Journal or Publishing Institution: American Journal of Botany
Date of Publication: 09/01/1996
Study: http://www.jstor.org/discover/10.2307/2446198?uid=3739256&uid=2&uid=4&sid=21102938302543
Author(s): Arriola, P.E. and Ellstrand, N.C.
Article Type: Peer Reviewed Study
Abstract:
The role of crop‐to‐weed gene flow is often controversial and overlooked. As a consequence, the likelihood of spontaneous crop‐to‐weed hybridization in most crop/weed systems is generally unknown. The lack of data relating to the formation of crop/weed hybrids has particular contemporary significance when considering the wide scale commercial release of transgenic crop plants and the potential for escape of engineered genes via crop‐to‐weed hybridization. We created an experimental system whereby we could examine the incidence and rate of spontaneous crop‐to‐weed hybridization between Sorghum bicolor and S. halepense, johnsongrass. An isozyme marker was used to identify hybrid plants through progeny testing. Incidence and rate of hybridization were highly variable with respect to weed distance from the crop, location of the study site, and year the study was performed. Crop/weed hybrids were detected at distances of 0.5–100 m from the crop. Interspecific hybridization can and does occur in this system at a substantial and measurable rate. Transgenes introduced into crop sorghum can be expected to have the opportunity to escape cultivation through interspecific hybridization with johnsongrass. Traits that prove to be beneficial to weeds possessing them can be expected to persist and spread. This is an issue that needs to be addressed when developing biosafety guidelines for the commercial release of transgenic sorghums.
Keywords: escape, transgene persistence, gene flow, gene transfer, interspecific hybridization, johnsongrass, sorghum bicolor, fitness, transgenic plants
Citation:
Arriola, P.E. and Ellstrand, N.C., 1996. Crop‐to‐weed gene flow in the genus Sorghum (Poaceae): spontaneous interspecific hybridization between johnsongrass, Sorghum halepense, and crop sorghum, S. bicolor. American Journal of Botany, 83(9), pp.1153-1159.
Category:
- Environmental effects
Record ID: 82