http://gefoodalert.com/News/news.cfm?News_ID=3255
Gene Flow a Canola Headache
(Posted: 22-Mar-02)
Weekly Times (Nationwide News Pty Ltd). | By Kim Woods | March 20,
2002
Canola growers may be in for some genetically modified headaches
over outcrossing, or gene flow between plants.
A study into the gene transfer between herbicide tolerant and
susceptible canola crops by Co-operative Research Centre for
Australian Weed Management has revealed canola will outcross,
meaning genes will move from crop to crop.
An Adelaide University senior lecturer in weed management, Dr
Chris Preston, said the likelihood of gene flow was low and was a
management issue for canola growers. "But it is going to happen,
and we've got to expect it to happen," Dr Preston said.
"Gene contamination can come from many sources -- seed
contamination, animals or wind can blow canola across (paddocks)."
CRC researchers evaluated the implications of a 1 per cent gene
flow between canola crops.
Material was used from herbicide-resistant canola crops grown in
the Wimmera, Mallee and Riverina regions.
A total of 48 million seedlings were screened for gene transfer
frequency under the project.
"One collection had frequencies of 0.05 per cent to 0.07 per cent.
The bottom line in a field situation is that's pretty low," Dr Preston
said.
"If we are looking at a 1 per cent cut-off level, it means a
farmer can grow a genetically engineered crop next door to another
farmer growing a non-GE crop, and it won't affect the ability to
market that crop."
At the Victorian sites, outcrossing of resistant genes occurred up
to 2km from the source.
Dr Preston said no resistant genes were detected greater than 3km.
"There were low levels of gene flow detected -- we've got to
expect that to happen," he said.
"There is not a simple decline with distance, it is influenced by
a whole range of other things."
Although no clear patterns were established between bee activity
and gene transfer, researchers believe bees play a major role.
"We believe most of the gene movement is bee-mediated because even
if the crops were grown right together, they showed little or no gene
flow," Dr Preston said.
"If it was wind, we would expect to see quite a significant level of
gene flow.
"Our work says you need a buffer of more than 3km but there can be
zero (gene flow) for crops right next door."
Dr Preston said the control of crop volunteers was important in
managing herbicide tolerant crops.
"Contamination of current crops with volunteers from a previous
canola crop may become a major management headache," he said.
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