Detection of the insecticide substance acetamiprid in honey bee population components under realistic field conditions DOI
Simona Benčaťová, Vladimí­ra Kňazovická, Martin Staroň

и другие.

Journal of Environmental Science and Health Part B, Год журнала: 2025, Номер unknown, С. 1 - 12

Опубликована: Июнь 2, 2025

The study investigates the transfer of pesticides from crops to beehive and its individual components. Two categories were examined: bee products (pollen pellets, beebread, honey) living biological materials (forager bees, nurse larvae). Pesticide residues detected, with varying concentrations across different time points sample types. Pollen pellets showed highest initial contamination, rapidly declining thereafter. Beebread displayed gradual persistent residue accumulation, whereas honey had a delayed contamination peak slower degradation. In materials, forager bees significant decreasing over time. Larvae consistently minimal residues, indicating effective colony protective mechanisms. Statistical analysis confirmed as key factor influencing dynamics, highlighting metabolic exposure pathways. results highlight complexity pesticide dynamics within colonies, emphasizing importance continuous environmental monitoring protect health.

Язык: Английский

Detection of the insecticide substance acetamiprid in honey bee population components under realistic field conditions DOI
Simona Benčaťová, Vladimí­ra Kňazovická, Martin Staroň

и другие.

Journal of Environmental Science and Health Part B, Год журнала: 2025, Номер unknown, С. 1 - 12

Опубликована: Июнь 2, 2025

The study investigates the transfer of pesticides from crops to beehive and its individual components. Two categories were examined: bee products (pollen pellets, beebread, honey) living biological materials (forager bees, nurse larvae). Pesticide residues detected, with varying concentrations across different time points sample types. Pollen pellets showed highest initial contamination, rapidly declining thereafter. Beebread displayed gradual persistent residue accumulation, whereas honey had a delayed contamination peak slower degradation. In materials, forager bees significant decreasing over time. Larvae consistently minimal residues, indicating effective colony protective mechanisms. Statistical analysis confirmed as key factor influencing dynamics, highlighting metabolic exposure pathways. results highlight complexity pesticide dynamics within colonies, emphasizing importance continuous environmental monitoring protect health.

Язык: Английский

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