Patent Publication Number: US-4094969-A

Title: Pesticide compositions stabilized with sulfonated catechin/leucocyanidin copolymer and method of using same

Description:
This application is a division of application Ser. No. 410,488, filed Oct. 29, 1973, which is a continuation-in-part of application Ser. No. 124,598, filed Mar. 15, 1971, now both abandoned. 
    
    
     BACKGROUND OF THE INVENTION 
     Numerous compounds exist which are active pesticides useful in agriculture, or potentially useful in agriculture, which undergo relatively rapid degradation on exposure to sunlight. To be effective, an agricultural pesticide must be applied, generally by spraying or dusting, over a very wide area. When thus dispersed, light-degradable compounds rapidly lose their activity at a rate such that, in some instances, more than half of the initial pesticidal activity may be lost in as short a time as four hours after application. 
     Among the commonly used agricultural pesticides which are subject to serious degradation are insecticides such as pyrethrin, allethrin, and microbial insecticides such as the endotoxin of Bacillus thuringiensis. Among the potentially useful pesticides which would perhaps find widespread acceptance, if commercially available in a stable formulation, are the viral pesticides exemplified by the nuclear polyhedrosis virus of Heliothis, which are useful against the troublesome cotton bollworm. Exemplary of light-degradable herbicides is 4-hydroxy, 3,5-diiodobenzonitrile (Ioxynil). 
     It has been heretofore proposed to stabilize chemical insecticides against sunlight-induced degradation by the incorporation of ultraviolet absorbers. In U.S. Pat. No. 2,011,428, it is proposed to protect pyrethrin-based insecticides by incorporating in the formulation a substituted amino anthraquinone. Similarly, U.S. Pat. No. 2,772,198 proposes the incorporation of p-amino azobenzene. U.S. Pat. No. 3,113,066 proposes the incorporation of unspecified light absorbers in Bacillus thuringiensis-type microbial insecticides. 
     It is an object of this invention to provide an effective pesticidal composition including an effective amount of a sunlight-degradable pesticide and a stabilizing material in an amount sufficient to substantially retard degradation of the active pesticidal principle upon exposure to sunlight under typical conditions of application. 
     It is a further object of the invention to provide such a composition in which the stabilizing compound is not only effective, but also compatible with microbial and viral insecticide materials which contain viable spores or virus particles which may be destroyed by many conventional chemical additives. 
     As used in this specification, the term &#34;pesticide&#34; or &#34;pesticidal composition&#34; refers to compositions which are useful in agriculture to control agricultural pests, especially detrimental insects, but also including non-insect pests such as mites, fungi, and noxious or detrimental weeds. Thus, the pesticidal composition may be, for example, an insecticide, a herbicide, a fungicide, or miticide. 
     Briefly, the pesticidal compositions of this invention comprise an agronomically acceptable carrier having dispersed therein a light-degradable pesticide in an amount sufficient to control a target pest, and a stabilizer for the pesticide in an amount effective to substantially retard pesticide degradation upon exposure to sunlight under typical conditions of agricultural application. The stabilizer is a sulfonated copolymer of catechin and leucocyanidin having a molecular weight in the range of about 3,000 to 6,000. Especially preferred are non-phytotoxic metal and ammonium salts of such sulfonated copolymers, especially magnesium, zinc, manganese, and alkali metal salts. 
     The active pesticidal ingredient of the composition is any agricultural pesticide which is subject to rapid degradation upon exposure to sunlight. By this we mean a material which is degraded at a rate such that its effectiveness as an agricultural pesticide is substantially impaired or reduced. The active material may be effective against any agricultural pests such as weeds, insects, mites, fungus, or the like, or against a combination of such pests. The active pesticidal material will be dispersed, in accordance with conventional and well-known practice, in a suitable carrier. Such carriers may be a dry powder such as clay or talc, or may be an organic-based liquid adapted for spray application or for admixture with water to form an aqueous emulsion. Water itself is perhaps the most widely used carrier for pesticidal compositions. It is readily adapted for use in the formulation of compositions which will be further diluted just prior to application by addition of water. The active pesticidal ingredient may itself be soluble in water or may be solubilized or dispersed by the incorporation of a surface active agent, all as is well known and understood in the art. 
     The stabilizing ingredient in accordance with this invention is a polymer derived from 15 carbon atom monomers that are flavenoid in structure. The two basic flavenoid structures are: ##STR1## 
     The polymeric form in composed essentially of the two above-mentioned monomers is about a 1:1 ratio. 
     As the structures illustrate, the polymer has high content of phenolic hydroxyl groups thus ensuring high polarity and considerable water solubility. This solubility is enhanced by the presence of the sulfonate group. 
     Polymers having a molecular weight of about 3,000 to about 6,000 are especially preferred. The effectiveness of the stabilizing agents is enhanced when the sulfonate group is neutralized to form a metal salt. The metal may be any one which is non-phytotoxic, but preferably will be selected to enhance the water solubility of the polymer. Exemplary are the ammonium, zinc, manganese, magnesium, and alkali metal salts. Especially preferred is the sodium salt. 
     The sulfonic acid content expressed as SO 2  in the resulting polymer therefore constitutes about 9.5 to 12 weight percent of the total polymer weight, more usually about 11.5 weight percent. 
     The sulfonated copolymers and the unsulfonated copolymers from which the sulfonated copolymers are derived are known materials and may be produced in accordance with established procedures. The unsulfonated copolymers are traditionally obtained from a natural source, i.e., by the treatment of hemlock bark by known procedures. The unsulfonated copolymer thus obtained is then sulfonated under controlled conditions in a conventional manner to introduce approximately one sulfonic group. The resulting sulfonated copolymer may be then treated with the appropriate inorganic base, e.g., sodium hydroxide, to obtain the salt form which may be desired. It is generally preferred that the reaction with the organic base be effected and more preferably that it be conducted so that the sulfonated salt will be substantially neutral in aqueous solution, i.e., provide a pH in the range of about 5.5 to 7.5, more preferably a pH of about 7. 
     The sulfonated copolymers are incorporated in the insecticidal composition in an amount to provide about 1/4 to 2 lbs. of the sulfonated copolymer per acre treated, and more preferably about 1/2 to 11/2 lbs. per acre. It will be understood that, within very wide limits, the actual concentration of the active pesticidal ingredient and the sulfonated copolymer in the pesticidal composition is not important. More or less dilute compositions may be effectively used, and sometimes preferred, in certain agricultural applications. The active pesticidal ingredient and sulfonated copolymer are applied on a per acre basis by the expedient of employing larger quantities of the more dilute material or lesser quantities of less dilute material.Thus, for aerial application, low dilutions are generally employed while greater dilution may be desired for use in conventional ground-spraying rigs to minimize problems of uneven distribution due to sprayer-clogging and the like. Nevertheless, a definite relationship between the amount of the active pesticidal composition and the sulfonated copolymer will be maintained. For example, an aqueous base formulation may be intended to provide 1/2 lb. per acre of pyrethrin, and in accordance with this invention, 1  lb. per acre of sulfonated copolymer. Thus, the ratio of pyrethrin to sulfonated copolymer in the formulation will be 0.5 to 1.0, while the percent of pyrethrin in the composition may vary within the ranges of, say, 1 to 10%, based on the weight of the total composition. 
     A number of experiments have been performed which demonstrate the efficacy of the sulfonated copolymers of this invention in retarding the degradation of sunlight-degradable pesticides. In the experiments of the following examples exposure to sunlight means exposure to natural sunlight under typical field conditions. Exposure to artificial light means exposure, for the period specified, to artificial sunlight produced by a bank of ten General Electric F-30-T8-BL lamps set three inches apart. Samples were exposed at a distance four inches from the axis of the center lamp. Short wave ultraviolet light at the sample plane was measured at 1.4 mW/cm 2 . Long wave ultraviolet light at the sample plane was measured at 2.0 mW/cm 2 . 
     Sample formulations containing the pesticide, with or without the addition of a sulfonated copolymer in accordance with this invention, were applied to a glass plate. The amounts of light-degradable pesticide and protecting copolymer applied to the plate, on an area basis, are expressed in terms of weight per area, usually grams per acre. 
     The sulfonated copolymer employed in accordance with this invention, in the following Examples, unless otherwise specified, is the sodium salt of sulfonated copolymers of catechin and leucocyanidin having an average molecular weight in the range of about 3,000 to 6,000, the sulfonated copolymer being neutralized to a pH of approximately 6 and being obtainable commercially from ITT Rayonier Inc. under the designation HT-193. 
    
    
     EXAMPLE I 
     In this example the stability of the nuclear polyhedrosis virus of Heliothis was evaluated in the presence of varying amounts of the copolymer as above-defined. The amounts of protecting copolymer varied from 0 to 360 grams per acre. Exposure was to artificial light for a period of 4 hours. 
     
                       Table 1.                                                    
______________________________________                                    
           Copolymer   Average %   % Original                             
Treatment  g/A         Mortality   Act. Rem.                              
______________________________________                                    
Virus      0           61                                                 
Virus + light                                                             
           0            9          15                                     
Virus      60          87                                                 
Virus + light                                                             
           60          57          66                                     
Virus      120         90                                                 
Virus + light                                                             
           120         62          69                                     
Virus      180         96                                                 
Virus + light                                                             
           180         80          83                                     
Virus      240         79                                                 
Virus + light                                                             
           240         63          80                                     
Virus      300         92                                                 
Virus + light                                                             
           300         80          87                                     
Virus      360         90                                                 
Virus + light                                                             
           360         77          86                                     
Virus      0           74                                                 
Virus + light                                                             
           0           17          23                                     
Virus      360         92                                                 
Virus + light                                                             
           360         88          97                                     
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     From the data in Table 1 it is apparent that the stability of the virus is enhanced and the insect mortality substantially increased by incorporating the copolymer in the pesticide formulation. Effective amounts of copolymer range from 60 to 360 grams per acre for an exposure period of this duration. 
     EXAMPLE II 
     The effectiveness of the copolymer as before defined was evaluated over an exposure period of 20 hours to artificial light. The pesticide employed in this experiment was again the polyhedrosis virus of Heliothis which was employed in the amount of 40 larval equivalents per acre. 
     
                       Table 2                                                     
______________________________________                                    
Copolymer g/A     % Activity Remaining                                    
______________________________________                                    
 0                14                                                      
180               57                                                      
240               65                                                      
300               62                                                      
360               56                                                      
______________________________________                                    
 
    
     It will be seen from this experiment that somewhat higher concentrations of copolymer are necessary to provide adequate protection over extended periods of exposure to light. 
     EXAMPLE III 
     In this example, which again employs the nuclear polyhedrosis virus of Heliothis in the amount of 40 larval equivalents per acre, the copolymer as above-defined was employed in an amount equivalent to 1 lb. per acre. Exposure was to actual sunlight for periods of time extending up to 6 days. Insect mortalities were determined in each case using fifty 5-day old larvae of Heliothis zea per replicate with 3 replicates per treatment. 
     
                       Table 3.                                                    
______________________________________                                    
Percent Mortality    % Orig. Act. Remaining                               
Time    No                   No                                           
(Days)  Copolymer Copolymer  Copolymer                                    
                                     Copolymer                            
______________________________________                                    
0       88.5      92.1       100.0   100.0                                
1       29.9      64.6       33.8    70.1                                 
3       8.5       35.1       9.6     38.1                                 
6       5.3       25.7       6.0     27.9                                 
______________________________________                                    
 
    
     It is again seen that the practice of this invention substantially improves the effectiveness of the pesticide upon extended exposure to sunlight. 
     EXAMPLE IV 
     In this example the effectiveness of the copolymer as above-defined in the protection of a commercial microbial insecticide derived from Bacillus thuringiensis and available under the trade name &#34;Thuricide&#34; was determined. Exposure was to artificial sunlight for a period of 4 hours. The effectiveness of the copolymers in maintaining the viable spore count of the insecticide, as well as the insecticidal activity, is established. The Thuricide composition was employed in the amount of about two million International Units of activity per acre. 
     
                       Table 4.                                                    
______________________________________                                    
Time   Thuricide Spore Count                                              
                        % Activity Remaining                              
(Hrs.) Control  + Copolymer Control                                       
                                   + Copolymer                            
______________________________________                                    
0      1.5 × 10.sup.6                                               
                1.1 × 10.sup.6                                      
                            100    100                                    
0.25   3.7 × 10.sup.5                                               
                1.3 × 10.sup.6                                      
                            25     100                                    
0.50   3.6 × 10.sup.5                                               
                1.1 × 10.sup.6                                      
                            24     100                                    
0.75   3.1 × 10.sup.5                                               
                9.8 × 10.sup.5                                      
                            21     89                                     
1.0    2.5 × 10.sup.5                                               
                7.9 × 10.sup.5                                      
                            17     72                                     
2.0    3.0 × 10.sup.4                                               
                5.9 × 10.sup.5                                      
                            2      54                                     
3.0    5.3 × 10.sup.3                                               
                5.6 × 10.sup.5                                      
                            0.4    51                                     
4.0    2.5 × 10.sup.3                                               
                5.5 × 10.sup.5                                      
                            0.2    50                                     
______________________________________                                    
 
    
     EXAMPLE V 
     In this experiment the effectiveness of the copolymers of this invention in the protection of allethrin against degradation by artificial sunlight for an exposure period of 4 hours was established. The allethrin insecticide and the protecting copolymer were applied to a plate in an amount equivalent to about 1 lb. per acre. 
     
                       Table 5.                                                    
______________________________________                                    
                  Percent Original Activity                               
Treatment           0 Time       4 Hrs.                                   
______________________________________                                    
Allethrin + artificial light                                              
                    100.0        38.4                                     
Allethrin + copolymer +                                                   
 artificial light   100.0        92.3                                     
______________________________________                                    
 
    
     EXAMPLE VI 
     In this experiment the effectiveness of the copolymers of this invention in the protection of pyrethrin against degradation by artificial light for an exposure period of 4 hours was established. The pyrethrin was employed in very minute amounts, i.e., about 1/2000 of a pound per acre. 
     
                       Table 6.                                                    
______________________________________                                    
                No. Test Average   % Activity                             
Treatment       Insects  % Mortal. Remaining                              
______________________________________                                    
Pyrethrin 0.1 mg/plate                                                    
                429      78.3      100.0                                  
Pyrethrin 0.1 mg/plate                                                    
 + light        452      7.3        9.3                                   
Pyrethrin 0.1 mg/plate                                                    
+ Copolymer 200 mg/plate                                                  
                436      85.1      100.0                                  
Pyrethrin 0.1 mg/plate                                                    
+ Copolymer 200 mg/plate                                                  
 + light        465      40.0       47.0                                  
______________________________________                                    
 
    
     EXAMPLE VII 
     In this experiment the effectiveness of a variety of different sulfonated copolymer salts in the protection of nuclear polyhedrosis virus of Heliothis was demonstrated. Exposure was to artificial light for a period of 4 hours. The virus was employed in an amount equivalent to about 40 larval equivalents per acre. The copolymer was employed in the amount equivalent to about 1/2 lb. per acre. 
     Data is provided for establishing the effectiveness of the sulfonated copolymers of catechin and leucocyanidin having average molecular weight in the range of about 3,000  to 6,000, as well as various metal salts thereof. 
     
                       Table 7.                                                    
______________________________________                                    
Copolymer       % Activity Remaining                                      
______________________________________                                    
Sulfonated copolymer                                                      
                44                                                        
Sulfonated copolymer                                                      
                52                                                        
Mn salt         67                                                        
Mg salt         71                                                        
Zn salt         49                                                        
Na salt -pH 10  64                                                        
Na salt -pH 6   83                                                        
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     The following examples illustrate typical agricultural formulations, with the exception that the carrier, which may be water, is omitted. Water, surfactant, and adjuvants, may be added to obtain a practical formulation of the desired dilution for convenient application, as is well understood by those skilled in the art. The amounts are intended for application on a per acre basis. 
     
         ______________________________________                                    
Pyrethrin Formulation for Lettuce                                         
______________________________________                                    
Amount Substance                                                          
______________________________________                                    
1/2 lb.                                                                   
       Technical Pyrethrin                                                
1/2 lb.                                                                   
       Piperonyl Butoxide                                                 
1 lb.  Sodium sulfonate of copolymer                                      
Bacillus thuringiensis Formulation for Cole Crops                         
______________________________________                                    
1 qt.  Commercial Thuricide HP Concentrate                                
       (4 billion International Units of                                  
       activity)                                                          
1 lb.  Sodium sulfonate of copolymer                                      
Heliothis Virus for Cotton                                                
______________________________________                                    
60 grams                                                                  
       Viron/H (40 larval equivalents nuclear                             
       polyhedrosis virus of Heliothis                                    
       containing 240 billion inclusion bodies)                           
1 lb.  Sodium sulfonate of copolymer                                      
Broadleaf Herbicide for Wheat                                             
______________________________________                                    
1 lb.  4-hydroxy 3,5-diiodobenzonitrile                                   
1 lb.  Sodium sulfonate of copolymer                                      
______________________________________                                    
 
    
     It will be understood that the ratio of technical pesticide to copolymer may be varied. In preferred formulations the ratio of technical pesticide to copolymer will generally be within the following ranges: 
     
         ______________________________________                                    
Allethrin       0.2:1 to 1:1 lb/lb                                        
Pyrethrin       0.2:1 to 1:1 lb/lb                                        
Bacillus                                                                  
thuringiensis   1:1 to 8:1 10.sup.9                                       
                IU&#39;s per lb.                                              
Heliothis virus 10:1 to 80:1 larval                                       
                equivalents per lb.                                       
4-hydroxy       0.5:1 to 2:1                                              
3,5-diiodobenzonitrile                                                    
                lb/lb                                                     
______________________________________                                    
 
    
     No representations are made herein as to any particular mechanism or other manner by which the present invention works. There are different ways in which one compound may theoretically stabilize another compound against light degradation. Investigations which we have conducted have failed to establish any particular mechanism. It was ascertained in our studies that the sulfonated copolymers used in the invention per se have a surprisingly broad spectrum ultraviolet light absorbing capability and there appears to be little doubt but that this capability contributes and/or is related to at least in part the effectiveness of the sulfonated copolymers in the invention. However, as indicated, we are not at this time prepared to judge or explain the present invention solely in terms of this capability of the sulfonated copolymers. Our experiments have indicated a broad compatibility of the sulfonated copolymers with light degradable pesticides. In addition, the sulfonated copolymers have been found to effectively stabilize many diverse types of light degradable pesticides against light degradation and, in fact, the sulfonated copolymers were found to effectively inhibit degradation due to light of essentially all light degradable pesticides which have been subjected to investigation. Hence, it is contemplated that the instant invention can be successfully employed in the stabilization of virtually all light degradable pesticides.