Agriculture Committee on Dec. 16th, 2010

Sorry, Mr. Chair.

You're going to hear more about bioinformatics, molecular markers, gene stacking, tilling, targeted mutagenesis, genomics, metabolomics, proteomics, epigenomics, all of those things. That's the new world out there.

My recommendation to the committee in that regard is that if that's what's coming at us in this new world, you need to stand back and look at that. I think that's what you're going to see when you go to these labs.

Thank you.

I just want to pick up on the health, safety, and environmental observation in reference to some earlier discussion—I think maybe Mr. Valeriote raised it—about where there's common ground. We have some opposing views, but I think there's a lot of common ground around here and around your table.

First and foremost, we all want to make sure that technologies, whether they're pharmaceutical drugs or GMO crops, are used properly, responsibly, and they do not put at risk the health of the public or the environment. I think there's a pile of common ground there.

I think additionally there's a pile of common ground that if this stuff is going to be sold to farmers that it needs to work, that it's efficacious, and it's not some kind of snake oil, if you like. It has to work.

With the corn, the soybeans, the canola, the uptake by farmers has been phenomenal. It was probably considered revolutionary technology in the late twenties, when corn hybrid technology came to the marketplace. It had a huge adoption rate, and this has probably even exceeded that.

And there are some new traits we talked about that are coming in those sectors. I mean, I'm from western Canada and I still farm out there. Notwithstanding that we had a huge flood out there this year that wiped out ten million acres, I farm in the bottom of the middle of the Palliser Triangle. Most years, I'll tell you, I would love to have drought-tolerant crops; we're usually so dry the trees are chasing the dogs. Drought is usually our problem there, so that technology in Canada and elsewhere in the world can bring a huge benefit.

When you talk about common ground, once again, if climate change is coming at us—and farmers deal with climate every day, it's called weather—then to some degree, not totally, this technology is very much part of the answer for how we're going to deal with climate change on a go-forward basis.

For those of you who were at our conference a couple of weeks ago, you would have heard Dr. Skole, from the University of Michigan. He said our understanding of climate change is that if you're a wheat farmer in western Canada there are two tools you're going to need: farm practices and genomics. Those were the two tools that he pointed out are pivotal.

One final comment in terms of the common ground and safety and the environment and the rest of it. Lucy referenced the work she had done at CBAC, through one of the member organizations there. They spent two years studying biotech food. This is one of the conclusions of that CBAC committee report:

We conclude that no scientific evidence exists to suggest that GM plants and foods currently in the market pose any greater health or environmental risk than other foods.

In fact, they went on to say that arguably they “have undergone greater regulatory scrutiny than their conventional counterparts”.

I just wanted to pick up that point.

In terms of other products, Janice, did you want to...?

I just want to mention that I was at an event that was celebrating a researcher at the University of Saskatchewan who was retiring. He made a comment that when he first came to Saskatchewan, when he drove across the fields, as he drove in he saw black, black, black—summer or fall. He said that was just ten years ago. We've now come to where you drive across Saskatchewan and you don't see that because we've been able to go to minimum and zero till. And a good part of that is due to some of the technologies we've brought forward in biotech.

I was just pointing out that zero tolerance comes from this issue that some countries, say Canada even.... If we have not approved a GM crop for safety, then that's why zero tolerance exists, or any tolerance level. It relates to the regulatory decision. It actually has some grounds—

I would think it's up to countries to decide what they think is a tolerance level they can allow, either scientifically or politically. That would be based on what their population is willing to accept from contamination from a non-approved GM event, which is what we're talking about.

It comes back to what I mentioned, which is that we really don't think that the segregation systems were given enough thought or really were invested in before the technology was allowed onto the market. There was some very necessary infrastructure. There were assumptions made that the EU opposition to genetic engineering, as it was seen, would collapse, that consumers would accept genetically engineered food, and that the controversy was going to go away. It's been a very complex controversy that continues.

If I may also respond to your question about this issue of safety, by bringing forward a critique or recommendations for improving the system for evaluating safety, we're not necessarily saying that the crops on the shelves now are not safe. That hasn't been said. New studies arising that point to potential problems are just valid scientific inquiry that needs to be pursued. There's such little publicly funded or independent science that studies warranting review are emerging just here and there. When we look at the science or this idea that Health Canada is reviewing any new science coming up, that's an assumption on our part, because that's not public information. This is one of the ongoing problems.

The fact that we're now looking at very complex genetically engineered organisms, like pigs.... And Health Canada, in 2005, abandoned the idea of developing new regulations specifically for GM animals. They say they're still developing them, yet there has been already, for a year and a half, an application in Health Canada for approval of a GM pig, for GM animals for human consumption. It's in this area that I think it's responsible to take a look at the evolving scientific knowledge and the evolving complexity of the GE organisms.

I'm going to ask my colleague to pick up on some of the international protocols, etc. I just want to reiterate one of the points I made in the presentation relative to the role we think Canada could play in this regard. And that is for Canada to establish a low-level presence policy and then advocate that policy to the rest of the world, because we desperately need that. If half the traits in the future are going to be coming from other countries, not even relative to our member companies globally, the potential for trade disruption's going to be huge. If there was one single message--and I think the committee heard that time and time again from virtually everybody who was here--it was that we need a low-level presence policy in Canada and globally.

My colleague has worked on some of the other stuff. I'd like her to have a comment.

A lot of international bodies are working on this. For example, under Codex Alimentarius there's the agricultural biotechnology committee. They've developed a set of guidelines and standards on how to evaluate biotechnology products. They've also developed a low-level presence annex, and this defines some of the information that needs to be developed and looked at to come up with an approval on low-level presence. These are countries from around the world.

With the Convention on Biological Diversity, the interesting thing I heard from my colleagues who were just at the meeting in Nagoya, Japan, was they talked about this year being a game-changer. This year countries around the world discussed how to make it work. It was no longer that this is not a product we don't want to bring forward; it's that biotechnology can bring solutions. So how are we going to make it work?

Another thing I want to bring up is the transboundary movement on living modified organisms, or LMOs. The industry brought together something they're calling the compact. They believe the science behind the products they've brought forward is safe, the products are safe, and they're willing to stand behind that. The development of the compact is a very clearly defined and efficient process whereby countries can bring forward claims of damage to biological diversity.

You raised a couple of good points.

First, on the 25 countries, had we been coming before you three, four, or five years ago it was even fewer, and the number of acres it represented and the number of farmers in the developing part of the world was substantively less. I raise that in the context of that curve steadily rising, 6% or 7% on a compound annual basis, something in that order.

One of the issues I also raise that we didn't have a chance to get into in any detail is that other countries might be having traits developed in seeds that we don't grow here, like eggplant or cotton or some of those kinds of things, but they could impact us because we're importers. Then this gets into low-level presence issues and synchronous approvals, all those kinds of issues.

Your point about segregation and identity preservation is a really good one, because, as I recall, when canola was first commercialized, that's how they did it. They wanted to be really careful, so it was under contract growing and identity preservation and more sophistication in the marketplace—we won't ship until other major exporters have approved, etc.

So contracts and segregation have served us well in the past and continue to serve in some of these other markets very well as well.

If I may say, just very quickly, segregation did not work in canola. GE canola contaminated so widely that even pedigreed and certified seed stocks could not be certified as GM-free. That's the reason why over 90% of canola is GM and you can only grow organic canola or non-GE canola in geographically isolated areas like Prince Edward Island.