Seed treatment heterogeneous preparation for treating both diseases and pests
A seed treatment and preparation technology, applied in the field of pesticides, can solve problems such as yield reduction, damage, reduction of thousand-grain weight, etc., and achieve the effects of expanding the control range, significant control effect, and simple use.
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Embodiment 1
[0087] Such as figure 1 As shown, the present invention discloses a method for preparing a multi-phase preparation for treating both diseases and insect pests, the method comprising:
[0088] S1. Dissolving the first capsule wall material in an oil phase composed of fludioxonil, azoxystrobin and a solvent to obtain a mixed oil phase;
[0089] S2, adding the mixed oil phase into the water phase composed of the second capsule wall material to obtain fludioxonil-azoxystrobin microcapsule suspension;
[0090] S3, mixing dinotefuran with deionized water, a wetting agent, and a dispersant to obtain a mixed slurry;
[0091] S4, performing ultrafine pulverization on the mixed slurry to obtain dinotefuran suspension concentrate;
[0092] S5. Add the dinotefuran suspension into the fludioxonil-azoxystrobin microcapsule suspension, and then add antifreeze, first thickener, second thickener, preservative and defoamer in sequence, Stir evenly to obtain azoxystrobin-fludioxonil-dnotefura...
Embodiment 2
[0114] The invention discloses a method for preparing a multi-phase preparation for seed treatment for treating both diseases and insect pests, which is characterized in that the method comprises:
[0115] S1. Dissolving the first capsule wall material in an oil phase composed of fludioxonil, azoxystrobin and a solvent to obtain a mixed oil phase;
[0116] S2, adding the mixed oil phase into the water phase composed of the second capsule wall material to obtain fludioxonil-azoxystrobin microcapsule suspension;
[0117] S3, mixing dinotefuran with deionized water, a wetting agent, and a dispersant to obtain a mixed slurry;
[0118] S4, performing ultrafine pulverization on the mixed slurry to obtain dinotefuran suspension concentrate;
[0119] S5. Add the dinotefuran suspension into the fludioxonil-azoxystrobin microcapsule suspension, and then add antifreeze, first thickener, second thickener, preservative and defoamer in sequence, Stir evenly to obtain azoxystrobin-fludioxo...
Embodiment 3
[0133] In this example, the mycelial growth rate method was used to test the indoor antibacterial activity of fludioxonil and azoxystrobin single agents on wheat sheath blight bacteria, and the joint action types of 7 proportioning combinations were designed and screened, and found The ratio with significant synergistic effect; (2) Using the dipping method, tested the indoor toxicity of 3 different ratio combinations to wheat aphids, and found the ratio with significant toxicity.
[0134] experiment material
[0135] 1 Test for determination of wheat sheath blight virus force
[0136] 1.1 Design of test agents and test doses
[0137] 95% of the technical fludioxonil and 97% of the technical azoxystrobin were provided by XXX Co., Ltd. Designed 7 combinations of 2.5+1, 2.5+1.5, 2.5+2.5, 2.5+5, 2.5+7.5, 2.5+10 and 2.5+12.5, namely 1:0.4, 1:0.6, 1:1, 1:2 , 1:3, 1:4 and 1:5. The dose design after the pre-experiment is shown in Table 5.
[0138] Table 5 Test dose design
[013...
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