Abstract

A common class of fungicides are the ethylene bisdithiocarbamates (EBDCs) which decompose into ethylene bis-isothiocyanate sulfide (EBIS). EBIS is the primary fungitoxic component which is effective on various life stages of oomycete fungi, including zoospores (primary infection agents of oomycete fungal diseases). It is hypothesized that increased fungicide effectiveness can occur if zoospores are attracted to the toxicant (site of fungicide deposition) through chemotaxis using zoospore attractants (ZAs). Several probe studies proved this hypothesis when a ZA was formulated with EBDC products. A highly effective zoospore attractant is isovaleraldehyde (IVA), but IVA is volatile and dissipates rapidly in the environment. Therefore, various precursors for IVA and EBIS were studied to characterize the transient production and decline of EBIS and IVA from precursor material. First-order kinetic material balances and a stochastic modeling tool are created to fully exploit the conditions when the overlap of EBIS and IVA is maximized. A metric is proposed (measure of the overlap of fungicide and ZA residue) as an indirect measure of the potential for preventative fungicide efficacy when ZAs are included within the formulation. Therefore, fungicide formulations containing a ZA can be designed through model deployment that considers the production and decline patterns of both the fungicide and ZA, and the daily environmental dew cycle responsible for achieving the maximum concentration overlap when zoospores are the most infectious (e.g., mobile in the presence of dew) for enhanced crop disease control. It is found that the poly-IVA produrg investigated provides the maximum overlap of EBIS and IVA residues for many different EBDC formulations investigated. This modeling approach, and the examples provided for EBIS and IVA material balances, can be expanded for different fungicides and ZAs allowing for cause/effect to be inferred from multiple interacting factors, and formulations can be designed for optimal release characteristics that maximize the overlap of fungitoxic material and zoospore attractant.

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