Interaction of Insecticides and Fungicides in Bees.

Antonia Schuhmann,Janna Schulte,Ricarda Scheiner,Anna Paulina Schmid,Sarah Manzer

doi:10.3389/finsc.2021.808335

Antonia Schuhmann, Janna Schulte + Show 3 more

Open Access

https://doi.org/10.3389/finsc.2021.808335

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Abstract

Honeybees and wild bees are among the most important pollinators of both wild and cultivated landscapes. In recent years, however, a significant decline in these pollinators has been recorded. This decrease can have many causes including the heavy use of biocidal plant protection products in agriculture. The most frequent residues in bee products originate from fungicides, while neonicotinoids and, to a lesser extent, pyrethroids are among the most popular insecticides detected in bee products. There is abundant evidence of toxic side effects on honeybees and wild bees produced by neonicotinoids, but only few studies have investigated side effects of fungicides, because they are generally regarded as not being harmful for bees. In the field, a variety of substances are taken up by bees including mixtures of insecticides and fungicides, and their combinations can be lethal for these pollinators, depending on the specific group of insecticide or fungicide. This review discusses the different combinations of major insecticide and fungicide classes and their effects on honeybees and wild bees. Fungicides inhibiting the sterol biosynthesis pathway can strongly increase the toxicity of neonicotinoids and pyrethroids. Other fungicides, in contrast, do not appear to enhance toxicity when combined with neonicotinoid or pyrethroid insecticides. But the knowledge on possible interactions of fungicides not inhibiting the sterol biosynthesis pathway and insecticides is poor, particularly in wild bees, emphasizing the need for further studies on possible effects of insecticide-fungicide interactions in bees.

Highlights

Insect pollination is one of the most essential ecosystem services, with more than 75% of all crops being pollinated by insects [1, 2]
On the other hand, rely on independent scientific research on possible negative side effects of plant protection product (PPP) for a wide range of insects and in combination with other PPPs, because the agrochemicals, for which there is a high demand in food production industry, are naturally only tested for adverse side effects on beneficial insects to a small degree during the approval process and sublethal effects are hardly studied [25, 149, 150]
There is a strong positive correlation between the number of papers published on a certain PPP and the likelyhood that it will be banned from field use (Figures 3A–C)

Summary

Introduction

Insect pollination is one of the most essential ecosystem services, with more than 75% of all crops being pollinated by insects [1, 2]. The nitroguanidine neonicotinoid clothianidin induced a significantly higher mortality in honeybees, and in bumblebees (Bombus terrestris) and solitary bees (Osmia bicornis) when co-applied orally with the SBI fungicide propiconazole. The combination of pyrethroids, the neonicotinoid acetamiprid or of new substitute products for neonicotinoids and SBI fungicides is still likely to occur in many countries within the EU and outside, putting honeybees and wild bees at risk.

Results

Conclusion