Susceptibility of Field Populations of the Fall Armyworm (Lepidoptera: Noctuidae) from Florida and Puerto Rico to Purified Cry1f Protein and Corn Leaf Tissue Containing Single and Pyramided Bt Genes

Larval survival of Cry1F-susceptible (FL), -resistant (PR and Cry1F-RR), and -heterozygous (FL x PR and Cry1F-RS) populations of the fall armyworm, Spodoptera frugiperda (J. E. Smith) to purified Cry1F protein and corn leaf tissue of 7 Bacillus thuringiensis (Bt) corn hybrids and 5 non-Bt corn hybri...

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Bibliographic Details
Published in:The Florida entomologist 2013-09, Vol.96 (3), p.701-713
Main Authors: Niu, Ying, Meagher, Robert L, Yang, Fei, Huang, Fangneng
Format: Article
Language:English
Subjects:
Army-worms
Armyworms
Bacillus thuringiensis
Bioassay
bioassays
Bt susceptibility
Corn
corn protein
Cross resistance
Cry1F
Diet
Diseases and pests
Distribution
Environmental aspects
essential genes
Fall Armyworm Symposium Papers
genes
genes múltiples
Health aspects
Hybridity
hybrids
Insect larvae
Insect-plant relationships
larvae
leaves
Lepidoptera
lethal concentration 50
manejo de resistencia
maíz Bt
Mortality
multiple genes
Noctuidae
population
Population distributions
proteins
resistance management
resistance management
Bt corn
Spodoptera frugiperda
susceptibilidad Bt
transgenic plants
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Summary:Larval survival of Cry1F-susceptible (FL), -resistant (PR and Cry1F-RR), and -heterozygous (FL x PR and Cry1F-RS) populations of the fall armyworm, Spodoptera frugiperda (J. E. Smith) to purified Cry1F protein and corn leaf tissue of 7 Bacillus thuringiensis (Bt) corn hybrids and 5 non-Bt corn hybrids was evaluated in the laboratory. The 7 Bt corn hybrids represent 5 Bt corn traits: Herculex®I, which expresses a single Bt protein (Cry1F), and Genuity® VT Double Pro™, VT Triple Pro™, SmartStax™, and Agrisure® Viptera® 3111, which contain ≥ 2 pyramided Bt genes. The original FL and PR populations were collected from corn fields in 2011 in Florida and Puerto Rico, respectively. Diet-incorporation bioassays showed that FL was susceptible to Cry1F protein with a LC50 value of 0.13–0.23 µg/g, while PR was highly resistant to Cry1F protein (> 137-fold). FL was also susceptible to all 7 Bt corn hybrids with a 7-day mortality of > 95%, while PR and a backcrossed and reselected population, Cry1F-RR, were highly resistant to Cry1F corn leaf tissue. The resistance was recessive or incompletely recessive. None of the 5 populations of S. frugiperda could survive on Viptera™ 3111, suggesting this Bt corn trait can completely overcome the resistance and thus should provide a means of managing Cry1F resistance in S. frugiperda. However, Cry1F-RR exhibited a significant cross-resistance to the leaf tissue of the other 3 pyramided Bt corn traits. The possible cross-resistance between single-gene and pyramided Bt corn products suggest that careful selection of Bt genes is essential in use of gene pyramiding strategy for resistance management.
ISSN:0015-4040
1938-5102
DOI:10.1653/024.096.0302