Journal or Publishing Institution: Environmental Science and Pollution Research
Study: http://link.springer.com/article/10.1007%2Fs11356-010-0376-1
Author(s): Squire, G.R., Breckling, B., Pfeilstetter, A.D., Jorgensen, R.B., Lecomte, J., Pivard, S., Reuter, H. and Young, M.W.
Article Type: Peer Reviewed Study
Record ID: 2199
Abstract:
Purpose
Feral oilseed rape has become widespread in Europe on waysides and waste ground. Its potential as a source of GM impurity in oilseed rape harvests is quantified, for the first time, by a consistent analysis applied over a wide range of study areas in Europe.
Methods
The maximum contribution of feral oilseed rape to impurities in harvested crops was estimated by combining data on feral abundance and crop yield from five established, demographic studies in agricultural habitats in Denmark, Germany (2), France and the UK, constituting over 1,500 ha of land and 16 site-years of observations. Persistence of feral populations over time was compared by visual and molecular methods.
Results
Ferals had become established in all regions, forming populations 0.2 to 15 km−2. The seed they produced was always <0.0001% of the seed on crops of oilseed rape in each region. The contribution of ferals to impurity in crops through accidental harvest of seed and through cross-pollination would be an even smaller percentage. Feral oilseed rape nevertheless showed a widespread capacity to persist in all regions and retain traits from varieties no longer grown.
Conclusions
Feral oilseed rape is not a relevant source of macroscopic impurity at its present density in the landscape but provides opportunity for genetic recombination, stacking of transgenes and the evolution of genotypes that under strong selection pressure could increase and re-occupy fields to constitute an economic weed burden and impurity in future crops.
Keywords: Feral, Genetically Modified, GM Coexistence, Transgene Persistence, Cross Pollination, Brassica napus var. oleifera, Brassicales, plants, evolution, feral animals, genes, genotypes, persistence, rape, recombination, seeds, selection pressure, swede rape, weeds, Britain, canola, Capparales, genetic recombination, oilseed rape, United Kingdom, Denmark, France, Germany, Nordic Countries, UK, Brassica napus var. napus, crop yield, crops, genotype, habitats, landscapes, oilseed crops, transgenes, Brassica napus, Environmental Monitoring, Europe, Genetically Modified Plants, Pollination, Population Density, Population Dynamics, Genetics, Physiology
Citation: Squire, G.R., Breckling, B., Pfeilstetter, A.D., Jorgensen, R.B., Lecomte, J., Pivard, S., Reuter, H. and Young, M.W., 2011. Status of feral oilseed rape in Europe: its minor role as a GM impurity and its potential as a reservoir of transgene persistence. Environmental Science and Pollution Research, 18(1), pp.111-115.