Guidance on how to reduce bee poisoning, based on reported pesticide effects on adults and brood of honey bees and other bee species. Ratings are for the pesticide active ingredient, the common name.*
Note: These are not the pollinator precautionary statements on the pesticide labels. Some of the listed pesticides are not registered, or approved, for use. Make sure the pesticide use is legal and appropriate before making any application. Always read the label and know and follow the applicable laws and regulations before making any pesticide application. Follow best management practices to protect bees from pesticides.
Frequently asked questions (FAQs) about this tool.
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Common Name (Trade Name) |
Type | Mode of action | Rating | Other effects on bees | Toxic to honey bee brood | Toxic to other bee species | |
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| Please select a common name or trade name from the list above. | |||||||
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| I | Do not apply or allow to drift to plants that are flowering. |
| II | Do not apply or allow to drift to plants that are flowering, except when the application is made between sunset and midnight if allowed by the pesticide label and regulations. |
| III | No bee precaution, except when required by the pesticide label or regulations. |
| Mode of action | |
| FRAC | Fungicide Resistance Action Committee mode-of-action codes for bactericides and fungicides. |
| HRAC | Herbicide Resistance Action Committee mode-of-action codes for herbicides and plant growth regulators. |
| IRAC | Insecticide Resistance Action Committee mode-of-action codes for acaricides, insecticides, nematicides, and molluscicides. |
| WSSA | Weed Science Society of America mode-of-action codes are presented at the HRAC Herbicide Resistance Action Committee website above. |
| Mode-of-action code presentation style | |
| · | The separator (a bullet point) between the two mode-of-action codes for each herbicide active ingredient (common name), such as O·4, the HRAC·WSSA codes for 2,4-D. |
| / | The separator between common names (active ingredients), and between their mode-of-action codes, when two or more pesticides are combined in the same trade name product (e.g., a premix of the three herbicides 2,4-D/DICAMBA/MCPP). |
| ; | The separator between pesticide types, and between their mode-of-action codes, when an active ingredient (common name) is of multiple types as with sulfur, an Acaricide; Fungicide; Insecticide. |
| When the trade name product is in a premix of more than one active ingredient (common name) with the same mode of action, the codes are presented only once. For example, for the combination of the two dinitroaniline herbicides BENEFIN/TRIFLURALIN (Team 2G) their HRAC·WSSA codes are presented as "K1·3" instead of "K1·3/K1·3." | |
| Mode-of-action codes are presented in the order of the common names to which they apply in line of given type. For example, the codes for PYRIDABEN/SULFUR (Desperado) are "21A/UN" as acaricide (IRAC codes), "–/M2" as fungicide (FRAC codes), and "21A/UN" as insecticide (IRAC codes). | |
| Other effects | |
| FRAC3 | If mixed with DMI fungicides FRAC code 3 (e.g., propiconazole, tebuconazole, triflumizole), may increase toxicity to bees. |
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FRAC3 IRAC3A |
If mixed with DMI fungicides FRAC code 3 (e.g., propiconazole, tebuconazole, triflumizole), or pyrethroid insecticides IRAC group 3A (e.g., cyhalothrin, cypermethrin, tau-fluvalinate), may increase toxicity to bees. |
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FRAC3 FRACM5 |
If mixed with DMI fungicides FRAC code 3 (e.g., propiconazole, tebuconazole, triflumizole), or chlorothalonil fungicide FRAC code M5, may increase toxicity to bees. |
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FRAC3 IRAC3A |
If mixed with DMI fungicides FRAC code 3 (e.g., propiconazole, tebuconazole, triflumizole), or pyrethroid insecticides IRAC group 3A (e.g., cyhalothrin, cypermethrin, tau-fluvalinate), may increase toxicity to bees. |
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FRAC7 FRAC11 |
If mixed with SDHI and QoI fungicides FRAC codes 7 and 11 (boscalid and pyraclostrobin, Pristine), may increase toxicity to bees. |
| Insecticide | If mixed with insecticides, increases hazard to bees. |
| IRAC1B | If mixed with the organophosphate insecticide chlorpyrifos, IRAC group 1B, may increase toxicity to bees. |
| IRAC3A | If mixed with pyrethroid insecticides, IRAC group 3A (e.g., cyhalothrin, cypermethrin, tau-fluvalinate), may increase toxicity to bees. |
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IRAC3A IRAC4A IRAC4D IRAC15 |
If mixed with insecticides, including butenolide IRAC group 4D (flupyradifurone), chitin biosynthesis inhibitors IRAC group 15 (e.g., diflubenzuron, novaluron), neonicotinoids IRAC group 4A (e.g., acetamiprid, clothianidin, imidacloprid, thiamethoxam, thiacloprid), or pyrethroids IRAC group 3A (e.g., cyhalothrin, cypermethrin, tau-fluvalinate), may increase toxicity to bees. |
| Indirect | Most herbicides are not toxic to bees, according to the available information. Herbicides primarily harm bees indirectly, by reducing the availability of flowering plants that produce nectar, pollen, and bee nesting material. |
| *Sources | |
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| Authors | |
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Steve H. Dreistadt, UC IPM Program, Davis Elina L. Niño, Entomology and Nematology, UC Davis Lucia G. Varela, UC IPM Program, UC Cooperative Extension, Sonoma County Eric C. Mussen, Entomology and Nematology, UC Davis Louisa Hooven, Oregon State University Benjamin Phillips, Michigan State University Erik Johansen, Washington State Department of Agriculture Timothy Lawrence, Washington State University Ramesh Sagili, Oregon State University |
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| Acknowledgements | |
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Richard S. Cowles, Connecticut Agricultural Experiment Station Brad Hanson, Plant Sciences, UC Davis Reed M. Johnson, Ohio State University Amber Vinchesi-Vahl, UC Cooperative Extension Cheryl A. Wilen, UC IPM Program, UC Cooperative Extension, San Diego County Tunyalee Martin and Petr Kosina, coordinators; Chinh Lam, Mark Takata production; UC IPM. Partially funded by the National Institute of Food and Agriculture, U. S. Department of Agriculture - Crop Protection and Pest Management Competitive Grants Program. |
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