05 Jun 2014: Report

How Weeds Could Help Feed
Billions in a Warming World

Scientists in the U.S. and elsewhere are conducting intensive experiments to cross hardy weeds with food crops such as rice and wheat. Their goal is to make these staples more resilient as higher temperatures, drought, and elevated CO2 levels pose new threats to the world’s food supply.

by lisa palmer

Weeds that resemble knee-high grass grow in planter pots in a small room at a U.S. Department of Agriculture lab just outside Washington, D.C. Light, heat, and carbon dioxide reach the plants at steady levels. For more than a month, the weeds have sustained the same conditions expected to be earth’s norm 35 years from now — carbon dioxide levels equivalent to an urban traffic jam, and temperatures tipping into the dangerous zone for the planet’s health.

But rather than choking from such treatment, the weeds — a wild plant called red rice — are thriving. The test lab mimics conditions expected

View Gallery
Standard rice vs. red rice

N. Burgos, University of Arkansas
Red rice (right) produces more seed than cultivated rice (left), but it is very difficult to harvest because the seeds shatter.
around the world by 2050, when an additional 2.6 billion people will be wondering what’s for dinner.

Lewis Ziska, a plant physiologist with the USDA’s Agricultural Research Service, studies, among other things, weeds in food production and human health. Weeds beguile Ziska. Weeds may be the largest single limitation to global crop yield. But they also have traits that are useful to plant growth. Red rice, for instance, can adapt to more carbon dioxide and heat by producing more stems and grain — red rice has 80 to 90 percent more seed than cultivated rice.

Now, plant breeders and plant physiologists are capitalizing on those traits and counting on all possible sources of genetic variation, including weedy lines of rice, to improve productivity in cultivated crop varieties. Such cross-breeding could play an important role in helping the world’s staple
'A weed is a plant whose virtues have yet to be discovered,' says one scientist.
food crops better adapt to a warming climate.

Plant physiologists such as Ziska usually put weeds in two categories: “an unwanted or undesired plant species” and “early vegetation following soil disturbance.” Ziska thinks a third definition could be more suitable: the unloved flower. “A weed is a plant whose virtues have yet to be discovered,” he says, paraphrasing Emerson.

Ziska is not the only one with this perspective. Many scientists now believe that weeds may be part of the solution to boosting harvests in a warming world. Wild lines of wheat, oats, and rice — which are, in fact, weeds — have genetic characteristics that may be useful to adapt their domesticated cousins to an uncertain future.

Why weeds? When other plants are wilting at extremes of temperature and rainfall, weeds thrive. Ziska studies weeds for their redemptive qualities. His research in this area was bolstered on a sweltering day in an abandoned industrial lot in Baltimore, 25 miles from his USDA research center, where he observed weeds that were two to four times bigger than weeds growing on his rural test plot. The urban weeds prompted further research on weeds that could be valuable to raising crops in high-carbon, high-heat scenarios.

Ziska tries not to call red rice a weed. Sometimes he calls it skanky rice, but mostly he refers to it as wild or feral rice. All crop plants were wild at some point. They became domesticated in the same way cows and pigs became domesticated on farms: through breeding and selection. Wild and feral crop relatives are the original source of raw genetic material from which all modern crop varieties were first developed, but these reservoirs of natural variation have not been well studied.

Breeding from wild, ancestral plant populations may hold the key to creating crops of the future. Wheat breeding has already made significant progress in producing weedy lines, which have led to the cultivation of edible wheat. Because it has a large genome, wheat can incorporate traits that better withstand heat and drought. Matthew Reynolds, head of the wheat physiology program at the International Maize and Wheat Improvement Center in Mexico City, says that wheat producers are
The breeding system allows ancient traits and genes to be constantly recycled and recombined.
fortunate because they are slightly ahead of the curve in developing heat- and drought-resistant varieties.

The value of using wild relatives of crops as sources of environmental resilience and resistance to pests and diseases led to an estimated $115 billion in annual benefits to the world economy by 1997, primarily through increased production, according to research at Cornell University.

Although seeds are readily accessible in 1,700 gene banks throughout the world, “they are not used to their full potential in plant breeding,” said Susan McCouch, a plant geneticist at Cornell. “There are still vast reserves of valuable genes and traits hidden in low-performing wild ancestors and long forgotten early farmer varieties that can be coaxed out of these ancient plants by crossing them with higher-yielding modern relatives. These crosses give rise to families of offspring that carry a myriad of new possibilities for the future.”

McCouch says the plant breeder’s job is to utilize a combination of insight, field experience, technology, and innovative breeding strategies to select the most promising offspring and prepare them for release as new varieties. The breeding system allows ancient traits and genes to be constantly recycled and recombined, giving rise to an infinite range of new possibilities with every generation.

“The same process happens in nature,” she said, “but the plant breeder can bring together parents from diverse sources that would never have found each other in the wild.”

Improved rice breeding has a long way to go. It takes about 10 years for a crop to go from breeding to production, and another five years to bring it to distribution to farmers. That’s because it is a painstakingly slow process to select populations of offspring that contain combinations of traits and genes that have never been utilized in agriculture before, then test their resiliency to environmental stresses.

But through such work weeds may become the unlikely hero of food production. Take red rice. As the name implies, weedy red rice looks like cultivated rice — the staple food for more than 3 billion people in the world — but it is an Asian wild grass. If it gets into a field of cultivated rice, it’s a fierce competitor. Because it looks so similar to rice, it develops incognito.
The demand for rice and other cereals is expected to rise by 14 percent per decade.
It grows vigorously. It propagates quickly. As it matures, it grows taller than other rice plants.

Then the wind blows its seeds all over a field and the crop plants itself. Red rice can’t be controlled by herbicides because it is so closely related to most cultivated rice. Once it’s established in a field, it is so aggressive that it will cut a field’s rice yield by 80 percent. Within five years it can become the dominant species in a field. Technically, red rice is edible but almost impossible to harvest because once it develops a seed, the seed falls to the ground and shatters.

The goal, says Ziska, is to transfer the traits that make red rice so hardy into the more commonly cultivated rice crops.

With a growing global population projected to reach 9.6 billion by mid-century, the demand for rice and other cereals is expected to rise by 14 percent per decade. But climate change is expected to cut into some of those crop yields. Today’s high temperatures stress the rice plants, limit growth, and shorten growing seasons. Increasing carbon dioxide causes weeds to outpace crop growth. Coastal deltas are major rice-growing areas worldwide, and repeated coastal flooding is worsening with rising sea levels and intensifying storms; Vietnam, one of the top exporters of rice globally, already is losing land in the Mekong Delta.

To surmount these many challenges, new tools and technologies are being developed that allow plant breeders to utilize ever-more distantly related


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As an ambitious program in Colombia demonstrates, combining grazing and agriculture with tree cultivation can coax more food from each acre, boost farmers’ incomes, restore degraded landscapes, and make farmland more resilient to climate change.
wild and exotic relatives and to liberate the potential that remains locked up in these reservoirs of natural variation.

However, crop resilience does not come in the form of a silver bullet. “It will not be one new trait, one super crop variety or one new management system that allows us to meet the world’s demand for food,” McCouch says. “It takes time, effort and training to make significant genetic progress when utilizing these ancient sources of variation.”

But Donald Boesch, president of the University of Maryland’s Center for Environmental Science said agricultural science must move quickly to keep pace with climate change. “This adaptation needs to be fast,” said Boesch. “It is not something we can gradually work on. We need to have our science to support adaptation done at the same time as the rapid change that is occurring. And that poses tremendous risks for food security.”

Ziska believes weeds will likely be a key part of the solution. “The feral cousins of today’s crops may allow us to adapt to meet food security needs,” he says. “This paradox of weeds I find fascinating. Let’s turn lemons into lemonade.”

POSTED ON 05 Jun 2014 IN Biodiversity Climate Oceans Policy & Politics Pollution & Health Science & Technology North America North America 


Hooray, I think this is a move in the right direction for more than one reason. I do Edible Native Plant talks (which is a side hobby) and feel there is so many hidden advantages in our native plants that have not been realized. I know with the use of these plants in our landscapes to create natural ecosystems we will be preserving very valuable information that is important for all living creatures seen and unseen that may and will one day become our next cancer cures. It will help cut down on water and chemical use, and that would help the environment. So again, hooray for a giant step in the right direction for research and the world as a whole. Hooray, hooray!! Sincerely, Darla Pastorek
Posted by Darla Pastorek on 11 Jun 2014

Great article, thank you for writing! Ideas like this give me hope.
Posted by Alexander Dash on 24 Jun 2014

You people just read and agree, no critical thinking. No investigation. Red rice is a weed that is damaging rice. They do make a weed killer for it. Maybe you can eat that too.
Posted by topgun on 26 Jun 2014

A committed effort to reducing world population and reversing the damaging effects of climate change would also produce favourable outcomes.
Posted by TAG on 26 Jun 2014

Weed killer for red rice or not, there is hope in using human analytical powers to crossbreed into crops the resistances weeds have.

Agricultural research needs to be a burgeoning field — where's the money, Congress, private enterprises? Where's the commitment to using all the accumulated resources we have? Let's get more and more public seeds. The public needs some training in ways we can use our observations to help the breeders, to become backyard breeders if possible. We need public science on this! High school Biology teachers need investigation we can do with classes to "ground truth" the breeders' seeds, or to cross things they don't have the resources to try.
Posted by Lucy Garcia on 07 Jul 2014

Excellent article. Innovative approaches.
Dr. A. Jagadeesh, Nellore (AP), India
Posted by Dr.A.Jagadeesh on 14 Jul 2014


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Lisa Palmer is a freelance journalist and writer based in Maryland. She reports on energy, climate change, the environment, and sustainable business for publications such as Slate, Scientific American, and The Guardian. She is a fellow at the National Socio-Environmental Synthesis Center (SESYNC). Previously for e360, Palmer reported on Peabody Energy's expansion into an uncertain overseas coal market and an ambitious agroforestry program in Colombia.



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