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1 May 2024 Fate of synthetic chemicals in the agronomic insect pest Spodoptera littoralis: experimental feeding-contact assay and toxicokinetic model
Clara I. Römer, Roman Ashauer, Beate I. Escher, Kristin Höfer, Michel Muehlebach, Pouria Sadeghi-Tehran, Neil Sherborne, Anke Buchholz
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Abstract

Insecticides prevent or reduce insect crop damage, maintaining crop quality and quantity. Physiological traits, such as an insect's feeding behavior, influence the way insecticides are absorbed and processed in the body (toxicokinetics), which can be exploited to improve species selectivity. To fully understand the uptake of insecticides, it is essential to study their total uptake and toxicokinetics independent of their toxic effects on insects. We studied the toxicokinetics (TK) of insecticidally inactive test compounds incorporating agro-like structural motifs in larvae of the Egyptian cotton leafworm (Spodoptera littoralis, Lepidoptera), and their distribution across all biological matrices, using laboratory experiments and modeling. We measured Spodoptera larval behavior and temporal changes of whole-body concentrations of test compounds during feeding on treated soybean leaf disks and throughout a subsequent depuration period. Differences in the distribution of the total quantities of compounds were found between the biological matrices leaf, larva, and feces. Rate constants for uptake and elimination of test compounds were derived by calibrating a toxicokinetic model to the whole-body concentrations. Uptake and elimination rate constants depended on the physicochemical properties of the test compounds. Increasing hydrophobicity increased the bioaccumulation potential of test compounds. Incomplete quantities in larval matrices indicated that some compounds may undergo biotransformation. As fecal excretion was a major elimination pathway, the variable time of release and number of feces pellets led to a high variability in the body burden. We provide quantitative models to predict the toxicokinetics and bioaccumulation potential of inactive insecticide analogs (parent compounds) in Spodoptera.

Graphical Abstract

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Clara I. Römer, Roman Ashauer, Beate I. Escher, Kristin Höfer, Michel Muehlebach, Pouria Sadeghi-Tehran, Neil Sherborne, and Anke Buchholz "Fate of synthetic chemicals in the agronomic insect pest Spodoptera littoralis: experimental feeding-contact assay and toxicokinetic model," Journal of Economic Entomology 117(3), 982-992, (1 May 2024). https://doi.org/10.1093/jee/toae083
Received: 26 October 2023; Accepted: 15 April 2024; Published: 1 May 2024
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KEYWORDS
Absorption
agrochemistry
depuration
excretion
exposure
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