The lesser mealworm, Alphitobius diaperinus, presents substantial challenges as a secondary pest in global stored-product management, especially within the poultry industry. This study examines the effectiveness of lambda-cyhalothrin, a synthetic pyrethroid, against A. diaperinus larvae and adults under various abiotic and biotic conditions. Bioassays were conducted at both half-label and label doses across different post-exposure temperatures ranging from 20 to 35 degrees C. The results demonstrate that lambda-cyhalothrin exhibits temperature-dependent efficacy within a 7-day exposure period, with higher temperatures resulting in increased mortality rates for both tested life stages. For larvae, mortalities ranged 81.1 (20 degrees C)-94.4% (35 degrees C) (half-label dose in the absence of food), 90.0 (20 degrees C)-100.0% (35 degrees C) (label dose in the absence of food), 72.2 (20 degrees C)-85.6% (35 degrees C) (half-label in the presence of food), 88.9 (20 degrees C)-100.0% (35 degrees C) (label dose in the presence of food) 7 days post-exposure. For adults, mortalities ranged 35.6 (20 degrees C)-74.4% (35 degrees C) (half-label dose in the absence of food), 43.3 (20 degrees C)-97.8% (35 degrees C) (label dose in the absence of food), 24.4 (20 degrees C)-65.6% (35 degrees C) (half-label in the presence of food), 38.9 (20 degrees C)-94.4% (35 degrees C) (label dose in the presence of food) after 7 days of exposure. Additionally, the significance of food substrate presence in absorbing and providing a barrier against insecticidal toxicity is highlighted, as it negatively impacted mortality rates. Overall, these findings elucidate the complex interactions among temperature, dosage, and environmental factors that optimize lambda-cyhalothrin administration efficiently managing A. diaperinus.

Optimizing λ-cyhalothrin for the effective control of Alphitobius diaperinus: Temperature and food effect revealed

Lo Muzio F.;Germinara G. S.;
2024-01-01

Abstract

The lesser mealworm, Alphitobius diaperinus, presents substantial challenges as a secondary pest in global stored-product management, especially within the poultry industry. This study examines the effectiveness of lambda-cyhalothrin, a synthetic pyrethroid, against A. diaperinus larvae and adults under various abiotic and biotic conditions. Bioassays were conducted at both half-label and label doses across different post-exposure temperatures ranging from 20 to 35 degrees C. The results demonstrate that lambda-cyhalothrin exhibits temperature-dependent efficacy within a 7-day exposure period, with higher temperatures resulting in increased mortality rates for both tested life stages. For larvae, mortalities ranged 81.1 (20 degrees C)-94.4% (35 degrees C) (half-label dose in the absence of food), 90.0 (20 degrees C)-100.0% (35 degrees C) (label dose in the absence of food), 72.2 (20 degrees C)-85.6% (35 degrees C) (half-label in the presence of food), 88.9 (20 degrees C)-100.0% (35 degrees C) (label dose in the presence of food) 7 days post-exposure. For adults, mortalities ranged 35.6 (20 degrees C)-74.4% (35 degrees C) (half-label dose in the absence of food), 43.3 (20 degrees C)-97.8% (35 degrees C) (label dose in the absence of food), 24.4 (20 degrees C)-65.6% (35 degrees C) (half-label in the presence of food), 38.9 (20 degrees C)-94.4% (35 degrees C) (label dose in the presence of food) after 7 days of exposure. Additionally, the significance of food substrate presence in absorbing and providing a barrier against insecticidal toxicity is highlighted, as it negatively impacted mortality rates. Overall, these findings elucidate the complex interactions among temperature, dosage, and environmental factors that optimize lambda-cyhalothrin administration efficiently managing A. diaperinus.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11369/462041
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