Researchers suggest prohibiting selling and planting Vip3Aa corn in the cotton-growing regions of the US to try to save cotton crops

Bt crops are ineffective when pests adapt to Bt toxins. Some populations of at least nine major lepidopteran and coleopteran pests have evolved practical resistance to Bt crystalline (Cry) toxins produced by transgenic crops, including Helicoverpa zea (corn earworm and bollworm), one of the most damaging crop pests in the United States. Driven in part by this resistance, farmers have planted Bt corn and cotton that produce the Bt vegetative insecticidal protein Vip3Aa in addition to various Cry proteins. Vip3Aa is the only Bt toxin in transgenic corn and cotton that remains effective against some populations of this pest in the United States.

A recent study evaluated H. zea resistance to Vip3Aa using diet bioassays to test 42,218 larvae from three lab strains and 71 strains derived from the field. Susceptibility to Vip3Aa of the field-derived strains decreased significantly from 2016 to 2020, while several strains derived from the field in 2019 were significantly resistant to Vip3Aa, with up to 13-fold resistance. Susceptibility to Vip3Aa was significantly lower for strains derived from Vip3Aa plants than non-Vip3Aa plants, providing direct evidence of resistance evolving in response to selection by Vip3Aa plants in the field.

Together with previously reported data, these results convey an early warning of field-evolved resistance to Vip3Aa in H. zea. The researchers propose the prohibition of selling and planting field corn hybrids that produce Vip3Aa in the cotton-growing regions of the United States, in order to limit selection for resistance to Vip3Aa in corn, where H. zea is not a major economic pest, in the hope that it could help preserve efficacy against H. zea in cotton, where it is a major economic pest.


Source: Third World Network
https://biosafety-info.net/articles/traits-in-agriculture/pest-resistance/corn-pests-showing-signs-of-resistance-to-bt-toxin-vip3aa/
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New study:
Early warning of resistance to Bt toxin Vip3Aa in Helicoverpa zea
Yang, F., Kerns, D.L., Little, N.S., Santiago González, J.C., and Tabashnik, B.E.
Toxins, 13(9), 618. 2 September 2021
https://www.mdpi.com/2072-6651/13/9/618 (open access)

Abstract

Evolution of resistance by pests can reduce the benefits of crops genetically engineered to produce insecticidal proteins from Bacillus thuringiensis (Bt). Because of the widespread resistance of Helicoverpa zea to crystalline (Cry) Bt toxins in the United States, the vegetative insecticidal protein Vip3Aa is the only Bt toxin produced by Bt corn and cotton that remains effective against some populations of this polyphagous lepidopteran pest. Here we evaluated H. zea resistance to Vip3Aa using diet bioassays to test 42,218 larvae from three lab strains and 71 strains derived from the field during 2016 to 2020 in Arkansas, Louisiana, Mississippi, Tennessee, and Texas. Relative to the least susceptible of the three lab strains tested (BZ), susceptibility to Vip3Aa of the field-derived strains decreased significantly from 2016 to 2020. Relative to another lab strain (TM), 7 of 16 strains derived from the field in 2019 were significantly resistant to Vip3Aa, with up to 13-fold resistance. Susceptibility to Vip3Aa was significantly lower for strains derived from Vip3Aa plants than non-Vip3Aa plants, providing direct evidence of resistance evolving in response to selection by Vip3Aa plants in the field. Together with previously reported data, the results here convey an early warning of field-evolved resistance to Vip3Aa in H. zea that supports calls for urgent action to preserve the efficacy of this toxin.