation is passed through a spray dryer.
approx.
% w/w Concentrate 24.8 Cab-o-sil M5 1.0 Water 74.2 .:
Example 2 SDrav dried formulation of veast encaDsulated Pvrethrum/PiPeron butoxide .
. The formulation is made by mixing the following concentrate with fumed silica (eg. Cab-o-sil M5) and water in the ratio given for Example 1.

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~, Concentrate:
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% w/w Pyrethrum Pale 25% 10.8 PB0 29.3 Bakers yeast 52.8 Silica (eg Cab-o-sil M5~ 7.0 Preservative 0.1 Examples 1 and 2, are of general applicability for additions of up to 0.79 active ingredient per 9 of yeast.

Example 3 Permethrin Powder (Wettable) approx.
% w/w Permethrin 11 . 9 C9 primary alcohol 7.9 Bakers yeast 80.1 Preservative (formalin) 0.1 ,~
Made from a washed and spray dried Permethrin concentrate (No anti caking agent required) as follows:
approx.
. % wlw - Permethrin 15.3 C9 primary alcohol 10.2 Bakers yeast 38.5 Water 35.7 Formalin - 0.3 SUBSTITUTE SHEE T

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w o 91/19417 PCr/~B91/On944 ~S~7 ~'~ 8 Example 4 Dust (made from powder concentrate, E~ample 3) f i nd 1 approx % w/w Permethrin tech. O.S
Solvent (C9 alcohol, Aromasol H)0.2 Bakers yeast 1.4 Silica (Cab-o-sil M5) 1.8 Talc 96.1 ExamPle S
,~-Aqueous suspensions Various dilutions may be required, depending on final concentration.
Yeast tends to settle and hence a suspending agent may be used.
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approx.
~` (10% dilution) % w/w ,~
Yeast concentrate: (14% yeast encapsulated permethrin, see , ~ Example 6)10.0 Suspending agent eg. biopoly-saccharide, xanthan gum, Keltrol) 0.3 Water 89.6 Preservative (eg Bronidox L, 0.1 -; 5-bromo-5-nitro, 1,3 dioxane in propylene glycol, Proxel GXL
(aqueous diisopropylene glycol solution of approximately 20%
1,2-benzisothiazolin-3-one (~.I.T.) as sodium salt, or formalin.

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Levels of suspending agent will vary depending on the type used. This dilution may then be used as produced or dS part of another formulation eg aerosol.

_ample 6 Aerosols approx.
% w/w i) Yeast concentrate (eg 14%
Permethrin, see below) 9.8 Wetting agent (eg silicone wetter Tegoplant WT25) 0.1 Water 88.0 C2 2.1 ii) Yeast concentrate (eg. 14% yeast : ~ encapsulated Permethrin, see below) 60.0 Butane 40 40.0 Yeast concentrate (14% veast encaPsulated Permethrin) approx.
% w/w , Permethrin 14.0 Aromatic solvent (Aromasol H) 9.4 Bakers yeast 35.2 Water 41.1 Preservative (formalin, Proxel GXL
or Bronidox L) 0.3 - SUBST~TUTE SHEET

91/19417 P~T/C~1/0~944 ~7"-~84 Example 7 Baits approx.
% w/w i) Magnesium - Aluminium Silicate (Low grade mica) eg Vermiculite 58.6 Syrup 40.0 Yeast concentrate (as below) 1.4 , - Concentrate:
approx.
% wlw ..
Permethrin 7.2 Aromasol H 7.2 Bakers yeast 28.5 Water 57-0 i Antifoam (eg. Silcolapse 5000) 0.1 ii) Alternative base matrix approx.
' ~ % wlw -~:
Soya flour 20.0 - Fish meal 20.0 Sugar 20.0 Paraffin wax 11 . 0 0 Soya oil 20.0 , ~ Yeast concentrate 9-0 Larvicides - may be used as a_diluted concentrated sample ie up to 40%
^ active ingredient/solvent mix, or as a low encapsulated level eg 1 2% (Permethrin) or lower with other active ingredients.

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Experiments Determination of liqht-stabilitv of PiDeronYl Butoxide encaDsulated in yeast cells A. Stability on q_~zed t~les Tests were carried out to determine the light stability of piperony'l butoxide encapsulated in yeast cells. The following method was also applied to piperonyl butoxide/pyrethrins mixtures as well as to the more light-stable pyrethroids.

Method A dilution in water was prepared, to give a piperonyl butoxide content of 6mg/ml (or 20mg/ml in piperonyl butoxide/pyrethrins formulations).
A 6cm circle was marked out onto a 10.5 x 10.5cm glazed white ceramic tile and 0.5ml of the well mixed suspension applied by pipette evenly within the marked circle. The tile was left overnight on a level surface to dry.

The tile was then placed in a Hereaus Suntest Lamp ("Hanau Suntester"), water-cooled to give a maximum temperature of 30~C and exposed for an exact time which was then recorded. The light on the tile surface was 60,000 lux, 2.5 mW/cm2 UVA. The tile was taken from the lamp and the deposit removed with small swab of cotton wool soaked in methanol. These were transferred to a 50ml stoppered conical flask and the methanol evaporated in a current of air. lOml of methanol was pipetted onto the deposit and placed in a sonic bath for 5 minutes.
The resultant solution was filtered and subjected to GLC analysis comparing chromatograms with a 0.02 percent solution of piperonyl butoxide.

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A control wdS cdrried out by applying 0.5ml of a 0.6 percent solution of technical piperonyl butoxide within the 6cm circle and carrying out the test as outlined.

The Pyrethrins/PB0 sample used was as follows:

SamDle PYR1 % w/w Pyrethrum 25% pale 5.5 (10% of total unencapsulated) PB0 13.5 (16% of total unencapsulated) Bakers yeast 35.6 Water 45 4 The permethrin/PB0 sample used was as follows:

SamDle PRM2 % w/w Permethrin 8.0 (7.8% internal) PB0 8.0 (7.4% internal) Yeast 28.5 Water 55.5 Results Results from the UV stability testing of Pyrethrins/PB0 and ~ . , , .

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SUBSTITUTE SHEET

~VO 91~1g~117 PCr/GB91/0094 18 ~s~7 ~ 3 B. Stabilitv on alass Testing was carried out on Piperonyl Butoxide encapsulated in yeast to determine the overall stability profile on glass. Experiment A above indicated the half life of PB to be increased when encapsulated in yeast and applied to glazed tiles, but no value was determined. This experiment was designed to obtain a half-life (Tl/2 value) for the formulation used.

Sample: Piperonyl Butoxide (22.1% w/w internal, 0.7% w/w external) in bakers yeast.

Method The formulation was diluted with water and applied to glass plates at a rate of 50mg/plate. The dilution was applied weight wise as small droplets over the plate surface and allowed to dry before being placed ; under the Suntest lamp for intervals up to 36 hours. The total levels of PB remaining were then determined using the method outlined in A.

Application rate 0.14mg/6cm plate a 50mg m2 Time (hours)% of active remaining after exposure initial 100 - ~ 5 84 : 8 76 SUBSTITUTE SHEET

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Result T 1~2 value for yeast encapsulated PBO of about 35h.
A typical value for d control would be about 30 minutes.

ExamDle 9 Mortalitv testina of veast encapsulated Pvrethrum/PiPeronYl butoxide aaainst cockroaches Formulations similar to Examples 1 or 2 were prepared containing 4.5%
technical pyrethrin and 13.5% piperonyl butoxide. Serial dilutions were prepared giving solutions containing 0.2-0.02% w/v pyrethrins.
0.5ml aliquots of these dilutions were applied to glazed tile surfaces.
., .
Ten cockroaches (male, Blatella qermanica) were exposed to wet deposits of these formulations for 30 seconds and the mortality ; recorded after 6 days compared to a pyrethrin/piperonyl butoxide :~ formulation (Pybuthrin 5/50 EC.) which is an emulsifiable concentrate containing 5% pyrethrin and 50% piperonyl butoxide.

Results , Formulation Pyrethrin mean % 6 day Mortality w/v %
.: .
(Yeast Encapsulated 0.2 100 pyrethrum/ 0~1 100 piperonyl 0.05 100 butoxide) Pybuthrin 0.2 100 5/S0 EC. 0.1 - 100 0.05 100 SUBSTITUTE SHEF~

Claims (11)

1. A formulation comprising a photosensitive active ingredient encapsulated in yeast.

2. A formulation comprising a photosensitive insecticide or a photosensitive herbicide or an insecticide synergist encapsulated in yeast.

3. A formulation according to claim 2 wherein the photosensitive insecticide is a member of the pyrethrin and/or light sensitive pyrethroid classes of insecticides.

4. A formulation according to claim 3 wherein the light sensitive pyrethroid is a member of the allethrin or resmethrin class of insecticides.

5. A formulation according to any of claims 1 to 4 which contains a lipid amide, permethrin or deltamethrin.

6. A formulation according to any preceding claim wherein the insecticide or herbicide synergist is piperonyl butoxide.

7. A formulation according to any preceding claim wherein the encapsulated material is piperonyl butoxide with pyrethrum extract or with a member of the allethrin class of insecticides.

8. A formulation according to any preceding claim wherein the photosensitive active ingredient is encapsulated in yeast by mixing the yeast with the photosensitive active ingredient in a liquid medium.

9. A formulation according to any preceding claim in the form of a spray dried formulation,-a concentrate, a powder, a dust, an aqueous suspension, an aerosol or a bait.

10. A method of controlling pests by administering to the pest or its environment d pesticidally effective amount of a photosensitive pesticide encapsulated in yeast.

11. A method for controlling weeds comprising administering to the weed or to its environment a herbicidally effective amount of a photosensitive herbicide encapsulated in yeast.