By Nina Shen Rastogi
Special to The Washington Post
Tuesday, May 18, 2010; HE03
Green Lantern, what's your take on genetically modified crops? Should environmentalists be up in arms about them or not?
As one representative from the organic sector put it, agricultural biotechnology is kind of like the Force: It's not inherently good or bad -- what matters is how you use it. Still, green-minded consumers have found plenty of reasons to worry that genetically modified crops will lead us to the dark side. As global G.M. acreage continues to grow, those are well worth considering.
Plenty of folks can't get past the fact that genetic engineering sounds creepy on its face. But every kind of crop breeding involves the manipulation of a plant's genetic material. We can adjust a plant's DNA by selecting parents with desirable traits or by cross-pollinating related organisms. But conventional (i.e., non-G.M.) practice also includes some pretty unnatural-sounding methods, such as bombarding seeds with radiation or chemicals so they mutate faster than normal, or using petri dishes to help create hybrids.
Are these tricks more "natural" than genetic engineering, in which scientists selectively isolate genes from one organism and insert them into another? It's an interesting debate, but one that seems moot to the Lantern: After all, "natural" isn't always synonymous with "good" or even "good for the planet."
The Lantern is more swayed by the socioeconomic argument against genetically modified crops. For example, many people are deeply uncomfortable that a handful of massive corporations, such as Monsanto, control a wide swath of the market and impose strict intellectual-property regulations. Others worry that undue focus on genetic engineering takes time, energy and funding away from other research areas, such as organic farming. These concerns belong in any well-rounded discussion of the perils and promises of genetic engineering, but the fact that G.M. crops have been implemented in some troubling ways isn't a good reason to reject them altogether.
What about environmental problems? Some worry that pollen from genetically engineered crops will float off the farm and mingle with other plants to create new hybrids, a phenomenon known as gene flow. Gene flow can occur with any kind of plant, bred in any manner, and it's not always a bad thing. But some G.M. crops on the market conjure up troubling ecological scenarios. To date, the vast majority are engineered to tolerate weed-killing chemicals or produce their own pesticides. Plants that gain the former ability through gene flow could become "superweeds." Meanwhile, wild plants that become able to produce their own pesticides might alter their local ecosystem by damaging insect populations.
According to a recent report from the National Research Council, gene flow hasn't been a major problem in the United States because the crops that make up the lion's share of our G.M. acreage either don't have compatible wild or weedy relatives on U.S. soil (corn, soybeans) or else their relatives are highly localized and therefore easy to avoid (cotton). However, that doesn't mean that future G.M. crops won't need to be strictly contained or that those three cash crops won't cause problems in other countries.
The NRC report actually suggests that environmentalists should be feeling pretty rosy about G.M. crops. It concludes that they're providing American farmers with substantial net environmental and economic benefits over conventional crops, including lower production costs, fewer pest problems, reduced use of pesticides and better yields. But the report noted that these benefits aren't universal and may decline over time, and that both benefits and risks may increase as more farms adopt the technology.
The report did flag one issue that's been a major concern to environmentalists: The likelihood that herbicide-tolerant crops will lead to herbicide-resistant weeds. But again, it's important to note that the problem of herbicide-tolerant weeds isn't unique to G.M. crops: It's a risk farmers run any time they rely too heavily on one form of weed management, whether the seeds are genetically engineered or conventionally bred.
What about health risks posed by eating G.M. crops? Once more, blanket statements are hard to make. According to a 2004 report from the National Academy of Sciences, genetic engineering isn't an inherently risky process, nor does it pose any unique health issues for consumers. Any method used to create a novel food crop can cause unexpected changes in the final plant, which may in turn give rise to new allergens or toxins.
The report did conclude that genetic engineering is more likely to cause unexpected changes than most types of conventional breeding. At the same time, scientists' ability to determine whether changes in a plant's composition will lead to adverse health impacts remains limited. So far, there have been no confirmed health problems from the G.M. crops currently on the market, though critics also note that we don't have good, long-term epidemiological studies of subtle, chronic effects. Of course, that's true for all kinds of food products.
What should we make of all this? When it comes to genetically modified crops, each one should be considered on its own terms. For her part, the Lantern is intrigued by the many promising applications of genetic engineering. At the same time, she doesn't believe that it's some kind of magic bullet that will solve all of the world's agricultural problems or food security issues. It may be that G.M. seeds play only a small role in rethinking our food systems. But so far, she doesn't see any reason to take them off the table entirely.
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