Title: | Heliothis virescens and Bt cotton in the United States |
Address: | "Animal and Plant Health Inspection Service, Biotechnology Regulatory Services, United States Department of Agriculture (USDA), Riverdale, MD, USA. carlos.a.blanco@aphis.usda.gov" |
ISSN/ISBN: | 2164-5701 (Electronic) 2164-5698 (Linking) |
Abstract: | "The tobacco budworm (TBW), Heliothis virescens (F.), has been responsible for substantial economic losses, environmental pollution and a great challenge to the United States' economy, environment, researchers and cotton and tobacco producers during most of the past two hundred years. If a historical description of this pest problem should be written, it would necessarily be divided into two main events; the pre- and post-Bacillus thuringiensis-expressing (Bt)-cotton era. Before the advent of Bt-cotton, TBW had evolved resistance to most commercial insecticides, making cotton cultivation unfeasible at some point. Subsequently, a variety of clever control measures were developed in an effort to develop more sustainable integrated pest management programs. Without a doubt, Bt-cotton, transformed to produce insecticidal proteins from the soil borne bacterium, B. thuringiensis, is now one of the most important elements of TBW management in US cotton. This discussion could be quite short stating that Bt-cotton has produced an unprecedented level of control for TBW, but beyond this, it is important to note the additional impacts around the argument that Bt-cotton has likely reduced TBW populations over large areas-due to its high efficacy-to the low densities observed today. Cotton area suitable for TBW development has been reduced to ~40% of its pre Bt-cotton years and certainly may be another primary force behind this decline. However, the way we have detected this decline relies mostly on observations made in cotton fields, as well as males trapped in pheromone traps near cotton; these monitoring tools may not fully reflect TBW population levels at the landscape level. My argument supports what has been postulated before that TBW may be in the process of differentiating into 'host races' and the cotton host race, once the most abundant in the environment, may be the one greatly affected by this habitat modification now dominated by Bt-cotton, while the other host races maintain their pre Bt-cotton densities. A revision of the physiological, reproductive and genetic mechanisms behind this host race speciation, as well as revisiting the role of its current host plants may offer an explanation of the puzzling phenomenon of the abatement of this pest's population in the southern United States. The challenge for the future involves the preservation of all those measures that have maintained the susceptibility of TBW to Bt-cotton" |
Keywords: | "Animals Bacillus thuringiensis/*genetics Bacterial Proteins/genetics Bacterial Toxins/genetics Crops, Agricultural Gossypium/*genetics/parasitology *Insecticide Resistance Insecticides Moths/*physiology *Pest Control, Biological *Plants, Genetically Modif;" |
Notes: | "MedlineBlanco, Carlos A eng Review 2012/08/16 GM Crops Food. 2012 Jul-Sep; 3(3):201-12. doi: 10.4161/gmcr.21439. Epub 2012 Jul 1" |