P. C. Jepson scite author profile

The synergistic effect of a range of ergosterol‐biosynthesis‐inhibiting (EBI) fungicides and a pyrethroid insecticide was studied in the honeybee (Apis mellifera L.). Various EBI fungicides were combined separately with the pyrethroid lambda‐cyhalothrin at ratios derived from their recommended application rates to represent tank‐mixing in the field. The mixture was then applied topically to the thorax of honeybees, and mortality assessed 24 h post‐treatment. All the fungicides tested increased the toxicity of lambda‐cyhalothrin to honeybees. The fungicide propiconazole was found to have the strongest synergistic effect, decreasing the LD50 of lambda‐cyalothrin from 68.0 ng bee−1 to 4.2 ng, thus having a synergistic ratio of 16.2. Hazard ratios were calculated for lambda‐cyhalothrin and fungicide mixtures using a recommended application rate of 7.5 g a.i. ha−1. The hazard ratio for lambda‐cyhalothrin alone was 110, but when mixed with fungicide synergists, the hazard ratio ranged from 366 with flutriafol to 1786 with propiconazole. A blank formulation of a fungicide (without the active ingredient prochloraz) had little effect on the toxicity of lambda‐cyhalothrin, indicating that it is primarily the fungicide active ingredient that is responsible for the synergistic effect. The results are discussed in terms of the potential hazard posed by pesticide synergism to honeybees in the field.

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Mechanism of Synergism between the Pyrethroid Insecticide λ-Cyhalothrin and the Imidazole Fungicide Prochloraz, in the Honeybee (Apis mellifera L.)

Pilling

Bromleychallenor

Walker

et al. 1995

Pesticide Biochemistry and Physiology

145

101

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Limitations to Use of Topical Toxicity Data for Predictions of Pesticide Side Effects in the Field

Stark¹,

Jepson²,

Mayer³

1995

159

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Measuring pesticide ecological and health risks in West African agriculture to establish an enabling environment for sustainable intensification

Jepson

Guzy

Blaustein

et al. 2014

Phil. Trans. R. Soc. B

117

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We outline an approach to pesticide risk assessment that is based upon surveys of pesticide use throughout West Africa. We have developed and used new risk assessment models to provide, to our knowledge, the first detailed, geographically extensive, scientifically based analysis of pesticide risks for this region. Human health risks from dermal exposure to adults and children are severe enough in many crops to require long periods of up to three weeks when entry to fields should be restricted. This is impractical in terms of crop management, and regulatory action is needed to remove these pesticides from the marketplace. We also found widespread risks to terrestrial and aquatic wildlife throughout the region, and if these results were extrapolated to all similar irrigated perimeters in the Senegal and Niger River Basins, they suggest that pesticides could pose a significant threat to regional biodiversity. Our analyses are presented at the regional, national and village levels to promote regulatory advances but also local risk communication and management. Without progress in pesticide risk management, supported by participatory farmer education, West African agriculture provides a weak context for the sustainable intensification of agricultural production or for the adoption of new crop technologies.

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P. C. Jepson

Assessment of risk of insect-resistant transgenic crops to nontarget arthropods

Synergism between EBI fungicides and a pyrethroid insecticide in the honeybee (Apis mellifera)

Mechanism of Synergism between the Pyrethroid Insecticide λ-Cyhalothrin and the Imidazole Fungicide Prochloraz, in the Honeybee (Apis mellifera L.)

Limitations to Use of Topical Toxicity Data for Predictions of Pesticide Side Effects in the Field

Measuring pesticide ecological and health risks in West African agriculture to establish an enabling environment for sustainable intensification

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