05 Mar 2015: Report

Perennial Rice: In Search of a
Greener, Hardier Staple Crop

Scientists have long sought to create a perennial rice that would avoid the damage to the land caused by the necessity of planting annually. Now, Chinese researchers appear close to developing this new breed of rice, an achievement that could have major environmental benefits.

by winifred bird

Ten thousand years ago, China’s ancient inhabitants harvested the grains of wild rice, a perennial grass growing up to 15 feet tall in bogs and streams. The grains were small and red, maturing in waves and often shattering into the water. Their descendants transformed that grain into the high-yielding annual crop that today feeds half the world’s population. When agronomist F. H. King toured China’s meticulously maintained rice terraces in 1909, he called the men and women who tilled them “farmers of forty centuries.” To him, they seemed to have unlocked the secret to
perennial rice
Tim Crews
Fengyi Hu shows a perennial rice plant, which has deeper roots than cultivated rice varieties.
conserving soil and maintaining agricultural fertility indefinitely.

Today, with the climate changing and far more land under intensive cultivation, rice farmers face a less certain future. In parts of Asia, melting glaciers threaten to dry up water supplies for irrigated paddies, while higher temperatures and unpredictable rainfall stress rain-fed fields. In uplands worldwide, where farmers grow rice on steep hillsides using slash-and-burn techniques, fallow periods are growing shorter and severe erosion is undermining both productivity and ecosystem health.

An international network of scientists is working toward a radical solution: perennial rice that yields grain for many years without replanting. By crossing domesticated rice with its wild predecessors, they hope to create deep-rooted varieties that hold soils in place, require less labor, and survive extremes of temperature and water supply. Plant breeders have been trying to do the same for wheat, sorghum, and other crops for decades.

With rice, the vision is finally nearing reality. Chinese scientists are preparing to release a variety that they say performs well in lowland paddies and, with more breeding work, could eventually thrive on marginal land as well.

“This line of research foreshadows a more sustainable way of raising crops in the uplands,” says Casiana Vera Cruz, an expert on upland agriculture at the International Rice Research Institute (IRRI) in the Philippines. She says the research could especially impact women, because they are most
Critics argue that perennial grains will never be able to feed the growing population.
often responsible for the hard work of hand-planting rice each spring on small mountain farms.

The biggest strides are taking place in China, where geneticist Fengyi Hu and his colleagues at the Yunnan Academy of Agricultural Sciences are completing nearly a decade of trials on perennial rice varieties, including PR23, a strain they claim yields harvests close to those from conventional rice for four years or more. One agricultural company in Yunnan will test PR23 and similar varieties on more than 1,500 acres this year, and researchers are trying out PR23 in Laos as well. If Yunnan’s government approves the new rice for widespread release to farmers, it will be among the world’s first perennial grains to be grown beyond experimental fields.

Critics argue, however, that perennial grains like PR23 will never be able to feed the world’s growing population. Kenneth Cassman, an agronomist at the University of Nebraska whose work focuses on global food security, says devoting a greater share of the world’s limited agricultural research funding to perennial rice research would be a mistake.

“The goal is not just to increase agricultural productivity, the goal is to lift people out of poverty and provide adequate nutrition and health,” says Cassman, who worked at IRRI in the mid ‘90s. “And there’s no way that low-yielding perennial grains grown on small, marginal farms can lift anyone out of poverty.” Instead, he argues that farmers should grow drought-resistant trees or pasture — not grains — on steep hillsides to stabilize soils, and scientists should focus on improving annual grain yields in environments that are truly suited to them, such as flat fields with adequate water.

Nevertheless, those involved with the perennial rice research in China say it could have global environmental implications. Millions of farmers in Asia and Africa grow rice in marginal upland areas at the cost of massive soil loss (steep, unterraced rice fields in Laos, for instance, lose soil around twenty times faster than the average global rate at which new soil forms). The same is true for other crops on other continents. Half the world’s population depends on marginal lands for food, according to a 2010 paper in Science, and annual plowing often degrades these fields further. Meanwhile, population — and demand for grain — is growing rapidly.

One widely promoted answer is called “ecological intensification,” in which sustainable farming techniques such as cover crops and polycultures are used to increase yields without expanding the area of land under cultivation or the environmental harm it causes. But proponents of perennial grains argue that agriculture needs a more fundamental fix — in
Perennial grasses divert more energy toward building roots for long-term survival.
essence, a shift away from humanity’s 10,000-year-old habit of clearing the ground each year and starting anew.

“So many problems that we think of as being part of the package of agriculture — nutrient leakage, soil erosion, carbon loss, weed invasion — are actually attributes of this highly disturbed ecosystem,” says Timothy Crews, research director at the Land Institute in Kansas, which was founded in 1976 with the goal of developing grain fields that mimic prairies. “They’re very predictable in ecology. And yet if you go out and you look at mature native [grassland] ecosystems you do not have those problems.”

Developing perennial versions of rice and other grains is a difficult task, however. While domesticated annual grains pour thirty to sixty percent of their energy into producing seeds, perennial grasses divert much more toward building roots for long-term survival. To boost perennial yields, Crews explains, plant breeders must coax perennials to allocate a bigger slice of the energy pie to seed production. They can also take advantage of the fact that perennials tend to have a larger energy pie to start with: They generally start growing earlier than annuals each spring and photosynthesize sunlight for more days each year.

For years, Land Institute staff were among only a scattering of scientists pursuing the development of perennial grains. Recently, though, interest has grown significantly. In 2013 the Food and Agriculture Organization (FAO) of the United Nations held an expert workshop on the topic, and is planning another this fall. The U.S. Agency for International Development is investing in perennial sorghum research, and the Bill and Melinda Gates Foundation is funding a study on the risks and benefits of perennial wheat, sorghum, and pigeon pea in five African nations.

Still, progress is uneven due to differences in genetics, breeding techniques, growing conditions, and research interest for various grains. Perennial wheat — a key crop at the Land Institute — remains decades from yield parity with annual wheat, according to Crews. Perennial maize research is even farther behind. Among major staples, only perennial rice is “approaching reality,” according to the proceedings of the 2013 FAO meeting.

The first reports of crosses between perennial and annual rice emerged in the 1980s. Inspired by these signs of success, IRRI established a breeding program in the mid-1990s aimed at helping poor subsistence farmers combat erosion on steep slopes. They dropped it in 2001 due to shifting research priorities, but by then, Dayun Tao, a geneticist at the Yunnan Academy of Agricultural Sciences, had made the promising cross that would eventually lead to PR23.

This was a significant achievement. Perennial and annual rice are closely related but distinct species, which makes crossing them difficult. Often, fertilization occurs but the embryo is not viable. Tao used what plant breeders call “embryo rescue,” a procedure that Crews likens to placing a premature baby in an incubator. Once the plants got through that
Perennial rice is not ready to withstand the rigors of poor soil and scant water in uplands.
bottleneck, future generations were able to reproduce normally.

The next step for Tao and his colleagues, including Fengyi Hu, was to improve the crosses and choose the best ones. With funding from China’s National Science Foundation and, more recently, the Land Institute, they launched a series of field trials, using conventional growing practices in typical lowland fields. Hu says PR23 and several other varieties are now good enough to release to farmers in Yunnan, although he has not yet published any papers on their performance in peer-reviewed journals.

Perennial rice is by no means ready to withstand the rigors of poor soil, scant water, and extreme temperatures in the uplands, however. One challenge will be bringing in genes that instruct the plant to become dormant and shut down leaf production during the dry season to conserve water; another is adapting plants to the acid soils common in upland areas.

“As we go to more and more extreme environments, we’ll have to develop better and better materials with more traits to get them adapted,” says Len Wade, a perennial grain expert at Australia’s Charles Sturt University who is advising Hu’s team and coordinating the trials in Laos. “So there’s no one answer here. It takes a series of answers or a series of targets.”

Yet those further improvements are key, because the very places that most desperately need an alternative to conventional rice also tend to have the toughest growing conditions. In the mountains of northern Laos, for instance, farmers typically burn patches of forest in March or April and scatter rice seed over the ashes. Before the plants have had a chance to grow strong roots, heavy rains wash away soil and leach nutrients. Yields fall, weeds invade, and farmers move on after two to three years.

“Soil quality is decreasing very fast,” says Pheng Sengxua, a Lao agronomist involved in the trials, which for now are taking place only in more favorable southern areas where the terrain is flatter and soils better.

ALSO FROM YALE e360

How Weeds Could Help Feed
Billions in a Warming World

People or Parks
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.
READ MORE
“The population has increased and the forest is being destroyed by upland farmers. The Lao government wants to decrease upland farming systems like slash and burn to reduce erosion and deforestation.”

That has led to government interest in the new varieties from China, which promise benefits that go beyond grain, Wade says. A rice crop that stayed in the ground for years on end could conserve soil and provide hay, fodder and fuel during the dry season, making it a key element of a sustainable farming system in hilly areas.

That vision — of a perennial rice tough enough to flourish in some of the world’s most difficult growing conditions — is still a distant one. But within the next few years, Chinese farmers could have access to PR23, a variety unlike any other in the long history of rice farming. For the perennial grains research community, that alone would be a significant milestone.



POSTED ON 05 Mar 2015 IN Biodiversity Biodiversity Climate Science & Technology Sustainability Asia Central & South America 

COMMENTS


This is a timely article l-o-n-g in coming. I'm glad the 'Land Institute' was mentioned.

Modern annual soybeans may have been derived from perennial wild ancestors:
"The genus Glycine Willd. is divided into two subgenera, Glycine and Soja. The subgenus Soja (Moench) F.J. Herm. includes the cultivated soybean, Glycine max (L.) Merr., and the wild soybean, Glycine soja Sieb. & Zucc. Both species are annuals. Glycine soja is the wild ancestor of Glycine max, and grows wild in China, Japan, Korea, Taiwan and Russia. The subgenus Glycine consists of at least 25 wild perennial species: for example, Glycine canescens F.J. Herm. and G. tomentella Hayata, both found in Australia and Papua New Guinea. Perennial soybean (Neonotonia wightii) originated in Africa and is now a widespread pasture crop in the tropics." Wikipedia Soybeans
Posted by Stan Scharf on 05 Mar 2015


Yes, the Land Institute in Kansas seems to be the
ones doing the most work with perennial grains.
They have had some involvement with developing
upland perennial rice in China.
Posted by Rupert Nelson on 07 Mar 2015


It would be a great challenge for the scientist to implement perennial rice in a frequent climatic change condition.
Posted by M. A. Jalil on 29 May 2015


POST A COMMENT

Comments are moderated and will be reviewed before they are posted to ensure they are on topic, relevant, and not abusive. They may be edited for length and clarity. By filling out this form, you give Yale Environment 360 permission to publish this comment.

Name 
Email address 
Comment 
 
Please type the text shown in the graphic.


winifred birdABOUT THE AUTHOR
Winifred Bird is a freelance journalist living in Japan. She writes about the environment for the Japan Times, Environmental Health Perspectives, Christian Science Monitor and other publications. In previous articles for Yale Environment 360, she reported on Japan's post-tsunami coastal reconstruction and efforts to save wild eels.
MORE BY THIS AUTHOR

 
 

RELATED ARTICLES


How Warming Threatens the Genetic
Diversity of Species, and Why It Matters

Research on stoneflies in Glacier National Park indicates that global warming is reducing the genetic diversity of some species, compromising their ability to evolve as conditions change. These findings have major implications for how biodiversity will be affected by climate change.
READ MORE

The Methane Riddle: What Is
Causing the Rise in Emissions?

The cause of the rapid increase in methane emissions since 2007 has puzzled scientists. But new research finds some surprising culprits in the methane surge and shows that fossil-fuel sources have played a much larger role over time than previously estimated.
READ MORE

The Moth Snowstorm: Finding
True Value in Nature’s Riches

Journalist Michael McCarthy has chronicled the loss of wildlife in his native Britain and globally. In an interview with Yale Environment 360, he talks about why he believes a new defense of the natural world is needed – one based on the joy and spiritual connection it provides for humans.
READ MORE

In New Ozone Alert, A Warning
Of Harm to Plants and to People

Scientists are still trying to unravel the damaging effects of ground-level ozone on life on earth. But as the world warms, their concerns about the impact of this highly toxic, pollution-caused gas are growing.
READ MORE

Chocolate in the Jungle: Racing
To Save a Disappearing Forest

A runner-up in the 2016 Yale Environment 360 Video Contest tells the story of a small group of Ecuadorians working to preserve remnants of South America’s ecologically rich Chocó Rainforest by sustainably farming cacao.
READ MORE

 

MORE IN Reports


How Warming Threatens the Genetic
Diversity of Species, and Why It Matters

by jim robbins
Research on stoneflies in Glacier National Park indicates that global warming is reducing the genetic diversity of some species, compromising their ability to evolve as conditions change. These findings have major implications for how biodiversity will be affected by climate change.
READ MORE

Full Speed Ahead: Shipping
Plans Grow as Arctic Ice Fades

by ed struzik
Russia, China, and other nations are stepping up preparations for the day when large numbers of cargo ships will be traversing a once-icebound Arctic Ocean. But with vessels already plying these waters, experts say the time is now to prepare for the inevitable environmental fallout.
READ MORE

How Forensics Are Boosting
Battle Against Wildlife Trade

by heather millar
From rapid genetic analysis to spectrography, high-tech tools are being used to track down and prosecute perpetrators of the illegal wildlife trade. The new advances in forensics offer promise in stopping the trafficking in endangered species.
READ MORE

African Wetlands Project: A Win
For the Climate and the People?

by winifred bird
In Senegal and other developing countries, multinational companies are investing in programs to restore mangrove forests and other wetlands that sequester carbon. But critics say these initiatives should not focus on global climate goals at the expense of the local people’s livelihoods.
READ MORE

Ghost Forests: How Rising Seas
Are Killing Southern Woodlands

by roger real drouin
A steady increase in sea levels is pushing saltwater into U.S. wetlands, killing trees from Florida as far north as New Jersey. But with sea level projected to rise by as much as six feet this century, the destruction of coastal forests is expected to become a worsening problem worldwide.
READ MORE

On College Campuses, Signs of
Progress on Renewable Energy

by ben goldfarb
U.S. colleges and universities are increasingly deploying solar arrays and other forms of renewable energy. Yet most institutions have a long way to go if they are to meet their goal of being carbon neutral in the coming decades.
READ MORE

For European Wind Industry,
Offshore Projects Are Booming

by christian schwägerl
As Europe’s wind energy production rises dramatically, offshore turbines are proliferating from the Irish Sea to the Baltic Sea. It’s all part of the European Union’s strong push away from fossil fuels and toward renewables.
READ MORE

In New Ozone Alert, A Warning
Of Harm to Plants and to People

by jim robbins
Scientists are still trying to unravel the damaging effects of ground-level ozone on life on earth. But as the world warms, their concerns about the impact of this highly toxic, pollution-caused gas are growing.
READ MORE

The Rising Environmental Toll
Of China’s Offshore Island Grab

by mike ives
To stake its claim in the strategic South China Sea, China is building airstrips, ports, and other facilities on disputed islands and reefs. Scientists say the activities are destroying key coral reef ecosystems and will heighten the risks of a fisheries collapse in the region.
READ MORE

Natural Aquaculture: Can We
Save Oceans by Farming Them?

by richard schiffman
A small but growing number of entrepreneurs are creating sea-farming operations that cultivate shellfish together with kelp and seaweed, a combination they contend can restore ecosystems and mitigate the impacts of ocean acidification.
READ MORE


e360 digest
Yale
Yale Environment 360 is
a publication of the
Yale School of Forestry
& Environmental Studies
.

SEARCH e360



Donate to Yale Environment 360
Yale Environment 360 Newsletter


CONNECT


ABOUT

About e360
Contact
Submission Guidelines
Reprints

E360 en Español

Universia partnership
Yale Environment 360 articles are now available in Spanish and Portuguese on Universia, the online educational network.
Visit the site.


DEPARTMENTS

Opinion
Reports
Analysis
Interviews
Forums
e360 Digest
Podcasts
Video Reports

TOPICS

Biodiversity
Business & Innovation
Climate
Energy
Forests
Oceans
Policy & Politics
Pollution & Health
Science & Technology
Sustainability
Urbanization
Water

REGIONS

Antarctica and the Arctic
Africa
Asia
Australia
Central & South America
Europe
Middle East
North America

e360 VIDEO

“video
A look at how acidifying oceans could threaten the Dungeness crab, one of the most valuable fisheries on the U.S. West Coast.
Watch the video.

e360 MOBILE

Mobile
The latest
from Yale
Environment 360
is now available for mobile devices at e360.yale.edu/mobile.

e360 PHOTO ESSAY

“Alaska
An aerial view of why Europe’s per capita carbon emissions are less than 50 percent of those in the U.S.
View the photos.

e360 VIDEO

“Ashaninka
An indigenous tribe’s deadly fight to save its ancestral land in the Amazon rainforest from logging.
Learn more.

e360 VIDEO

Food waste
An e360 video series looks at the staggering amount of food wasted in the U.S. – a problem with major human and environmental costs.
Watch the video.

e360 VIDEO

Choco rainforest Cacao
Residents of the Chocó Rainforest in Ecuador are choosing to plant cacao over logging in an effort to slow deforestation.
Watch the video.

e360 VIDEO

“video
Tribal people and ranchers join together to stop a project that would haul coal across their Montana land.
Watch the video.

OF INTEREST



Yale