"Research in Agricultural Engineering" . . . "P(ME 326)" . . "1" . . . "48" . . . . "Uneven distribution of fenitrothion microcapsules (Detmolmic) inside droplet deposits." . "[6D7B65D28132]" . "Stejskal, V\u00E1clav" . "RIV/00027006:_____/01:00000042!RIV/2002/MSM/M01002/N" . "1212-9151" . . . . . . . "Uneven distribution of fenitrothion microcapsules (Detmolmic) inside droplet deposits."@en . "0"^^ . "2"^^ . "0"^^ . . . . "36;40" . "Uneven distribution of fenitrothion microcapsules (Detmolmic) inside droplet deposits." . "699592" . "2"^^ . "In microencapsulated pesticide formulations (SC) the active ingredient is not evenly distributed in spray fluid but is concentrated in plastic microcapsules. This note gives the first report of an aggregation tendency of fenitriothion microcapsules (Det mol-mic) inside of droplet deposit. In wet droplet, the highest proportion of microcapsules was separated and evenly distributed in space while in dry droplets the microcapsules form agrregates. The influence of application method, either by pipette or hand sprayer, on aggregation pattern of microcapsules wa neglegible. Microcapsules aggregation inside droplets further increase concentration and non-uniformity of active ingrwedient on the surface treated by this type of pesticide. The implication of a ggregation effect of microcapsules for an insecticide %22bioavailability%22, efficiency on terget pest and resistence prevention is discussed."@en . "Uneven distribution of fenitrothion microcapsules (Detmolmic) inside droplet deposits."@en . "RIV/00027006:_____/01:00000042" . "pesticides; distribution; droplet size; aggregation; urban pests; store-product pests"@en . "CZ - \u010Cesk\u00E1 republika" . "5"^^ . "Aulick\u00FD, Radek" . "In microencapsulated pesticide formulations (SC) the active ingredient is not evenly distributed in spray fluid but is concentrated in plastic microcapsules. This note gives the first report of an aggregation tendency of fenitriothion microcapsules (Det mol-mic) inside of droplet deposit. In wet droplet, the highest proportion of microcapsules was separated and evenly distributed in space while in dry droplets the microcapsules form agrregates. The influence of application method, either by pipette or hand sprayer, on aggregation pattern of microcapsules wa neglegible. Microcapsules aggregation inside droplets further increase concentration and non-uniformity of active ingrwedient on the surface treated by this type of pesticide. The implication of a ggregation effect of microcapsules for an insecticide %22bioavailability%22, efficiency on terget pest and resistence prevention is discussed." . . .