@農자료창고

일각에서는 빈곤층의 아이들이 영양부족에 시달리는 것을 막아야 한다는 뜻으로 골든라이스라는 유전자변형 벼를 홍보하는 사람들이 있다.

식량안보 문제로 유전자변형 작물의 개발에 열을 올리고 있는 중국 정부.

현재까지는 세계적으로 유전자변형 작물의 위해성에 대한 우려 때문에 인간이 먹기보다는 가축의 사료용으로 쓰는 국가가 대부분이다. 그런데 요즘은 골든라이스를 위시하여 인간이 주식으로 이용하는 작물까지 유전자변형을 통해 신품종을 개발하여 보급하고 있는 추세이다.

중국에서는 자신들의 주식인 유전자변형 벼를 개발하여 열심히 실험 중이라 알고 있는데, 중국발 한 뉴스에서 그시식회가 열렸다는 이야기가 들렸다. 

뭐 그럴 수도 있겠다만 사람들이 어떤 반응을 보일지 궁금하다.

과연 중국 13억 인구의 선택은 어떠할지, 또 쌀 시장을 개방한 한국에 중국의 유전자변형 쌀은 장기적으로 어떠한 영향을 미칠지 주목하지 않을 수 없다.

Golden Rice is rice that’s been genetically engineered to deliver enough beta carotene to improve the health of the malnourished poor who might eat it. (Deficiencies blind over 250,000 children a year.) It’s a humanitarian project — funded by the Rockefeller and Gates foundations, among others — that has been in development since the 1990s. Some people object to it; they see it as a Trojan Horse that the biotech industry is using to enter countries that might otherwise reject their technology.

Recently, a group of protesters destroyed a test plot of the rice, turning up the heat on the debate over the crop that’s simmered for years. Amy Harmon wrote this reaction. Mark Lynas went to see the trampled rice for himself and has filed this angry but essential reportfrom the scene. And Michael Pollan weighed in on Andrew Revkin’sDot Earth blog, saying “I certainly think that the research should go forward.”

Pollan had some caveats, writing, “I am willing to get behind a GM product that offers the world something great, but I’m not at all sure this is the killer app everyone thinks it is. It seems to me the focus should be on alleviating poverty and improving diet.”

Later, Alexander J. Stein, an agricultural economist at the International Food Policy Research Institute, added some truly useful detail, pointing out that there was now research to address some of the issues Pollan raised.

Here’s the 30,000 foot perspective on the history of Golden Rice: A couple of scientists started working on it, and after many frustrating years, realized how difficult the project was. They asked for industry help and Syngenta lent its aid and expertise. The Syngenta scientists had the practical know-how to get over the stumbling blocks, but in that period the industry also used Golden Rice as a PR tool to make the argument for biotech. The argument was a bit strained, because at that point the rice wasn’t actually working, as Pollan wrote in 2001:

Its real achievement may be to win an argument rather than solve a public-health problem. Which means we may be witnessing the advent of the world’s first purely rhetorical technology.

At the time, even former Rockefeller Foundation President Gordon Conway (who is massively respected as a smart and honest broker on this subject, and who was funding the Golden Rice research) said, “The public-relations uses of golden rice have gone too far.”

More than a decade later, a lot has changed. The television ads using Golden Rice as an argument for the biotech industry have stopped. And now, if governments approve (and the rice is really ready — after so many delays I’ll believe it only when it happens), low income farmers can start using the rice for free. It will be really interesting to see if it works.

The other night I was talking with Richard Jefferson, an open source biologist and deep thinker who runs an independent lab bent on democratizing and decentralizing science. Jefferson was brought on board to help with Golden Rice for a period, and he isn’t afraid to speak bluntly. So I asked him, was Golden Rice a solution in search of a problem? In other words, did the engineers start by saying, “How can we use GM technology for something cool?” rather than saying, “Let’s tackle this malnutrition problem. What’s the best tool for that?”

Absolutely not, Jefferson said. The people behind Golden Rice have kept funding it because it might just work in a way that nothing else can, he said. It’s easy enough to point to other potential solutions, but those solutions all come with downsides as well, and they haven’t righted the problem.

“The guys who developed it did it for the right reasons,” Jefferson said. “They really were outraged by micronutrient deficiencies. They were out there in the rice paddies and in the villages. Every one of the Rockfeller Foundation meetings was in the developing world, and we were out there, learning things with these people.”

It’s true though, he said, that the biotech industry started using Golden Rice as a public relations tool. But we shouldn’t dismiss this technology because the wrong people have deployed it as an argument. “Golden Rice got turned into both a poster child and a whipping boy. The activists say, ‘It’s just a cat’s paw for Syngenta!’ and by that time the institutions were starting to use it that way. So unfortunately kids who are going blind get caught in the crossfire.”

Perhaps the problem with Golden Rice, as Marion Nestle has pointed out, is that it’s indicative of an assumption that “complex societal problems — in this case, malnutrition — are more easily solved by private-sector, commercially driven science than by societal decisions and political actions.”

There’s a good point there: Social problems usually require social solutions — messy and hard as they are. But the thing is, sometimes technology really can help.

Here’s my take on Golden Rice: It’s one small, flawed fix for the massive problem of malnutrition in Asia. It’s probably not going to bethe fix, but it seems shortsighted to attack the people who are actually on the ground trying to do good, unless you are out there too with something much better.

Are there other fixes? Yep, you could give people pills, or convince them to grow (and eat) more vegetables. But the donors supporting Golden Rice have been trying that too. The hope is that Golden Rice can put a little more of a dent in the problem. At the very least, as Pollan put it, after all these years of promises, it will be interesting to watch this test case: “We deserve to find out once and for all if this shining promise can live up to the hype.”

Sure, Golden Rice has been used for biotech industry PR, and if it succeeds we’ll doubtless see more of that. But it also holds potential for real good.

Genetically engineered Golden Rice grown in a facility in Los Baños, Laguna Province, in the Philippines.

ONE bright morning this month, 400 protesters smashed down the high fences surrounding a field in the Bicol region of the Philippines and uprooted the genetically modified rice plants growing inside. 

Had the plants survived long enough to flower, they would have betrayed a distinctly yellow tint in the otherwise white part of the grain. That is because the rice is endowed with a gene from corn and another from a bacterium, making it the only variety in existence to produce beta carotene, the source of vitamin A. Its developers call it “Golden Rice.”

The concerns voiced by the participants in the Aug. 8 act ofvandalism — that Golden Rice could pose unforeseen risks to human health and the environment, that it would ultimately profit big agrochemical companies — are a familiar refrain in the long-running controversy over the merits of genetically engineered crops. They are driving the desire among some Americans for mandatory “G.M.O.” labels on food with ingredients made from crops whose DNA has been altered in a laboratory. And they have motivated similar attacks on trials of other genetically modified crops in recent years: grapes designed to fight off a deadly virus in France, wheat designed to have a lower glycemic index in Australia, sugar beets in Oregon designed to tolerate a herbicide, to name a few.

“We do not want our people, especially our children, to be used in these experiments,” a farmer who was a leader of the protest told the Philippine newspaper Remate.

But Golden Rice, which appeared on the cover of Time Magazine in 2000 before it was quite ready for prime time, is unlike any of the genetically engineered crops in wide use today, designed to either withstand herbicides sold by Monsanto and other chemical companies or resist insect attacks, with benefits for farmers but not directly for consumers.

And a looming decision by the Philippine government about whether to allow Golden Rice to be grown beyond its four remaining field trials has added a new dimension to the debate over the technology’s merits.

Not owned by any company, Golden Rice is being developed by a nonprofit group called the International Rice Research Institute with the aim of providing a new source of vitamin A to people both in the Philippines, where most households get most of their calories from rice, and eventually in many other places in a world where rice is eaten every day by half the population. Lack of the vital nutrient causes blindness in a quarter-million to a half-million children each year. It affects millions of people in Asia and Africa and so weakens the immune system that some two million die each year of diseases they would otherwise survive.

The destruction of the field trial, and the reasons given for it, touched a nerve among scientists around the world, spurring them to counter assertions of the technology’s health and environmental risks. on a petition supporting Golden Rice circulated among scientists and signed by several thousand, many vented a simmering frustration with activist organizations like Greenpeace, which they see as playing on misplaced fears of genetic engineering in both the developing and the developed worlds. Some took to other channels to convey to American foodies and Filipino farmers alike the broad scientific consensusthat G.M.O.’s are not intrinsically more risky than other crops and can be reliably tested. 

At stake, they say, is not just the future of biofortified rice but also a rational means to evaluate a technology whose potential to improve nutrition in developing countries, and developed ones, may otherwise go unrealized.

“There’s so much misinformation floating around about G.M.O.’s that is taken as fact by people,” said Michael D. Purugganan, a professor of genomics and biology and the dean for science at New York University, who sought to calm health-risk concerns in a primeron GMA News online, a media outlet in the Philippines: “The genes they inserted to make the vitamin are not some weird manufactured material,” he wrote, “but are also found in squash, carrots and melons.” 

Mr. Purugganan, who studies plant evolution, does not work on genetically engineered crops, and until recently had not participated in the public debates over the risks and benefits of G.M.O.’s. But having been raised in a middle-class family in Manila, he felt compelled to weigh in on Golden Rice. “A lot of the criticism of G.M.O.’s in the Western world suffers from a lack of understanding of how really dire the situation is in developing countries,” he said.

Some proponents of G.M.O.’s say that more critical questions, like where biotechnology should fall as a priority in the efforts to address the root causes of hunger and malnutrition and how to prevent a few companies from controlling it, would be easier to address were they not lumped together with unfounded fears by those who oppose G.M.O.’s.

“It is long past time for scientists to stand up and shout, ‘No more lies — no more fear-mongering,’ ” said Nina V. Fedoroff, a professor at the King Abdullah University of Science and Technology in Saudi Arabia and a former science adviser to the American secretary of state, who helped spearhead the petition. “We’re talking about saving millions of lives here.”

Precisely because of its seemingly high-minded purpose, Golden Rice has drawn suspicion from biotechnology skeptics beyond the demonstrators who forced their way into the field trial. Many countries ban the cultivation of all genetically modified crops, and after the rice’s media debut early in the last decade, Vandana Shiva, an Indian environmentalist, called it a “Trojan horse” whose purpose was to gain public support for all manner of genetically modified crops that would benefit multinational corporations at the expense of poor farmers and consumers.

In a 2001 article, “The Great Yellow Hype,” the author Michael Pollan, a critic of industrial agriculture, suggested that it might have been developed to “win an argument rather than solve a public-health problem.” He cited biotechnology industry advertisements that featured the virtues of the rice, which at the time had to be ingested in large quantities to deliver a meaningful dose of vitamin A.

But the rice has since been retooled: a bowl now provides 60 percent of the daily requirement of vitamin A for healthy children. And Gerard Barry, the Golden Rice project leader at the International Rice Research Institute — and, it must be said, a former senior scientist and executive at Monsanto — suggests that attempts to discredit Golden Rice discount the suffering it could alleviate if successful. He said, too, that critics who suggest encouraging poor families to simply eat fruits and vegetables that contain beta carotene disregard the expense and logistical difficulties that would thwart such efforts.

Identified in the infancy of genetic engineering as having the potential for the biggest impact for the world’s poor, beta-carotene-producing rice was initially funded by the Rockefeller Foundation and the European Union. In a decade of work culminating in 1999, two academic scientists, Ingo Potrykus and Peter Beyer, finally switched on the production of beta carotene by adding daffodil and bacteria DNA to the rice’s genome. They licensed their patent rights to the agribusiness company that later became Syngenta, on the condition that the technology and any improvements to it would be made freely available to poor farmers in the developing world. With the company retaining the right to use it in developed countries, potentially as an alternative to vitamin supplements, Syngenta scientists later improved the amount of beta carotene produced by substituting a gene from corn for the one from daffodil.

If the rice gains the Philippine government’s approval, it will cost no more than other rice for poor farmers, who will be free to save seeds and replant them, Dr. Barry said. It has no known allergens or toxins, and the new proteins produced by the rice have been shown to break down quickly in simulated gastric fluid, as required by World Health Organization guidelines. A mouse feeding study is under way in a laboratory in the United States. The potential that the Golden Rice would cross-pollinate with other varieties, sometimes called “genetic contamination,” has been studied and found to be limited, because rice is typically self-pollinated. And its production of beta carotene does not appear to provide a competitive advantage — or disadvantage — that could affect the survival of wild varieties with which it might mix.

If Golden Rice is a Trojan horse, it now has some company. The Bill and Melinda Gates Foundation, which is supporting the final testing of Golden Rice, is also underwriting the development of crops tailored for sub-Saharan Africa, like cassava that can resist the viruses that routinely wipe out a third of the harvest, bananas that contain higher levels of iron and corn that uses nitrogen more efficiently. Other groups are developing a pest-resistant black-eyed pea and a “Golden Banana” that would also deliver vitamin A.

Beyond the fear of corporate control of agriculture, perhaps the most cited objection to G.M.O.’s is that they may hold risks that may not be understood. The decision to grow or eat them relies, like many other decisions, on a cost-benefit analysis.

How food consumers around the world weigh that calculation will probably have far-reaching consequences. Such crops, Scientific American declared in an editorial last week, will make it to people’s plates “only with public support.”

Greenpeace, for one, dismisses the benefits of vitamin supplementation through G.M.O.’s and has said it will continue to oppose all uses of biotechnology in agriculture. As Daniel Ocampo, a campaigner for the organization in the Philippines, put it, “We would rather err on the side of caution.”

For others, the potential of crops like Golden Rice to alleviate suffering is all that matters. “This technology can save lives,” one of the petition’s signers, Javier Delgado of Mexico, wrote. “But false fears can destroy it.”

Correction: August 24, 2013

An earlier version of this article misspelled the Philippine region where protesters destroyed a field growing genetically modified rice. It is the Bicol region, not Bricol.

http://www.nytimes.com/2013/08/25/sunday-review/golden-rice-lifesaver.html?pagewanted=all&_r=0

Plant biotechnologist Dr. Swapan Datta inspects a genetically modified "golden rice" plant at the International Rice Research Institute in the Philippines in 2003. After a long delay, the rice, rich in Vitamin A, will finally be grown in that country.