Transgenic weed beets: possible, probable, avoidable?
Article first published online: 5 AUG 2002
Journal of Applied Ecology
Volume 39, Issue 4, pages 561–571, August 2002
How to Cite
Desplanque, B., Hautekèete, N. and Van Dijk, H. (2002), Transgenic weed beets: possible, probable, avoidable?. Journal of Applied Ecology, 39: 561–571. doi: 10.1046/j.1365-2664.2002.00736.x
- Issue published online: 5 AUG 2002
- Article first published online: 5 AUG 2002
- Received 19 September 2001; final copy received 11 March 2002
- Beta vulgaris;
- gene flow;
- genetically modified organisms;
- population dynamics;
- seed bank
- 1Weed beets pose a serious problem for sugar beet Beta vulgaris crops. Traditionally, the only efficient method of weed control has been manual removal, but the introduction of transgenic herbicide-tolerant sugar beets may provide an alternative solution because non-tolerant weed beets can be destroyed by herbicide. We evaluated the possibility that new, transgenic, weed beets may arise by gene flow between wild and crop plants.
- 2In a study area in northern France, weed beets were present in variable densities in sugar beet fields of up to 80 weed beet plants m−2. Weed beets arise from a long-lived seed bank, with seeds germinating from depths of 5 cm or less. In addition, diploid F1 crop–wild hybrids and triploid variety bolters (individuals with a low vernalization requirement) were present in low densities in virtually all sugar beet fields. We found gene flow to be possible between all forms, illustrated by both overlapping flowering periods in the field and successful controlled cross-pollinations.
- 3The F1 crop–wild hybrids result from pollination in the seed-production region by wild plants possessing the dominant bolting allele B for flowering without experiencing a period of cold. In the case of a transgene for herbicide tolerance incorporated into male-sterile seed-bearer plants, such hybrids will contain both the herbicide-tolerance and the bolting allele. Contamination of the fields by transgenic weed beets will be the result unless bolters are removed manually. The same will apply in the case of a cytoplasmically inherited transgene.
- 4Incorporation of the transgene into the pollinator plants will prevent the immediate formation of transgenic weed beets. However, in sugar beet fields, variety bolters may successfully cross-pollinate with weed beets in neighbouring fields. The use of diploid pollinator plants instead of tetraploids will considerably enhance gene flow towards wild beets, and is not, therefore, an attractive option.
- 5In conclusion, the appearance of transgenic weed beets is possible but can best be retarded if the transgene for herbicide tolerance is incorporated into the tetraploid pollinator breeding line.