Tim Crews – Fengyi Hu shows a perennial rice plant, which has deeper roots than cultivated rice varieties.
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 05 Mar 2015: Report
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 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. ith 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 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.
….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 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.
…..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. …..”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. “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.