Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Overland flow, organophosphorus insecticides

Formulation and initial placement influence the susceptibility of organophosphorus insecticides to transport in surface runoff, as well as their degradation by abiotic and microbial processes. Formulation affects the kinetics of insecticide release into soil water and overland flow, as well as sorption to soil solids and plant surfaces. Spray adjuvants affect initial placement by influencing the amount of insecticide depositing on foliar and soil surfaces. Initial placement determines the relative importance of such processes as volatilization, photolysis, biodegradation, and leaching out of the zone of interaction with overland flow. [Pg.167]

After organophosphorus insecticides are deposited on or incorporated into the soil matrix, they distribute themselves between the air, soil air, soil water and soil solid phases. Insecticides applied to foliar surfaces partition between the plant cuticle, air and any water present on the leaf surface (e.g., dew). Phase distribution affects the amount of organophosphorus insecticide available for transfer into overland flow, as well as the mode of transport in surface runoff. [Pg.170]

Dissolved insecticides are transferred from soil solution to surface runoff through the concurrent mechanisms of molecular diffusion, raindrop impact induced turbulent diffusion, and shear stress induced mass transfer (63, 64). In addition, shallow interflow may contribute dissolved chemicals to surface runoff as it returns to the surface downslope or seeps into rills and furrows 65). Most studies of dissolved chemical transport into overland flow have employed inorganic tracers such as bromide, gypsum (CaS04 2H20) and 66, 67). The behavior of organophosphorus insecticides, however, is considerably more complex due to association with particulate and colloidal natural organic matter. [Pg.177]

While the occurrence of most processes affecting organophosphorus insecticide concentrations in surface runoff are well documented, many are relatively poorly understood on a mechanistic level. Key processes requiring further study include sorption to plant and soil surfaces, and transfer from soil water into overland flow. Sorption to foliar surfaces determines the amount of applied insecticide available for washoff onto the soil surface or into surface runoff The kinetics of desorption from plant cuticular materials and the effect of adjuvants on foliar sorption processes need additional research. [Pg.181]


See other pages where Overland flow, organophosphorus insecticides is mentioned: [Pg.164]    [Pg.170]    [Pg.177]    [Pg.179]    [Pg.181]    [Pg.181]   
See also in sourсe #XX -- [ Pg.177 ]




SEARCH



ORGANOPHOSPHORUS

Overland flow

Overland flow, organophosphorus

© 2024 chempedia.info