Is there a risk
of a "GMO" gene moving to weeds?
Chris
Boerboom
The answer is yes and no,
depending on the crop. The risk depends if the crop can make
fertile crosses with weedy relatives. Some crops like corn and
soybean do not have any weedy relatives in the U.S., so the risk
is zero. Several other crops have weedy relatives where
crop-weed hybrids are known to occur, so there is a risk (Table
1). For 60 crops grown in the U.S., crop-weed hybrids occur for
15 crops and 34 crops have weedy relatives, although it is not
well known if they can form hybrids. The remaining 26 crops
either do not have any weedy relatives in the world (eg. cotton
and corn 1
) or there are no weedy relatives in the U.S. (eg. soybean). For
crops that can cross with weeds, the scientific probability that
a GMO gene will escape to a weed is 100%. It’s just a question
of time. The rate that the gene might move to a weed depends
primarily on the type of pollination. Gene movement is low for
self-pollinating plants and much higher for out-crossing plants
(Table 2). Other factors also need to be considered like how
long the pollen survives, the time of flowering of the crop and
weed, how close together the crop and weed are growing. It has
also been questioned if GMO gene movement to weeds is even a
problem. Obviously, if the gene is for herbicide resistance, the
weed would become resistant, a definite problem. The
consequences of having other genes moved to weeds are less
clear. For example, a gene for a nutritional quality trait
likely will not affect a weed’s growth or survival. The
potential and consequences of GMO gene movement from crops to
weeds needs to be carefully considered as these crops are
developed. |
| Table 1.
Examples of crops and weeds that cross. |
 |
| Crop |
Weedy relative |
|
| oat (Avena sativa) |
wild oat (Avena fatua) |
| canola (Brassica
napus) |
birdsrape
mustard (Brassica rapa) |
| sunflower (Helianthus
annus) |
common sunflower (Helianthus
annus) |
| rice (Oryza
sativa) |
red rice
(Oryza sativa) |
| sorghum (Sorghum
bicolor) |
johnsongrass (Sorghum
halepense)
and shattercane (Sorghum bicolor) |
| wheat
(Triticum aestivum) |
jointed
goatgrass (Aegilops cylindrica)
(wheat-goatgrass hybrids are mostly sterile) |
|
|
|
| Table 2. Types
of pollination for common crops. |
|
| Wind
pollinated, outcrossing |
Normally
self pollinating |
Animal
pollinated, outcrossing |
|
| beet |
oat,
barley, wheat |
alfalfa |
| corn |
soybean |
canola |
| rye |
cotton |
sunflower |
| - |
sorghum |
- |
| - |
snap
bean |
- |
| - |
pea |
- |
| - |
rice |
- |
| - |
potato |
- |
|
|
|
Source:
Keeler, K.H., C.E. Turner,
and M.R. Bolick. 1996. Movement of crop transgenes into wild
plants. P. 303-330. In: S.O. Duke (ed.), Herbicide
resistant crops: Agricultural, environmental, economic,
regulatory, and technical aspects. CRC Press.
|
|
