Many agrochemicals are sprayed on leaves of weeds and crop plants. Foliar application minimises contamination of the soil and inactivation or degradation of active ingredients by soil microorganisms. Binding to constituents of the soil is also avoided. Systemic active ingredients must penetrate cuticles before they reach their sites of action in the leaves or in other organs of the plants following translocation (Kirkwood 1999). Pesticides are always formulated to improve wetting, deposition, rain fastness and rates of cuticular penetration. Formulations are mixtures of active ingredient, solvents, carriers, emulsifiers, wetting agents, etc. Compounds added to active ingredients are called adjuvants. Most adjuvants are biologically inert, but they improve biological performance (Kirkwood 1993). Surface active agents (surfactants) are typical adjuvants, and among other things they improve adhesion and spreading of spray droplets on the leaf surface. Surfactants may also act as emulsifiers for active ingredients having a low water solubility, and after droplet drying they can maintain the spray deposits on the cuticle in the liquid state by solvent and by hygroscopic action (Baur 1999; Baur et al. 1997b, 1999; Tadros 1987).
Some adjuvants increase diffusion coefficients of solutes in wax and cutin. This is accomplished by increasing fluidity of waxes and cutin polymer chains. As a consequence, permeability of cuticles to solutes is increased (Schönherr and Bauer 1994). In the technical polymer literature, compounds which render brittle polymers more flexible by increasing fluidity of polymer chains are called plasticisers. They intercalate between polymer chains, and they are added to the polymer melt during production (Gächter and Müller 1990). Plasticisers useful for increasing diffusion coefficients of solutes in cuticles have been termed accelerators (Schönherr 1993a, b). Some surfactants are very effective plasticisers, but surface activity is not a prerequisite for the plasticising activity. Accelerators must be added to the formulation, and they are applied to the cuticle at the same time as the active ingredient. Hence, it is a prerequisite for their usefulness that they penetrate faster into the waxy limiting barrier of the cuticle than the active ingredient, and they should remain sorbed in the wax until most of the active ingredient has penetrated the cuticle.
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© 2009 Springer-Verlag Berlin Heidelberg
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(2009). Accelerators Increase Solute Permeability of Cuticles. In: Water and Solute Permeability of Plant Cuticles. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-68945-4_7
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DOI: https://doi.org/10.1007/978-3-540-68945-4_7
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