Extended Sentinel Monitoring of Helicoverpa zea Resistance to Cry and Vip3Aa Toxins in Bt Sweet Corn: Assessing Changes in Phenotypic and Allele Frequencies of Resistance

Galen P. Dively; Tom P. Kuhar; Sally V. Taylor; Helene Doughty; Kristian Holmstrom; Daniel O. Gilrein; Brian A. Nault; Joseph Ingerson-Mahar; Anders Huseth; Dominic Reisig; Shelby Fleischer; David Owens; Kelley Tilmon; Francis Reay-Jones; Pat Porter; Jocelyn Smith; Julien Saguez; Jason Wells; Caitlin Congdon; Holly Byker; Bryan Jensen; Chris DiFonzo; William D. Hutchison; Eric Burkness; Robert Wright; Michael Crossley; Heather Darby; Tom Bilbo; Nicholas Seiter; Christian Krupke; Craig Abel; Brad S. Coates; Bradley McManus; Billy Fuller; Jeffrey Bradshaw; Julie A. Peterson; David Buntin; Silvana Paula-Moraes; Katelyn Kesheimer; Whitney Crow; Jeffrey Gore; Fangneng Huang; Dalton C. Ludwick; Amy Raudenbush; Sebastian Jimenez; Yves Carrière; Timothy Elkner; Kelly Hamby

doi:10.3390/insects14070577

Extended Sentinel Monitoring of Helicoverpa zea Resistance to Cry and Vip3Aa Toxins in Bt Sweet Corn: Assessing Changes in Phenotypic and Allele Frequencies of Resistance

Galen P. Dively, Tom P. Kuhar, Sally V. Taylor, Helene Doughty, Kristian Holmstrom, Daniel O. Gilrein, Brian A. Nault, Joseph Ingerson-Mahar, Anders Huseth, Dominic Reisig, Shelby Fleischer, David Owens, Kelley Tilmon, Francis Reay-Jones, Pat Porter, Jocelyn Smith, Julien Saguez, Jason Wells, Caitlin Congdon, Holly BykerBryan Jensen, Chris DiFonzo, William D. Hutchison, Eric Burkness, Robert Wright, Michael Crossley, Heather Darby, Tom Bilbo, Nicholas Seiter, Christian Krupke, Craig Abel, Brad S. Coates, Bradley McManus, Billy Fuller, Jeffrey Bradshaw, Julie A. Peterson, David Buntin, Silvana Paula-Moraes, Katelyn Kesheimer, Whitney Crow, Jeffrey Gore, Fangneng Huang, Dalton C. Ludwick, Amy Raudenbush, Sebastian Jimenez, Yves Carrière, Timothy Elkner, Kelly Hamby

Research output: Contribution to journal › Article › peer-review

Abstract

Transgenic corn and cotton that produce Cry and Vip3Aa toxins derived from Bacillus thuringiensis (Bt) are widely planted in the United States to control lepidopteran pests. The sustainability of these Bt crops is threatened because the corn earworm/bollworm, Helicoverpa zea (Boddie), is evolving a resistance to these toxins. Using Bt sweet corn as a sentinel plant to monitor the evolution of resistance, collaborators established 146 trials in twenty-five states and five Canadian provinces during 2020–2022. The study evaluated overall changes in the phenotypic frequency of resistance (the ratio of larval densities in Bt ears relative to densities in non-Bt ears) in H. zea populations and the range of resistance allele frequencies for Cry1Ab and Vip3Aa. The results revealed a widespread resistance to Cry1Ab, Cry2Ab2, and Cry1A.105 Cry toxins, with higher numbers of larvae surviving in Bt ears than in non-Bt ears at many trial locations. Depending on assumptions about the inheritance of resistance, allele frequencies for Cry1Ab ranged from 0.465 (dominant resistance) to 0.995 (recessive resistance). Although Vip3Aa provided high control efficacy against H. zea, the results show a notable increase in ear damage and a number of surviving older larvae, particularly at southern locations. Assuming recessive resistance, the estimated resistance allele frequencies for Vip3Aa ranged from 0.115 in the Gulf states to 0.032 at more northern locations. These findings indicate that better resistance management practices are urgently needed to sustain efficacy the of corn and cotton that produce Vip3Aa.

Original language	English (US)
Article number	577
Journal	Insects
Volume	14
Issue number	7
Early online date	Jun 25 2023
DOIs	https://doi.org/10.3390/insects14070577
State	Published - Jul 2023

Keywords

corn earworm
phenotypic and allele resistance frequency
Bacillus thuringiensis toxins
resistance monitoring
bollworm

ASJC Scopus subject areas

Insect Science

Online availability

10.3390/insects14070577License: CC BY

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Dively, G. P., Kuhar, T. P., Taylor, S. V., Doughty, H., Holmstrom, K., Gilrein, D. O., Nault, B. A., Ingerson-Mahar, J., Huseth, A., Reisig, D., Fleischer, S., Owens, D., Tilmon, K., Reay-Jones, F., Porter, P., Smith, J., Saguez, J., Wells, J., Congdon, C., ... Hamby, K. (2023). Extended Sentinel Monitoring of Helicoverpa zea Resistance to Cry and Vip3Aa Toxins in Bt Sweet Corn: Assessing Changes in Phenotypic and Allele Frequencies of Resistance. Insects, 14(7), Article 577. https://doi.org/10.3390/insects14070577

Dively, GP, Kuhar, TP, Taylor, SV, Doughty, H, Holmstrom, K, Gilrein, DO, Nault, BA, Ingerson-Mahar, J, Huseth, A, Reisig, D, Fleischer, S, Owens, D, Tilmon, K, Reay-Jones, F, Porter, P, Smith, J, Saguez, J, Wells, J, Congdon, C, Byker, H, Jensen, B, DiFonzo, C, Hutchison, WD, Burkness, E, Wright, R, Crossley, M, Darby, H, Bilbo, T, Seiter, N, Krupke, C, Abel, C, Coates, BS, McManus, B, Fuller, B, Bradshaw, J, Peterson, JA, Buntin, D, Paula-Moraes, S, Kesheimer, K, Crow, W, Gore, J, Huang, F, Ludwick, DC, Raudenbush, A, Jimenez, S, Carrière, Y, Elkner, T & Hamby, K 2023, 'Extended Sentinel Monitoring of Helicoverpa zea Resistance to Cry and Vip3Aa Toxins in Bt Sweet Corn: Assessing Changes in Phenotypic and Allele Frequencies of Resistance', Insects, vol. 14, no. 7, 577. https://doi.org/10.3390/insects14070577

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title = "Extended Sentinel Monitoring of Helicoverpa zea Resistance to Cry and Vip3Aa Toxins in Bt Sweet Corn: Assessing Changes in Phenotypic and Allele Frequencies of Resistance",

abstract = "Transgenic corn and cotton that produce Cry and Vip3Aa toxins derived from Bacillus thuringiensis (Bt) are widely planted in the United States to control lepidopteran pests. The sustainability of these Bt crops is threatened because the corn earworm/bollworm, Helicoverpa zea (Boddie), is evolving a resistance to these toxins. Using Bt sweet corn as a sentinel plant to monitor the evolution of resistance, collaborators established 146 trials in twenty-five states and five Canadian provinces during 2020–2022. The study evaluated overall changes in the phenotypic frequency of resistance (the ratio of larval densities in Bt ears relative to densities in non-Bt ears) in H. zea populations and the range of resistance allele frequencies for Cry1Ab and Vip3Aa. The results revealed a widespread resistance to Cry1Ab, Cry2Ab2, and Cry1A.105 Cry toxins, with higher numbers of larvae surviving in Bt ears than in non-Bt ears at many trial locations. Depending on assumptions about the inheritance of resistance, allele frequencies for Cry1Ab ranged from 0.465 (dominant resistance) to 0.995 (recessive resistance). Although Vip3Aa provided high control efficacy against H. zea, the results show a notable increase in ear damage and a number of surviving older larvae, particularly at southern locations. Assuming recessive resistance, the estimated resistance allele frequencies for Vip3Aa ranged from 0.115 in the Gulf states to 0.032 at more northern locations. These findings indicate that better resistance management practices are urgently needed to sustain efficacy the of corn and cotton that produce Vip3Aa.",

keywords = "corn earworm, phenotypic and allele resistance frequency, Bacillus thuringiensis toxins, resistance monitoring, bollworm",

author = "Dively, \{Galen P.\} and Kuhar, \{Tom P.\} and Taylor, \{Sally V.\} and Helene Doughty and Kristian Holmstrom and Gilrein, \{Daniel O.\} and Nault, \{Brian A.\} and Joseph Ingerson-Mahar and Anders Huseth and Dominic Reisig and Shelby Fleischer and David Owens and Kelley Tilmon and Francis Reay-Jones and Pat Porter and Jocelyn Smith and Julien Saguez and Jason Wells and Caitlin Congdon and Holly Byker and Bryan Jensen and Chris DiFonzo and Hutchison, \{William D.\} and Eric Burkness and Robert Wright and Michael Crossley and Heather Darby and Tom Bilbo and Nicholas Seiter and Christian Krupke and Craig Abel and Coates, \{Brad S.\} and Bradley McManus and Billy Fuller and Jeffrey Bradshaw and Peterson, \{Julie A.\} and David Buntin and Silvana Paula-Moraes and Katelyn Kesheimer and Whitney Crow and Jeffrey Gore and Fangneng Huang and Ludwick, \{Dalton C.\} and Amy Raudenbush and Sebastian Jimenez and Yves Carri{\`e}re and Timothy Elkner and Kelly Hamby",

note = "Most authors volunteered their time without external funding; however, we specifically acknowledge partial funding from the following: Friends of Long Island Horticulture, the Hatch Multistate Research Fund (NC, no. 1006646; MD, no. 0095671), the National Institute of Food and Agriculture, the Crop Protection and Pest Management Program, the Extension Implementation Program (DE, no. 2017-70006-27286; MN, no. 2017-70006-27278), the Atlantic Grains Council, and the Canadian Agricultural Partnership Program. This research was supported (in part) by the U.S. Department of Agriculture, Agricultural Research Service. Any mention of trade names or commercial products in this publication is solely for the purpose of providing specific information and does not imply recommendation or endorsement by the U.S. Department of Agriculture. The USDA is an equal opportunity provider and employer.",

year = "2023",

month = jul,

doi = "10.3390/insects14070577",

language = "English (US)",

volume = "14",

journal = "Insects",

issn = "2075-4450",

publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",

number = "7",

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T1 - Extended Sentinel Monitoring of Helicoverpa zea Resistance to Cry and Vip3Aa Toxins in Bt Sweet Corn: Assessing Changes in Phenotypic and Allele Frequencies of Resistance

AU - Dively, Galen P.

AU - Kuhar, Tom P.

AU - Taylor, Sally V.

AU - Doughty, Helene

AU - Holmstrom, Kristian

AU - Gilrein, Daniel O.

AU - Nault, Brian A.

AU - Ingerson-Mahar, Joseph

AU - Huseth, Anders

AU - Reisig, Dominic

AU - Fleischer, Shelby

AU - Owens, David

AU - Tilmon, Kelley

AU - Reay-Jones, Francis

AU - Porter, Pat

AU - Smith, Jocelyn

AU - Saguez, Julien

AU - Wells, Jason

AU - Congdon, Caitlin

AU - Byker, Holly

AU - Jensen, Bryan

AU - DiFonzo, Chris

AU - Hutchison, William D.

AU - Burkness, Eric

AU - Wright, Robert

AU - Crossley, Michael

AU - Darby, Heather

AU - Bilbo, Tom

AU - Seiter, Nicholas

AU - Krupke, Christian

AU - Abel, Craig

AU - Coates, Brad S.

AU - McManus, Bradley

AU - Fuller, Billy

AU - Bradshaw, Jeffrey

AU - Peterson, Julie A.

AU - Buntin, David

AU - Paula-Moraes, Silvana

AU - Kesheimer, Katelyn

AU - Crow, Whitney

AU - Gore, Jeffrey

AU - Huang, Fangneng

AU - Ludwick, Dalton C.

AU - Raudenbush, Amy

AU - Jimenez, Sebastian

AU - Carrière, Yves

AU - Elkner, Timothy

AU - Hamby, Kelly

N1 - Most authors volunteered their time without external funding; however, we specifically acknowledge partial funding from the following: Friends of Long Island Horticulture, the Hatch Multistate Research Fund (NC, no. 1006646; MD, no. 0095671), the National Institute of Food and Agriculture, the Crop Protection and Pest Management Program, the Extension Implementation Program (DE, no. 2017-70006-27286; MN, no. 2017-70006-27278), the Atlantic Grains Council, and the Canadian Agricultural Partnership Program. This research was supported (in part) by the U.S. Department of Agriculture, Agricultural Research Service. Any mention of trade names or commercial products in this publication is solely for the purpose of providing specific information and does not imply recommendation or endorsement by the U.S. Department of Agriculture. The USDA is an equal opportunity provider and employer.

PY - 2023/7

Y1 - 2023/7

N2 - Transgenic corn and cotton that produce Cry and Vip3Aa toxins derived from Bacillus thuringiensis (Bt) are widely planted in the United States to control lepidopteran pests. The sustainability of these Bt crops is threatened because the corn earworm/bollworm, Helicoverpa zea (Boddie), is evolving a resistance to these toxins. Using Bt sweet corn as a sentinel plant to monitor the evolution of resistance, collaborators established 146 trials in twenty-five states and five Canadian provinces during 2020–2022. The study evaluated overall changes in the phenotypic frequency of resistance (the ratio of larval densities in Bt ears relative to densities in non-Bt ears) in H. zea populations and the range of resistance allele frequencies for Cry1Ab and Vip3Aa. The results revealed a widespread resistance to Cry1Ab, Cry2Ab2, and Cry1A.105 Cry toxins, with higher numbers of larvae surviving in Bt ears than in non-Bt ears at many trial locations. Depending on assumptions about the inheritance of resistance, allele frequencies for Cry1Ab ranged from 0.465 (dominant resistance) to 0.995 (recessive resistance). Although Vip3Aa provided high control efficacy against H. zea, the results show a notable increase in ear damage and a number of surviving older larvae, particularly at southern locations. Assuming recessive resistance, the estimated resistance allele frequencies for Vip3Aa ranged from 0.115 in the Gulf states to 0.032 at more northern locations. These findings indicate that better resistance management practices are urgently needed to sustain efficacy the of corn and cotton that produce Vip3Aa.

AB - Transgenic corn and cotton that produce Cry and Vip3Aa toxins derived from Bacillus thuringiensis (Bt) are widely planted in the United States to control lepidopteran pests. The sustainability of these Bt crops is threatened because the corn earworm/bollworm, Helicoverpa zea (Boddie), is evolving a resistance to these toxins. Using Bt sweet corn as a sentinel plant to monitor the evolution of resistance, collaborators established 146 trials in twenty-five states and five Canadian provinces during 2020–2022. The study evaluated overall changes in the phenotypic frequency of resistance (the ratio of larval densities in Bt ears relative to densities in non-Bt ears) in H. zea populations and the range of resistance allele frequencies for Cry1Ab and Vip3Aa. The results revealed a widespread resistance to Cry1Ab, Cry2Ab2, and Cry1A.105 Cry toxins, with higher numbers of larvae surviving in Bt ears than in non-Bt ears at many trial locations. Depending on assumptions about the inheritance of resistance, allele frequencies for Cry1Ab ranged from 0.465 (dominant resistance) to 0.995 (recessive resistance). Although Vip3Aa provided high control efficacy against H. zea, the results show a notable increase in ear damage and a number of surviving older larvae, particularly at southern locations. Assuming recessive resistance, the estimated resistance allele frequencies for Vip3Aa ranged from 0.115 in the Gulf states to 0.032 at more northern locations. These findings indicate that better resistance management practices are urgently needed to sustain efficacy the of corn and cotton that produce Vip3Aa.

KW - corn earworm

KW - phenotypic and allele resistance frequency

KW - Bacillus thuringiensis toxins

KW - resistance monitoring

KW - bollworm

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Extended Sentinel Monitoring of Helicoverpa zea Resistance to Cry and Vip3Aa Toxins in Bt Sweet Corn: Assessing Changes in Phenotypic and Allele Frequencies of Resistance

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