CN104798805A - Insecticide composition for corn - Google Patents

Insecticide composition for corn Download PDF

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Publication number
CN104798805A
CN104798805A CN201510136289.4A CN201510136289A CN104798805A CN 104798805 A CN104798805 A CN 104798805A CN 201510136289 A CN201510136289 A CN 201510136289A CN 104798805 A CN104798805 A CN 104798805A
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agent
weight
seed coat
rynaxypyr
corn
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王迎春
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HEBEI BOJIA AGRICULTURE CO Ltd
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HEBEI BOJIA AGRICULTURE CO Ltd
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Abstract

The invention relates to insecticide composition for corn. The insecticide composition for the corn contains a bisamide compound and an anabasine compound and is especially a seed coating agent, wherein the bisamide compound is any one of chlorantraniliprole, cyantraniliprole and tetra-chlorantraniliprole; the anabasine compound is any one of thiamethoxam, imidacloprid, clothianidin and dinotefuran; and the weight ratio of the amide compound to the anabasine compound is (1:10)-(10:1). The insecticide composition for the corn has an obvious synergistic effect on control of athetis lepigone, ostrinia nubilalis and plant hopper and resistance to the insecticide composition for the corn is reduced.

Description

A kind of Pesticidal combination for corn
Technical field
The invention belongs to technical field of pesticide, relate to a kind of Pesticidal combination for corn containing bisamide compounds and anabasine compound, described Pesticidal combination particularly seed coat agent.
Technical background
Seed coating technology is a kind of seed treatment new technology grown up in traditional seed soaking or seed dressing technical foundation.By seed that is dry or moisture state, wrapping with compositions such as the agricultural chemicals containing binding agent, make to form the protective layer with certain function and coated intensity outward at seed, this process becomes seed pelleting, and the composition wrapped in outside seed is seed coat agent.Seed coat agent imbibition and not dissolved in soil, contained agricultural chemicals is slow releasing with the germination and growth of seed, so seed coat agent has kill soil insect, the effect such as insect in seedling stage, finally reaches preventing disease pest control, protects face strong sprout, improves the object of output.
Current common corn seed coating agent is mainly used in control soil insect and small brown rice planthopper, and cannot reach to seedling stage other insects as: 2 committee noctuid, corn borers etc. have equal preventive effect, make the later stage still need spray pesticide, not in time, insect pest is large causes the underproduction in various degree when occurring in control.
Rynaxypyr, bromine cyanogen insect amide, four chlorantraniliproles are bisamide insecticides, Main Function mechanism is by efficiently activating insect ryanodine receptor, make the calcium ion in calcium storehouse in its excessive release cells, destroy insect cell device intra-and extra-cellular calcium ionic equilibrium, thus it is dead to cause insect to be paralysed.Have interior absorption in various degree, root absorption, xylem conducts from bottom to top.Can effectively prevent and treat Lepidoptera, Semiptera and coleopteran pest.
Diacloden, Imidacloprid, clothianidin, MTI-446 are anabasine insecticide, Main Function mechanism is by Selective Control insect nerve system nicotinic acetylcholine esterase acceptor, block the normal conduction of insect CNS, thus cause insect to occur paralysis and then death.There is systemic action, can effectively prevent and treat the insects such as Homoptera, coleoptera, diptera and Lepidoptera, both can be used for cauline leaf process, also can be used for soil, seed treatment.
Summary of the invention
The object of the invention is to for solving soil-borne disease insect pest and the easy ill insect pest of plant shoots phase, later stage medication DeGrain, medication repeatedly, cause high, the with serious pollution problem of use cost, there is provided a kind of Pesticidal combination containing A, B two kinds of active components, described Pesticidal combination particularly seed coat agent.
A kind of Pesticidal combination, it is characterized in that, described Pesticidal combination comprises active components A bisamide compounds and active component B anabasine compound, described bisamide compounds is any one in Rynaxypyr, bromine cyanogen insect amide, four chlorantraniliproles, described anabasine compound is any one in Diacloden, Imidacloprid, clothianidin, MTI-446, and the weight ratio of the two is 1:10-10:1.
Preferably, the weight ratio of the two is 1:3-3:1.
Further, a kind of seed coat agent for corn of the present invention, is characterized in that, described seed coat agent comprises above-mentioned Pesticidal combination, wherein active components A and active component B total amount account for the 10-90 % by weight of seed coat agent, are preferably 50-70%, and the suitable carrier of seed coat agent prepared by agricultural chemicals.
Described seed coat agent can dispersible pulvis for suspension seed-coating agent, microcapsule suspension seed-coating agent, seed treatment.
For a suspension seed-coating agent for corn, it is characterized in that, in described seed coat agent, comprise above-mentioned Pesticidal combination, wherein active components A 1 ~ 6% by weight, active component B 10 ~ 40%, film forming agent 1 ~ 10%, emulsifier 1 ~ 5%, dispersant 0.1 ~ 10%, wetting agent 0.1 ~ 10%, antifreezing agent 0.1 ~ 1%, thickener 0.1 ~ 1%, defoamer 0.1 ~ 1%, solvent polishing.
Preparation method: first by film forming agent, dispersant, wetting agent, antifreezing agent, thickener, solvent, mix through high speed shear, then add in active components A and B to sand mill and grind 2-3 hour, make particle diameter all below 5 μm, can obtain.
For a microcapsule suspension seed-coating agent for corn, it is characterized in that, in described seed coat agent, comprise above-mentioned Pesticidal combination; wherein active components A 1 ~ 6% by weight; active component B 10 ~ 40%, solvent 5 ~ 40%, film forming agent 1 ~ 10%; cyst wall agent 1 ~ 8%; emulsifier 1 ~ 5%, dispersant 0.1 ~ 10%, adjuvant 0 ~ 10%; protecting glue 0.1 ~ 3%, deionized water polishing.
Preparation method: by active components A and B, dispersant, film forming agent in appropriate solvent, by sand mill sand milling, then add the oil phase that appropriate protecting glue stirs; In water, add emulsifier, adjuvant stirs to obtain aqueous phase; In aqueous phase, add the oil phase configured, high shear still high speed shears 30 minutes, adds cyst wall agent, and 2000 revs/min are stirred lower elevated cure 60 minutes, add deionized water, dispersant and adjuvant afterwards, stir and namely make microcapsule suspension seed-coating agent preparation.
A kind of seed treatment for corn dispersibles pulvis, it is characterized in that, above-mentioned Pesticidal combination is comprised in described seed coat agent, wherein active components A 3 ~ 10% by weight, active component B 10 ~ 70%, film forming agent 1 ~ 10%, dispersant 0.1 ~ 10%, wetting agent 0.1 ~ 10%, filler polishing.
Preparation method: the auxiliary agents such as active components A and B, wetting agent, dispersant and filler are mixed at stirred tank, then pulverizes through micro jet, namely makes seed treatment and dispersible pulvis.
Above-mentioned solvent is one or more in methyl alcohol, ethanol, isopropyl alcohol, dimethylbenzene, trimethylbenzene, ethyl acetate, ethyl acetate, cyclohexanone, dimethyl sulfoxide (DMSO), n-butanol, methyl oleate, vegetable oil, N methyl pyrrolidone, water.
Emulsifier is any one in alkylphenol-polyethenoxy tetraether (OP-4), alkylphenol-polyethenoxy ten ether (OP-10), agriculture breast 2201, alkyl benzene sulphonate sodium salt, styrene polyoxyethylene ether ammonium sulfate salt, xenol APEO, alkylammonium salt.
Dispersant is one or more in alkylnaphthalene sulfonate formaldehyde condensation products, sodium lignin sulfonate, calcium lignosulfonate, lauryl alcohol polyethylene glycol oxide base ether sodium sulfate, alkyl naphthalene formaldehyde condensate sulfonates, neopelex, lauryl sodium sulfate, potassium oleate, enuatrol, alkyl polyoxyethylene ether sulfonate, alkylphenol-polyethenoxy base ether formaldehyde condensation products.
Wetting agent is one or more in lauryl sodium sulfate, neopelex.
Antifreezing agent is one or more in ethylene glycol, propane diols, glycerine, urea.
Thickener is one or more in xanthans, CMC, hydroxyethylcellulose, methylcellulose, aluminium-magnesium silicate, polyvinyl alcohol.
Kind clothing film forming agent is one or more in modified starch, microcrystalline cellulose, polyvinyl alcohol, polyethylene glycol, polyphenyl acrylic emulsion, polyvinylpyrrolidone and polyvinyl acetate.
Defoamer is one or more in silicone oil, silicone compound, C10-20 saturated fat acid compounds, C8-10 aliphatic alcohols compound.
Filler is one or more in kaolin, diatomite, bentonite, attapulgite, white carbon, starch, precipitated calcium carbonate.
% in the present invention is all weight percentage.
The invention has the advantages that, (1), due to the mechanism of action difference of active insecticidal components in composition, the composite rear control to corn 2 tail noctuids, corn borer, plant hopper has obvious synergistic effect, reduces the generation of resistance.
(2) seed treatment, root absorption, drug effect is more obvious, and solution underground pests and plant shoots phase easily suffer from insect pest, later stage medication DeGrain, medication repeatedly, cause high, the with serious pollution problem of use cost; Time and labour saving simultaneously.
(3) seed coat agent of this Pesticidal combination, except to soil insect and small brown rice planthopper, thrips effectively except, equally have good control efficiency, sowing before seed dressing after to committee noctuid, corn borers at 2, seedling stage need not dispenser again, really reaches efficient and the object of time and labour saving.
Embodiment
Below in conjunction with embodiment, the present invention is described further, but the present invention is not limited to this.
Carry out statistical analysis with DPS software, calculate the LC of each medicament 50, and calculate mixture according to the abundant method of Sun Yun spend coefficient (CTC value) together.
Actual measurement toxicity index (ATI)=(standard agent LC 50/ reagent agent LC 50) × 100.
In theoretical toxicity index (TTI)=A medicament toxicity index × mixture A percentage composition+B medicament toxicity index × mixture in the percentage composition of B.
Co-toxicity coefficient (CTC)=[the theoretical toxicity index (TTI) of mixture actual measurement toxicity index (ATI)/mixture] × 100.
According to the NY/T11547.7-2006 insecticide combination effect criteria for classifying: co-toxicity coefficient (CTC) >=120 shows as synergistic effect; Co-toxicity coefficient (CTC)≤80 shows as antagonism; 80 < co-toxicity coefficient (CTC) < 120 show as summation action.
Table 1 Rynaxypyr and Diacloden are to the indoor joint toxicity measuring of 2 committee noctuids
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Rynaxypyr 4.52 100.00
Diacloden 29.12 15.52
Rynaxypyr: Diacloden (10:1) 2.12 213.21 92.32 230.94
Rynaxypyr: Diacloden (1:1) 3.61 125.21 57.76 216.77
Rynaxypyr: Diacloden (1:10) 11.36 39.79 23.20 171.50
As can be seen from Table 1, when Rynaxypyr and Diacloden are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and show synergistic function to 2 committee noctuids, visible Rynaxypyr and Thiamethoxam compound have reasonability and feasibility.
Table 2 Rynaxypyr and Diacloden are to the indoor joint toxicity measuring of small brown rice planthopper
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Rynaxypyr 49.12 100.00
Diacloden 6.12 802.61
Rynaxypyr: Diacloden (10:1) 20.35 241.38 163.87 147.29
Rynaxypyr: Diacloden (1:1) 6.61 743.12 451.31 164.66
Rynaxypyr: Diacloden (1:10) 4.38 1121.46 738.74 151.81
As can be seen from Table 2, when Rynaxypyr and Diacloden are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and show synergistic function to small brown rice planthopper, visible Rynaxypyr and Thiamethoxam compound have reasonability and feasibility.
Table 3 Rynaxypyr and Imidacloprid are to the indoor joint toxicity measuring of 2 committee noctuids
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Rynaxypyr 4.52 100.00
Imidacloprid 22.92 19.72
Rynaxypyr: Imidacloprid (10:1) 2.00 226.00 92.70 243.79
Rynaxypyr: Imidacloprid (1:1) 3.11 145.34 59.86 242.80
Rynaxypyr: Imidacloprid (1:10) 10.16 44.49 27.02 164.66
As can be seen from Table 3, when Rynaxypyr and Imidacloprid are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and synergistic function is shown to 2 committee noctuids, visible Rynaxypyr and Imidacloprid is composite has reasonability and feasibility.
Table 4 Rynaxypyr and Imidacloprid are to the indoor joint toxicity measuring of small brown rice planthopper
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Rynaxypyr 49.12 100.00
Imidacloprid 6.95 802.61
Rynaxypyr: Imidacloprid (10:1) 23.01 241.38 163.87 147.29
Rynaxypyr: Imidacloprid (1:1) 6.60 743.12 451.31 164.66
Rynaxypyr: Imidacloprid (1:10) 4.89 1121.46 738.74 151.81
As can be seen from Table 4, when Rynaxypyr and Imidacloprid are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and synergistic function is shown to small brown rice planthopper, visible Rynaxypyr and Imidacloprid is composite has reasonability and feasibility.
Table 5 Rynaxypyr and clothianidin are to the indoor joint toxicity measuring of 2 committee noctuids
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Rynaxypyr 4.52 100.00
Clothianidin 25.33 17.84
Rynaxypyr: clothianidin (10:1) 3.32 136.14 92.53 147.13
Rynaxypyr: clothianidin (1:1) 4.11 109.98 58.92 186.65
Rynaxypyr: clothianidin (1:10) 13.16 34.35 25.31 135.71
As can be seen from Table 5, when Rynaxypyr and clothianidin are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and synergistic function is shown to 2 committee noctuids, visible Rynaxypyr and clothianidin is composite has reasonability and feasibility.
Table 6 Rynaxypyr and clothianidin are to the indoor joint toxicity measuring of small brown rice planthopper
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Rynaxypyr 49.12 100.00
Clothianidin 5.95 825.55
Rynaxypyr: clothianidin (10:1) 20.01 245.48 165.96 147.91
Rynaxypyr: clothianidin (1:1) 5.61 875.58 462.78 189.20
Rynaxypyr: clothianidin (1:10) 3.87 1269.25 759.59 167.10
As can be seen from Table 6, when Rynaxypyr and clothianidin are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and synergistic function is shown to small brown rice planthopper, visible Rynaxypyr and clothianidin is composite has reasonability and feasibility.
Table 7 Rynaxypyr and MTI-446 are to the indoor joint toxicity measuring of 2 committee noctuids
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Rynaxypyr 4.52 100.00
MTI-446 18.03 25.07
Rynaxypyr: MTI-446 (10:1) 2.32 194.83 93.19 209.07
Rynaxypyr: MTI-446 (1:1) 3.19 141.69 62.54 226.58
Rynaxypyr: MTI-446 (1:10) 10.06 44.93 31.88 140.93
As can be seen from Table 7, when Rynaxypyr and MTI-446 are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and synergistic function is shown to 2 committee noctuids, visible Rynaxypyr and MTI-446 is composite has reasonability and feasibility.
Table 8 Rynaxypyr and MTI-446 are to the indoor joint toxicity measuring of small brown rice planthopper
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Rynaxypyr 49.12 100.00
MTI-446 5.52 889.86
Rynaxypyr: MTI-446 (10:1) 19.81 247.96 171.81 144.32
Rynaxypyr: MTI-446 (1:1) 4.82 1019.09 494.93 205.91
Rynaxypyr: MTI-446 (1:10) 3.17 1549.53 818.05 189.42
As can be seen from Table 8, when Rynaxypyr and MTI-446 are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and synergistic function is shown to small brown rice planthopper, visible Rynaxypyr and MTI-446 is composite has reasonability and feasibility.
Table 9 bromine cyanogen insect amide and Diacloden are to the indoor joint toxicity measuring of 2 committee noctuids
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Bromine cyanogen insect amide 3.61 100.00
Diacloden 29.12 12.40
Bromine cyanogen insect amide: Diacloden (10:1) 2.12 170.28 92.04 185.02
Bromine cyanogen insect amide: Diacloden (1:1) 3.09 116.83 56.20 207.88
Bromine cyanogen insect amide: Diacloden (1:10) 14.06 25.68 20.36 126.09
As can be seen from Table 9, when bromine cyanogen insect amide and Diacloden are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and show synergistic function to 2 committee noctuids, visible bromine cyanogen insect amide and Thiamethoxam compound have reasonability and feasibility.
Table 10 bromine cyanogen insect amide and Diacloden are to the indoor joint toxicity measuring of small brown rice planthopper
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Bromine cyanogen insect amide 41.31 100.00
Diacloden 6.12 675.00
Bromine cyanogen insect amide: Diacloden (10:1) 18.01 229.37 152.27 150.63
Bromine cyanogen insect amide: Diacloden (1:1) 4.36 947.48 387.50 244.51
Bromine cyanogen insect amide: Diacloden (1:10) 3.07 1345.60 622.73 216.08
As can be seen from Table 10, when bromine cyanogen insect amide and Diacloden are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and show synergistic function to small brown rice planthopper, visible bromine cyanogen insect amide and Thiamethoxam compound have reasonability and feasibility.
Table 11 bromine cyanogen insect amide and Imidacloprid are to the indoor joint toxicity measuring of 2 committee noctuids
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Bromine cyanogen insect amide 3.61 100.00
Imidacloprid 22.92 15.75
Bromine cyanogen insect amide: Imidacloprid (10:1) 1.79 201.68 92.34 218.40
Bromine cyanogen insect amide: Imidacloprid (1:1) 3.19 113.17 57.88 195.54
Bromine cyanogen insect amide: Imidacloprid (1:10) 12.16 29.69 23.41 126.82
As can be seen from Table 11, when bromine cyanogen insect amide and Imidacloprid are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and synergistic function is shown to 2 committee noctuids, visible bromine cyanogen insect amide and Imidacloprid is composite has reasonability and feasibility.
Table 12 bromine cyanogen insect amide and Imidacloprid are to the indoor joint toxicity measuring of small brown rice planthopper
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Bromine cyanogen insect amide 41.31 100.00
Imidacloprid 6.95 594.39
Bromine cyanogen insect amide: Imidacloprid (10:1) 17.71 233.26 144.94 160.93
Bromine cyanogen insect amide: Imidacloprid (1:1) 4.89 844.79 347.20 243.32
Bromine cyanogen insect amide: Imidacloprid (1:10) 3.32 1244.28 549.45 226.46
As can be seen from Table 12, when bromine cyanogen insect amide and Imidacloprid are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and synergistic function is shown to small brown rice planthopper, visible bromine cyanogen insect amide and Imidacloprid is composite has reasonability and feasibility.
Table 13 bromine cyanogen insect amide and clothianidin are to the indoor joint toxicity measuring of 2 committee noctuids
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Bromine cyanogen insect amide 3.61 100.00
Clothianidin 25.33 14.25
Bromine cyanogen insect amide: clothianidin (10:1) 2.09 172.73 92.20 187.33
Bromine cyanogen insect amide: clothianidin (1:1) 3.81 94.75 57.13 165.87
Bromine cyanogen insect amide: clothianidin (1:10) 13.19 27.37 22.05 124.15
As can be seen from Table 13, when bromine cyanogen insect amide and clothianidin are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and synergistic function is shown to 2 committee noctuids, visible bromine cyanogen insect amide and clothianidin is composite has reasonability and feasibility.
Table 14 bromine cyanogen insect amide and clothianidin are to the indoor joint toxicity measuring of small brown rice planthopper
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Bromine cyanogen insect amide 41.31 100.00
Clothianidin 5.95 694.29
Bromine cyanogen insect amide: clothianidin (10:1) 16.02 257.87 154.03 167.42
Bromine cyanogen insect amide: clothianidin (1:1) 4.19 985.92 397.15 248.25
Bromine cyanogen insect amide: clothianidin (1:10) 2.89 1429.41 640.26 223.25
As can be seen from Table 14, when bromine cyanogen insect amide and clothianidin are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and synergistic function is shown to small brown rice planthopper, visible bromine cyanogen insect amide and clothianidin is composite has reasonability and feasibility.
Table 15 bromine cyanogen insect amide and MTI-446 are to the indoor joint toxicity measuring of 2 committee noctuids
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Bromine cyanogen insect amide 3.61 100.00
MTI-446 18.03 20.02
Bromine cyanogen insect amide: MTI-446 (10:1) 1.63 221.47 92.73 238.84
Bromine cyanogen insect amide: MTI-446 (1:1) 2.99 120.74 60.01 201.19
Bromine cyanogen insect amide: MTI-446 (1:10) 9.79 36.87 27.29 135.12
As can be seen from Table 15, when bromine cyanogen insect amide and MTI-446 are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and synergistic function is shown to 2 committee noctuids, visible bromine cyanogen insect amide and MTI-446 is composite has reasonability and feasibility.
Table 16 bromine cyanogen insect amide and MTI-446 are to the indoor joint toxicity measuring of small brown rice planthopper
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Bromine cyanogen insect amide 41.31 100.00
MTI-446 5.52 748.37
Bromine cyanogen insect amide: MTI-446 (10:1) 15.21 271.60 158.94 170.88
Bromine cyanogen insect amide: MTI-446 (1:1) 3.99 1035.34 424.19 244.08
Bromine cyanogen insect amide: MTI-446 (1:10) 2.78 1485.97 689.43 215.54
As can be seen from Table 16, when bromine cyanogen insect amide and MTI-446 are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and synergistic function is shown to small brown rice planthopper, visible bromine cyanogen insect amide and MTI-446 is composite has reasonability and feasibility.
Table 17 four chlorantraniliprole and Diacloden are to the indoor joint toxicity measuring of 2 committee noctuids
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Four chlorantraniliproles 5.61 100.00
Diacloden 29.12 19.27
Four chlorantraniliproles: Diacloden (10:1) 4.39 127.79 92.66 137.91
Four chlorantraniliproles: Diacloden (1:1) 5.52 101.63 59.64 170.42
Four chlorantraniliproles: Diacloden (1:10) 15.71 35.71 26.61 134.20
As can be seen from Table 17, when four chlorantraniliproles and Diacloden are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and show synergistic function to 2 committee noctuids, visible four chlorantraniliproles and Thiamethoxam compound have reasonability and feasibility.
Table 18 four chlorantraniliprole and Diacloden are to the indoor joint toxicity measuring of small brown rice planthopper
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Four chlorantraniliproles 50.75 100.00
Diacloden 6.12 829.25
Four chlorantraniliproles: Diacloden (10:1) 23.15 219.22 166.30 131.83
Four chlorantraniliproles: Diacloden (1:1) 7.69 659.95 464.63 142.04
Four chlorantraniliproles: Diacloden (1:10) 5.18 979.73 762.95 128.41
As can be seen from Table 18, when four chlorantraniliproles and Diacloden are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and show synergistic function to small brown rice planthopper, visible four chlorantraniliproles and Thiamethoxam compound have reasonability and feasibility.
Table 19 four chlorantraniliprole and Imidacloprid are to the indoor joint toxicity measuring of 2 committee noctuids
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Four chlorantraniliproles 5.61 100.00
Imidacloprid 22.92 24.48
Four chlorantraniliproles: Imidacloprid (10:1) 3.89 144.22 93.13 154.85
Four chlorantraniliproles: Imidacloprid (1:1) 5.00 112.20 62.24 180.27
Four chlorantraniliproles: Imidacloprid (1:10) 12.15 46.17 31.35 147.30
As can be seen from Table 19, when four chlorantraniliproles and Imidacloprid are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and synergistic function is shown to 2 committee noctuids, visible four chlorantraniliproles and Imidacloprid is composite has reasonability and feasibility.
Table 20 four chlorantraniliprole and Imidacloprid are to the indoor joint toxicity measuring of small brown rice planthopper
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Four chlorantraniliproles 50.75 100.00
Imidacloprid 6.95 730.22
Four chlorantraniliproles: Imidacloprid (10:1) 23.89 212.43 157.29 135.06
Four chlorantraniliproles: Imidacloprid (1:1) 7.17 707.81 415.11 170.51
Four chlorantraniliproles: Imidacloprid (1:10) 5.51 921.05 672.93 136.87
As can be seen from Table 20, when four chlorantraniliproles and Imidacloprid are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and synergistic function is shown to small brown rice planthopper, visible four chlorantraniliproles and Imidacloprid is composite has reasonability and feasibility.
Table 21 four chlorantraniliprole and clothianidin are to the indoor joint toxicity measuring of 2 committee noctuids
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Four chlorantraniliproles 5.61 100.00
Clothianidin 25.33 22.15
Four chlorantraniliproles: clothianidin (10:1) 4.39 127.79 92.92 137.52
Four chlorantraniliproles: clothianidin (1:1) 5.42 103.51 61.08 169.47
Four chlorantraniliproles: clothianidin (1:10) 15.19 36.93 29.23 126.36
As can be seen from Table 21, when four chlorantraniliproles and clothianidin are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and synergistic function is shown to 2 committee noctuids, visible four chlorantraniliproles and clothianidin is composite has reasonability and feasibility.
Table 22 four chlorantraniliprole and clothianidin are to the indoor joint toxicity measuring of small brown rice planthopper
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Four chlorantraniliproles 50.75 100.00
Clothianidin 5.95 852.94
Four chlorantraniliproles: clothianidin (10:1) 20.16 251.74 168.45 149.44
Four chlorantraniliproles: clothianidin (1:1) 6.79 747.42 476.47 156.87
Four chlorantraniliproles: clothianidin (1:10) 4.15 1222.89 784.49 155.88
As can be seen from Table 22, when four chlorantraniliproles and clothianidin are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and synergistic function is shown to small brown rice planthopper, visible four chlorantraniliproles and clothianidin is composite has reasonability and feasibility.
Table 21 four chlorantraniliprole and MTI-446 are to the indoor joint toxicity measuring of 2 committee noctuids
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Four chlorantraniliproles 5.61 100.00
MTI-446 18.03 31.11
Four chlorantraniliproles: MTI-446 (10:1) 3.15 178.10 93.74 189.99
Four chlorantraniliproles: MTI-446 (1:1) 4.52 124.12 65.56 189.33
Four chlorantraniliproles: MTI-446 (1:10) 10.69 52.48 37.37 140.42
As can be seen from Table 21, when four chlorantraniliproles and MTI-446 are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and synergistic function is shown to 2 committee noctuids, visible four chlorantraniliproles and MTI-446 is composite has reasonability and feasibility.
Table 22 four chlorantraniliprole and MTI-446 are to the indoor joint toxicity measuring of small brown rice planthopper
Medicament title and proportioning (weight ratio) LC 50(mg/L) ATI TTI CIC
Four chlorantraniliproles 50.75 100.00
MTI-446 5.95 852.94
Four chlorantraniliproles: MTI-446 (10:1) 19.19 264.46 168.45 157.00
Four chlorantraniliproles: MTI-446 (1:1) 5.38 943.31 476.47 197.98
Four chlorantraniliproles: MTI-446 (1:10) 3.77 1346.15 784.49 171.60
As can be seen from Table 22, when four chlorantraniliproles and MTI-446 are composite in the scope of 10:1 and 1:10 (by weight), co-toxicity coefficient (CTC) is all greater than 120, illustrate and synergistic function is shown to small brown rice planthopper, visible four chlorantraniliproles and MTI-446 is composite has reasonability and feasibility.
Field control effectiveness test:
Table 23 field efficacy
From the data in table 23, identical in active ingredient, when consumption is identical, use the control efficiency of seed coat agent to spray apparently higher than routine, visible seed coat agent can not only time and labour saving, more can increase control efficiency.
A kind of Pesticidal combination for corn of the present invention is described by concrete example, those skilled in the art can use for reference content of the present invention, the links such as suitable feed change, process conditions realize other object corresponding, its relevant change does not all depart from content of the present invention, all similar replacements and change will become apparent to those skilled in the art that and be all deemed to be included within scope of the present invention.

Claims (7)

1. a Pesticidal combination, it is characterized in that, described Pesticidal combination comprises active components A bisamide compounds and active component B anabasine compound, described bisamide compounds is any one in Rynaxypyr, bromine cyanogen insect amide, four chlorantraniliproles, described anabasine compound is any one in Diacloden, Imidacloprid, clothianidin, MTI-446, and the weight ratio of the two is 1:10-10:1.
2. Pesticidal combination according to claim 1, is characterized in that, the weight ratio of the two is 1:3-3:1.
3. for a seed coat agent for corn, it is characterized in that, described seed coat agent comprises the Pesticidal combination described in claim 1 or 2, and wherein active components A and active component B total amount account for the 10-90 % by weight of seed coat agent, and the suitable carrier of seed coat agent prepared by agricultural chemicals.
4. seed coat agent according to claim 3, is characterized in that, active components A and active component B total amount account for the 50-70 % by weight of seed coat agent.
5. for a suspension seed-coating agent for corn, it is characterized in that, in described seed coat agent, comprise the Pesticidal combination described in claim 1 or 2, wherein active components A 1 ~ 6% by weight, active component B 10 ~ 40%, film forming agent 1 ~ 10%, emulsifier 1 ~ 5%, dispersant 0.1 ~ 10%, wetting agent 0.1 ~ 10%, antifreezing agent 0.1 ~ 1%, thickener 0.1 ~ 1%, defoamer 0.1 ~ 1%, solvent polishing.
6. for a microcapsule suspension seed-coating agent for corn, it is characterized in that, in described seed coat agent, comprise the Pesticidal combination described in claim 1 or 2; wherein active components A 1 ~ 6% by weight; active component B10 ~ 40%, solvent 5 ~ 40%, film forming agent 1 ~ 10%; cyst wall agent 1 ~ 8%; emulsifier 1 ~ 5%, dispersant 0.1 ~ 10%, adjuvant 0 ~ 10%; protecting glue 0.1 ~ 3%, deionized water polishing.
7. one kind dispersibles pulvis for the seed treatment of corn, it is characterized in that, the Pesticidal combination described in claim 1 or 2 is comprised in described seed coat agent, wherein active components A 3 ~ 10% by weight, active component B 10 ~ 70%, film forming agent 1 ~ 10%, dispersant 0.1 ~ 10%, wetting agent 0.1 ~ 10%, filler polishing.
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CN105123739A (en) * 2015-08-23 2015-12-09 黄顺所 Compound insecticidal composition containing dinetofuran, chlorantraniliprole and pyrethroid
CN105272604A (en) * 2015-10-26 2016-01-27 唐睿 Pest-killing and disease-resistant suspended seed coating agent
CN105746567A (en) * 2016-03-31 2016-07-13 杭州宇龙化工有限公司 Agricultural insecticidal composition and application thereof
CN105941460A (en) * 2016-06-21 2016-09-21 南京华洲药业有限公司 Synergistic insecticidal composition containing cyantraniliprole and thiamethoxam and application thereof
CN105941459A (en) * 2016-06-21 2016-09-21 南京华洲药业有限公司 Synergistic insecticidal composition containing cyantraniliprole and clothianidin and application thereof
CN106070295A (en) * 2016-06-21 2016-11-09 南京华洲药业有限公司 A kind of brominated cyanogen insect amide and the Synergistic insecticidal compositions of imidacloprid and application thereof
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CN112806382A (en) * 2020-12-30 2021-05-18 中国农业科学院油料作物研究所 Sesame seed coating agent and coating method
CN112823629A (en) * 2019-11-21 2021-05-21 沈阳中化农药化工研发有限公司 Seed treatment agent containing bisamide compounds and application thereof
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CN114901074A (en) * 2019-12-31 2022-08-12 阿达玛马克西姆有限公司 Insecticide mixtures
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CN115299448A (en) * 2022-09-02 2022-11-08 赤天化科技集团有限公司 Insecticidal composition containing chlorantraniliprole and dinotefuran and suitable for flight control operation
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CN105123739A (en) * 2015-08-23 2015-12-09 黄顺所 Compound insecticidal composition containing dinetofuran, chlorantraniliprole and pyrethroid
CN105272604A (en) * 2015-10-26 2016-01-27 唐睿 Pest-killing and disease-resistant suspended seed coating agent
CN105746567A (en) * 2016-03-31 2016-07-13 杭州宇龙化工有限公司 Agricultural insecticidal composition and application thereof
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CN106070295A (en) * 2016-06-21 2016-11-09 南京华洲药业有限公司 A kind of brominated cyanogen insect amide and the Synergistic insecticidal compositions of imidacloprid and application thereof
CN106342870A (en) * 2016-07-28 2017-01-25 河北博嘉农业有限公司 N-(cyanoalkyl)benzamide compounds-containing agricultural insecticidal composition
CN106342822A (en) * 2016-08-31 2017-01-25 陕西西大华特科技实业有限公司 Fludioxonil, prothioconazole and chlorantraniliprole containing composition and seed coating agent and application of seed coating agent
CN106376570A (en) * 2016-08-31 2017-02-08 陕西西大华特科技实业有限公司 Fludioxonil-containing seed coating agent composition and application thereof
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CN107183056A (en) * 2017-06-30 2017-09-22 江苏省绿盾植保农药实验有限公司 A kind of suspension seed-coating agent for preventing and treating Lissorhoptrus oryzophilus Kuschel and its application
WO2021064731A1 (en) * 2019-10-03 2021-04-08 Adama Makhteshim Ltd. Pesticidal mixtures
CN114745957A (en) * 2019-10-03 2022-07-12 阿达玛马克西姆有限公司 Pesticidal mixtures
CN112823629A (en) * 2019-11-21 2021-05-21 沈阳中化农药化工研发有限公司 Seed treatment agent containing bisamide compounds and application thereof
CN114901074A (en) * 2019-12-31 2022-08-12 阿达玛马克西姆有限公司 Insecticide mixtures
CN111165500A (en) * 2020-02-24 2020-05-19 中国农业大学 Application of chemical pesticide in prevention and control of pests in ear stage of fresh-eating corn
CN112806382A (en) * 2020-12-30 2021-05-18 中国农业科学院油料作物研究所 Sesame seed coating agent and coating method
CN114467601A (en) * 2022-01-19 2022-05-13 广东省林业科学研究院 Prevention and control method for cinnamon bivalve leaf roller moths
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