Reported Resistance Case(s)

Species: bemisia tabaci

Order	Family	Common Name(s)	Group	Host
homoptera	aleyrodidae	sweetpotato whitefly	AG	cotton

Active Ingredient: Afidopyropen

MOA: Microbial disruptors of insect midgut membranes (includes transgenic crops), Bacillus thuringiensis (variety unstated)
Group: ORG	CAS #:	Shaugnessy Code:

Resistance Case(s)

Case Id	Year of Report	Type of Resistance	Location	Reference
G21522	2022	Field Evolved Resistance	China-- Beijing-- Haidian	Wang, R., GaoB.,Che, W., Qu., Zhou, X., and Luo, C. (2022). First Report of Field Resistance to Afidopyropen, the Novel Pyropene Insecticide, on Bemisia tabaci Mediterranean (Q Biotype) from China. Agronomy, 12 724.
G21712	2022	Field Evolved Resistance	India-- Uttar Pradesh-- Kanpur	Mahalanobish, D., Dutta, S., Roy, D., Biswas, A., Sarkar, S., Mondal, D., and Sarkar, P. K. (2022). Field-evolved resistance and mechanisms in Bemisia tabaci Asia I to a novel pyropene insecticide, afidopyropen, in India. Crop Protection, 162 106078.
G21713	2022	Field Evolved Resistance	India-- Maharashtra-- Wardha	Mahalanobish, D., Dutta, S., Roy, D., Biswas, A., Sarkar, S., Mondal, D., and Sarkar, P. K. (2022). Field-evolved resistance and mechanisms in Bemisia tabaci Asia I to a novel pyropene insecticide, afidopyropen, in India. Crop Protection, 162 106078.
G21714	2022	Field Evolved Resistance	India-- Punjab-- Ludhiana	Mahalanobish, D., Dutta, S., Roy, D., Biswas, A., Sarkar, S., Mondal, D., and Sarkar, P. K. (2022). Field-evolved resistance and mechanisms in Bemisia tabaci Asia I to a novel pyropene insecticide, afidopyropen, in India. Crop Protection, 162 106078.
G21715	2022	Field Evolved Resistance	India-- West Bengal -- Murshidabad	Mahalanobish, D., Dutta, S., Roy, D., Biswas, A., Sarkar, S., Mondal, D., and Sarkar, P. K. (2022). Field-evolved resistance and mechanisms in Bemisia tabaci Asia I to a novel pyropene insecticide, afidopyropen, in India. Crop Protection, 162 106078.
G22315	2023	Lab selected after field-evolved resistance**	China	Wang, R., Gao, B., Zhang, Q., Qu, C., & Luo, C. (2023). Knockdown of TRPV gene Nanchung decreases resistance to the novel pyropene insecticide, afidopyropen, in Bemisia tabaci.. International journal of biological macromolecules 1566–1575.

*The population was created solely by selection and/or genetic manipulation.
**The population was selected further in the laboratory after collection.