CONCERNS about genetically engineered crop plants centre on three conjectural risks: that transgenic crop plants will become weeds of agriculture or invasive of natural habitats; that their engineered genes will be transferred by pollen to wild relatives whose hybrid offspring will then become more weedy or more invasive; or that the engineered plants will be a direct hazard to humans, domestic animals or beneficial wild organisms (toxic or allergenic, for example). Here we describe an experimental protocol for assessing the invasiveness of plants. The object is to determine whether genetic engineering for herbicide tolerance affects the likelihood of oilseed rape becoming invasive of natural habitats. By estimating the demographic parameters of transgenic and conventional oilseed rape growing in a variety of habitats and under a range of climatic conditions, we obtain a direct comparison of the ecological performance of three different genetic lines (control, kanamycin-tolerant transgenics and herbicide-tolerant transgenic lines). Despite substantial variation in seed survival, plant growth and seed production between sites and across experimental treatments, there was no indication that genetic engineering for kanamycin tolerance or herbicide tolerance increased the invasive potential of oilseed rape. In those cases in which there were significant differences (such as seed survival on burial), transgenic lines were less invasive and less persistent than their conventional counterparts.
[1]
M. Rees,et al.
Germination Biology and the Ecology of Annual Plants
,
1992,
The American Naturalist.
[2]
J. Sambrook,et al.
Molecular Cloning: A Laboratory Manual
,
2001
.
[3]
M. Rees,et al.
The Analysis and Interpretation of Seedling Recruitment Curves
,
1993,
The American Naturalist.
[4]
C. Thompson,et al.
Characterization of the herbicide‐resistance gene bar from Streptomyces hygroscopicus
,
1987,
The EMBO journal.
[5]
M. Crawley.
The population biology of invaders
,
1986
.