Research on climate-resilient wheat keeps “Green Revolution” on track

wheat field asia
Scientists estimate that in tropical and sub-tropical regions, wheat yields may decrease by 10 per cent for each 1-degree rise in minimum night-time temperature. Image: CIMMYT

Hans Braun, director of the Global Wheat Program at the International Maize and Wheat Improvement Center (CIMMYT), gestures toward an expansive field of green wheat shimmering in the hot sunlight outside his office.

“If we don’t prepare crops resilient to heat and drought, the effects of climate change will increase the risk of worldwide famine and conflict,” he explained. “That’s why CIMMYT is part of an international research program to develop new climate change-resistant varieties.”

As the global population grows from a current 7 billion to a projected 9.6 billion by 2050, wheat breeders involved in the battle to ensure food security face many challenges.

Already, UN food agencies estimate that at least 805 million people do not get enough food and that more than 2 billion suffer from micronutrient deficiency, or “hidden hunger.”

Globally, wheat provides 20 per cent of the world’s daily protein and calories, according to the Wheat Initiative.

Wheat production must grow 60 per cent over the next 35 years to keep pace with demand, statistics from the UN Food and Agriculture Organization show – an achievable goal only if wheat yields increase from the current level of below 1 per cent annually year to at least 1.7 per cent per year.

The scientists that Braun leads are on the frontlines – tackling the climate change threat in laboratories and at wheat research stations throughout Mexico and in 13 other countries.

We need to focus on sustainable intensification in ways that won’t overuse natural resources

Hans Braun, director of the Global Wheat Program at the International Maize and Wheat Improvement Center

Life-saving grain

Wheat is vital to global food security. In particular, since CIMMYT scientist Norman Borlaug, who died in 2009 at age 95, led efforts to develop semi-dwarf wheat varieties in the mid-20th century that helped save more than 1 billion lives in Pakistan, India and other areas of the developing world.

Borlaug started work on wheat improvement in the mid-1940s in Mexico – where CIMMYT is headquartered near Mexico City. The country became self-sufficient in wheat production in the early 1960s.

Borlaug was awarded the Nobel Peace Prize in 1970 for his work, and in his acceptance speech paid tribute to the “army of hunger fighters” with whom he had worked.

However, in contemporary times, some critics have cast a shadow over his work, questioning the altruistic aims of the project that became widely known as the Green Revolution.

They argue that the modern high-yielding crop varieties did not help poor farmers, but caused environmental damage through overuse of fertilisers, water resources and the degradation of soils.

Other condemnations include claims that food scarcity is a mere political construct, that food provision has helped governments suppress disgruntled masses and that vast wheat mono-croplands compromise agricultural and wild biodiversity.

However, a 2003 report in “Science” magazine analysed the overall impact of the Green Revolution in the 20th Century. The authors, economists from Yale University and Williams College, found that without the long-term increase food crop productivity and lower food prices from the Green Revolution, the world would have experienced “a human welfare crisis.”

“Caloric intake per capita in the developing world would have been 13.3 to 14.4 per cent lower and the proportion of children malnourished would have been from 6.1 to 7.9 per cent higher,” authors Robert Evanson and Douglas Gollen wrote.

“Put in perspective, this suggests that the Green Revolution succeeded in raising the health status of 32 to 42 million preschool children. Infant and child mortality would have been considerably higher in developing countries as well.”

Braun acknowledges certain points made by critics of the Green Revolution, but asks how else developing countries would have met the food demands of their rapidly-expanding populations with less environmental impact.

“It’s very easy to look back 50 years and criticise,” Braun said. “People forget that at the time, new farm technologies were an incredible success. We have to put it into context – saving hundreds of millions of lives from starvation was the priority and the Green Revolution did just that.”

Climate-resilient wheat

Fast-forward and today much of CIMMYT’s current work remains steadily focused on improving wheat yields, but now with an emphasis on ensuring sustainable productivity and reducing agriculture’s environmental footprint.

Scientists are engaged in an international five-year project to develop climate-resilient wheat. They estimate that in tropical and sub-tropical regions, wheat yields will decrease by 10 per cent for each 1-degree rise in minimum night-time temperature, which means that production levels could decline by 30 per cent in South Asia. About 20 per cent of the world’s wheat is produced in the region.

CIMMYT is collaborating with Kansas State University, Cornell University and the US Department of Agriculture on the project, which is funded by the US Agency for International Development (USAID) as part of Feed the Future, the US government’s global hunger and food security initiative.

Field evaluations are conducted in Mexico, Pakistan and at the Borlaug Institute for South Asia (BISA) in India.

Boosting infrastructure

According to Braun, one of the biggest challenges over the next 30 years is to develop better production systems in addition to resource-efficient crops.

For example, a great deal of water is used in food production and demand can and should be cut in half, he said. 

“We need to focus on sustainable intensification in ways that won’t overuse natural resources.” 

To aid in these efforts, CIMMYT has developed international research programs on conservation and precision agriculture. 

In conservation agriculture, farmers reduce or stop tilling the soil, leaving crop residues on the surface of the field and rotating crops to sustainably increase productivity.

Precision agriculture involves such things as light sensors to determine crop vigor and gauge nitrogen fertiliser dosages to exactly what plants need. “This reduces nitrate runoff into waterways and greenhouse gas emissions,” Braun explained. CIMMYT and its partners are also breeding wheat lines that are better at taking up and using fertiliser.

“Wheat in developing countries currently uses only 30 per cent of the fertiliser applied,” he said. “There are promising options to double that rate, but developing and deploying them require significant investments.”

“I’m very optimistic that we can produce 60 to 70 per cent more wheat to meet demand – society is beginning to recognise that food production is one of humanity’s biggest challenges – today and in the future,” Braun summarized.

“We have or can develop the technologies needed, but politicians must recognise that investment in agriculture is not a problem, it’s a solution – the longer we wait the bigger the potential problems and challenges we face.”

Braun continued, “We also need policymakers to reach agreement that global climate change is a big problem that absolutely must be addressed so that we can gain access to sufficient resources and more fully develop appropriate technologies.”

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