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Glyphosate drift promotes changes in fitness and transgene gene flow in canola (Brassica napus) and hybrids
Jason P. Londo, Nonnatus S. Bautista, Cynthia L. Sagers, E. Henry Lee and Lidia S. Watrud
Annals of Botany
Vol. 106, No. 6 (December 2010), pp. 957-965
Published by: Oxford University Press
Stable URL: http://www.jstor.org/stable/43578115
Page Count: 9
You can always find the topics here!Topics: Plants, Hybridity, Genotypes, Transgenic plants, Transgenes, Brasses, Gene flow, Crops, Herbicides, Pollen
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• Background and Aims With the advent of transgenic crops, genetically modified, herbicide-resistant Brassica napus has become a model system for examining the risks and potential ecological consequences of escape of transgenes from cultivation into wild compatible species. Escaped transgenic feral B. napus and hybrids with compatible weedy species have been identified outside of agriculture and without the apparent selection for herbicide resistance. However, herbicide (glyphosate) exposure can extend beyond crop field boundaries, and a driftlevel of herbicide could function as a selective agent contributing to increased persistence of transgenes in the environment. • Methods The effects of a drift level (0·1 × the field application rate) of glyphosate herbicide and varied levels of plant competition were examined on plant fitness-associated traits and gene flow in a simulated field plot, common garden experiment. Plants included transgenic, glyphosate-resistant B. napus, its weedy ancestor B. rapa, and hybrid and advanced generations derived from them. • Key Results The results of this experiment demonstrate reductions in reproductive fitness for non-transgenic genotypes and a contrasting increase in plant fitness for transgenic genotypes as a result of glyphosate-drift treatments. Results also suggest that a drift level of glyphosate spray may influence the movement of transgenes among transgenic crops and weeds and alter the processes of hybridization and introgression in non-agronomic habitats by impacting flowering phenology and pollen availability within the community. • Conclusions The results of this study demonstrate the potential for persistence of glyphosate resistance transgenes in weedy plant communities due to the effect of glyphosate spray drift on plant fitness. Additionally, glyphosate drift has the potential to change the gene-flow dynamics between compatible transgenic crops and weeds, simultaneously reducing direct introgression into weedy species while contributing to an increase in the transgenic seed bank.
Annals of Botany © 2010 Oxford University Press