The development of many crops with glyphosate tolerance has created a large demand for glyphosate herbicide formulations. Commercial aqueous solution glyphosate formulations usually contain a surfactant along with other formulation additives. The surfactant can function to help the spray solution wet the weed surface, and can also help potentiate the active ingredient. The other formulation ingredients usually include materials that function as humectants, antigelling agents, and antifreeze agents. Various traditional petrochemical derivatives have been used to achieve these effects. In this paper glycerin, a renewable natural material provides all of the nonsurfactant excipient properties. The advent of biodiesel production has created a surge in the production of glycerin. It has been found that this crude glycerin can be incorporated into commercial aqueous glyphosate formulations and can replace the traditional petrochemical derivative constituents. The glycerin functions as the humectant, antigelling agent, and antifreeze agent. This paper deals with the modifications and specifications necessary to achieve a suitable finished glyphosate product, as well as the performance results observed from field trials with the final formulation.
For most of six decades, crop oil concentrates (COCs) have been used as important tank mix adjuvants for increased pesticidal penetration. For the past 30 years, cationic surfactants have been known to enhance the bio-efficacy of numerous acid-based herbicides, especially glyphosate. With the advent of glyphosate-tolerant crops, glyphosate has become almost universal in its use. This has led to some issues with weeds hard to control with glyphosate alone. Recently a practice has developed where other herbicides and COC formulations are mixed with glyphosate to address problems with glyphosate-tolerant plants. A field study was conducted to develop a COC containing cationic surfactants that would deliver excellent, stable emulsification of the oil phase and boost the herbicidal activity of both glyphosate and the admixed herbicide. This COC worked very efficiently in a broad range of waters as well as ultra-high electrolyte environments such as ammonium sulfate solutions common to glyphosate applications.
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