FAO Director General, QU Dongyu, pays tribute to Dr. Borlaug at CIMMYT in 2006. His influence extended globally, fostering collaboration with Chinese scientists and contributing to breakthroughs in rice varieties. Dr. Borlaug’s principles resonate in the continued pursuit of agricultural innovation and the enduring legacy of FAO, which was founded 80 years ago.
Read the full story.
CIMMYT joins with members of the international development community to mourn the passing of renowned wheat geneticist and “Father of the Green Revolution in India,” Monkombu Sambasivan Swaminathan who died on September 27 at the age of 98.
Swaminathan devoted his life to sustainably feeding the world. His vision reshaped India almost overnight to a breadbasket for South Asia, through adoption of innovative high-yield wheat varieties and efficient farming techniques for Indian farmers. TIME magazine acclaimed him as one of the twenty most influential Asians of the 20th Century, making him one of three from India to be named alongside Mahatma Gandhi and Rabindranath Tagore.
Swaminathan began his career in the world of academia. After earning his Ph.D. in plant genetics from Cambridge University in 1952, he moved to the United States to continue his research as a professor; however, his home country India eventually called him back home. With the crisis of a rapidly increasing population and low food production, Swaminathan returned to become a scientist at the Indian Agricultural Research Institute (IARI), where he later served as Director from 1961 to 1972.
It was during this time that he began his collaboration scientist Norman Borlaug, future Nobel Prize laureate and soon to be leader of CIMMYT wheat research. Swaminathan saw the value of the Mexican semi-dwarf wheat varieties, which were developed by Borlaug, for wheat production in India and requested that Borlaug send him a range of breeding materials containing the Norin dwarfing genes. The seeds arrived in 1963 along with Borlaug and the pair travelled the wheat-belt of India. Swaminathan arranged multi-location trials for the varieties and established an inter-disciplinary team to adapt the new varieties for Indian conditions.
The next step was convincing local farmers to grow the varieties. By 1966, Swaminathan had established 2,000 model farms where farmers could see for themselves the benefits of the new wheats. Swaminathan’s final act in kickstarting the Green Revolution in India was to successfully lobby the Indian government to import 18,000 tons of the Mexican seed.
Just 4 years later India’s wheat harvest had doubled to 20 million tons, ending the nation’s dependence on wheat imports and saving millions from starvation. Swaminathan continued to work with the Indian government to maintain food security and long-term self-sufficiency across the country and the impact of his work earned him the first World Food Prize in 1987.
Swaminathan held a number of leadership roles in world agricultural and conservation organizations over his lifetime, including the FAO council, the International Union for the Conservation of Nature and Natural Resources, the World Wide Fund for Nature (India), and the National Academy of Agricultural Sciences. He also served as Director General of the Indian Council of Agricultural Research (ICAR), and Secretary to the Government of India at the Department of Agricultural Research and Education from 1972-79, as well as Director General of the International Rice Research Institute in the Philippines from 1982-88.
A humanitarian at heart
Not just a scientist, Swaminathan was an advocate and humanitarian. Shortly after winning the World Food Prize, he used the award funds to establish a research center, the M.S. Swaminathan Research Foundation (MSSRF), in Chennai, India. The MSSRF allowed him to work on his other passion, sustainable development, where he coordinated research and action on conservation of endangered species, protection of coastal ecosystems, precision farming, ecotechnology, community education and technical training, and programs for rural internet access.
He has received 84 honorary doctorate degrees from universities around the world and multiple awards including the Padma Shri (1967), Padma Bhushan (1972) and Padma Vibushan (1989) – the fourth, third and second highest civilian awards in India. He has also won numerous international awards including the 1994 UNEP Sasakawa Environment Prize, the UNESCO Gandhi Gold Medal in 1999 and the Franklin D. Roosevelt Four Freedoms Award in 2000.
“He was a real gentleman with a sharp memory,” recalls CIMMYT distinguished scientist Ravi Singh. “I always admired his capacity and his ability to link complicated topics into a nice synthesis.”
He was an inspiration to thousands and will be greatly missed for his scientific brilliance, his pioneering advocacy and humanitarianism, and his life mission to reduce world hunger through improved technology for citizens from all levels of society.
The CIMMYT family extends its deepest condolences to the Swaminathan family.
CIMMYT’s experimental station in Obregón, a small city in Mexico’s state of Sonora, is considered a mecca for wheat research and breeding. In 1945, Norman Borlaug arrived as a geneticist for a special project between the Mexican government and the Rockefeller Foundation, to help local farmers with wheat production. After a few years, his strong bond with the community, students and interns was key to making a remarkable difference on wheat research that save millions from famine and won him the Nobel Peace Prize. A legacy that has lasted for many decades.
At Obregón, scientists have access to state-of-the-art field facilities and an ideal location, in the northern Yaqui Valley. The station’s dry climate and favorable temperature in winter is suitable to assess yield potential, while its hot summers are ideal to study wheat’s tolerance to different stressors.
Here, scientists and field workers work hard all year round to ensure the future of wheat. Varieties grown in all continents have CIMMYT and Sonoran DNA.
SPECIAL THANKS TO: Jeanie Borlaug Laube. Jesús Larraguibel Artola, President of PIEAES (Patronato para la Investigación y Experimentación Agrícola del Estado de Sonora A.C.). Asociación de Organismos de Agricultores del Sur de Sonora A.C. (AOASS) Global Wheat Program, CIMMYT: Alison Bentley (Program Director), Karim Ammar, Rodrigo Rascón, Carolina Rivera, Alberto Mendoza, Leonardo Crespo and Nele Verhulst.
CREDITS: Production: Alfonso Cortés, Marta Millere and Silvia Rico, CIMMYT. Additional drone shots: Courtesy of INIFAP and PIEAES. Post-production: Silvia Rico, CIMMYT
MUSIC: The Way Up created by Evert Z. Licensed from Artlist.io (License owner: CIMMYT. Creator Pro License Number – 159864). Eclipse created by EFGR. Licensed from Artlist.io (License owner: CIMMYT. Creator Pro License Number – 159864).
Collaboration between food security institutions and research organizations has contributed to improvements in global grain production that have benefitted millions of farmers around the world – and must continue today. This message was highlighted during a ceremony hosted by the International Maize and Wheat Improvement Center (CIMMYT) to recognize the legacy of World Food Laureate and former CIMMYT Wheat Program Director Sanjaya Rajaram.
The ceremony, held at the CIMMYT Experimental Station in Toluca, State of Mexico, officially dedicated the Station in honor of Sanjaya Rajaram, honoring his memory as an “enemy of world hunger” and one of the scientists who has most contributed to global food security.
The Indian-born naturalized Mexican researcher, who was the third person from CIMMYT to receive the World Food Prize, was recognized for having developed more than 480 high-yielding and adaptable wheat varieties that have been planted on approximately 58 million hectares around the world.
“For this impressive achievement, which seems easy to summarize in one sentence, Raj became a giant of the ‘right to food’ and one of the fiercest enemies of hunger in the world,” said CIMMYT Director General Bram Govaerts.
“Building on the work of Dr. Norman Borlaug, Dr. Sanjaya Rajaram was a driving force in making CIMMYT into the extraordinary institution that it is today,” said Claudia Sadoff, Managing Director, Research Delivery and Impact of CGIAR, a global research partnership of which CIMMYT is a member.
“The challenges of today compel us to redouble our efforts to breed more resilient and more nutritious crops, as Dr. Sanjaya Rajaram did, Sadoff added. “This ceremony reminds us that Dr Rajaram’s legacy and the ongoing efforts of CIMMYT and CGIAR scientists must answer that.”
Awards for international cooperation in food security
At the event, CIMMYT presented awards to the Secretary of Foreign Affairs of Mexico, Marcelo Ebrard Casaubón, and of Secretary of Agriculture and Rural Development (SADER), Víctor Villalobos Arámbula, for their promotion of food security and social inclusion in Mexico and Latin America.
The Secretary of Foreign Affairs of Mexico expressed his gratitude for the Norman E. Borlaug and reaffirmed his commitment to “work in the international arena as we have done, but now we will have to work harder, with greater intensity.”
The Secretary of Agriculture and Rural Development of Mexico, Víctor Villalobos Arámbula, emphasized that Mexico, Latin America and CIMMYT play an important role in the struggle to improve the conditions of small-scale farmers and the resilience of agri-food systems, noting that more than 300,000 farmers grow maize, wheat and associated crops on over one million hectares in Mexico using sustainable technologies from the CIMMYT-led MasAgro project, now called Crops for Mexico.
“Throughout this administration,” he said, “we have designed, implemented and refined, through collaboration between SADER and CIMMYT, sustainable development strategies with a systemic approach that facilitates the participation of producers in more integrated and efficient value chains both in Mexico and in other countries.”
India’s Ambassador to Mexico, Pankaj Sharma, highlighted that his nation owes a large part of its Green Revolution to the “Sonora” wheat variety, which was developed in Mexico, a country that is considered one of the cradles of agriculture at a global level, with arable land accounting for 15 percent of the total land dedicated to agriculture in the world.
Report on the results of the Crops for Mexico initiative
CIMMYT’s Wheat Germplasm Bank Curator and Genotyping Specialist Carolina Sansaloni presented highlighted impacts from Crops for Mexico, the main cooperative project between the Government of Mexico — through the Secretary of Agriculture and Rural Development — and CIMMYT, and a flagship initiative in the application of technologies in sustainable agriculture.
The project has been in operation for more than a decade in 28 states in Mexico, with the collaboration of more than 100 national and international partners and private and public sector agencies in 12 regions, offering research infrastructure and training development for sustainable agronomic practices, she explained.
She reported that the results of 40 platforms, 500 demonstration modules and two thousand extension areas have an impact on more than one million hectares and benefit 300,000 maize, wheat and bean producers, with the use of high-yield varieties.
Rosalinda Muñoz Tafolla, a maize farmer in Amacuzac, in the Mexican state of Morelos, explained that her drive to produce healthy food led her to participate in Crops for Mexico, where CIMMYT’s support and advice has enabled her to dramatically increase her farm’s productivity while protecting the soil and conserving natural resources.
She explained that with the conservation agriculture system she learned to improve soil conditions, planted a new maize variety, and was supported in marketing her harvest at a good price and selling 2,000 maize ears (mostly weighing 200 grams each).
Global food prices were already increasing when the world’s wheat supply came under extra pressure, due to Russia’s war on Ukraine. We don’t know whether the farmers who have made Ukraine the fifth-largest exporter of wheat will produce anything in 2022.
Food security is bound to fall, with the greatest impact to be felt by those most vulnerable first. Ukrainians are bearing the worst of it, of course, but the fallout from Vladimir Putin’s cruelty will affect us all.
The problem would be much worse if a remarkable group of scientists had not dedicated themselves in the last century to the improvement of agriculture, in work that continues today and promises to make the future a little more hopeful.
My family witnessed the work of these scientists up close. Our farm is in the state of Tlaxcala, in the highlands east of Mexico City. We grow corn, barley, sunflower, and triticale, which is a hybrid of wheat and rye.
During the 1950s and 1960s, Norman Borlaug brought teams of agronomists to our region as he worked to improve wheat’s germplasm. I wasn’t born at that time, so I couldn’t meet Dr. Borlaug at our farm, but he came many times across several summers. I’ve heard the stories: As my father worked with Borlaug in the fields, growing the seeds that would help Borlaug produce a better kind of wheat, my mother made sure that our house was in order so that Borlaug and his companions had proper accommodations.
Today, of course, Dr. Borlaug is a legend: In 1970, he won the Nobel Peace Prize. Hailed as “the father of the Green Revolution,” he arguably saved hundreds of millions of lives through science-based improvements to the wheat germplasm.
The result is that wheat farmers around the world grow a lot stronger, healthier wheat today. No matter where we live, we’re better able to deal with problems of scarcity.
Drought, disease, and war still possess the horrible potential to inflict suffering, but we’re in fact much more capable of dealing with them because of what Dr. Borlaug and his fellow researchers accomplished decades ago.
Their work continues today at the International Wheat and Maize Improvement Center, also known as CIMMYT (in its Spanish acronym). Founded by the Mexican government and the Rockefeller Foundation, this non-profit group devoted itself to improving the productivity of Mexican farmers. It became the institutional home of Borlaug, whose work was so successful it transformed agriculture not just in Mexico but around the world.
Mexican farmers gained from its work, and so did wheat farmers in India, Pakistan, and elsewhere. In fact, everybody wins: The world has much more wheat today because of Borlaug and CIMMYT.
I’m a special beneficiary, and not just because of my family’s historical connection to CIMMYT. I live within driving distance of CIMMYT’s headquarters, which is a sanctuary of knowledge. It enjoys an amazing history, but also holds a promising future: It remains a resource for improvements in agriculture.
As an agronomist, I always believed that science is a status improver. Because of CIMMYT, I’m a better farmer today than I was just a few years ago, and I’ll be even better in the years ahead.
CIMMYT’s Karim Ammar taught me about triticale, which is producing great results on my farm. As science has progressed and with the conjunction of science and technology, farmers are able to improve productivity and have better soils. Today, Bram Govaerts, who is now CIMMYT’s Director General, introduced me to the value of no-till, which is making my farm both more productive and more sustainable.
Dr. Borlaug’s dying words were “take it to the farmers.” That’s exactly what his successors at CIMMYT are doing. They’re adapting cutting-edge technologies to agriculture. The best part, though, is that they don’t keep their knowledge locked up in labs. They share what they learn with farmers like me, who can apply them to the practical work of food production.
Agriculture will face plenty of tests in the 21st century. The world’s population continues to grow, but our arable land doesn’t increase with it. That means we must continue to produce more food from the farms we already have. At the same time, we must contend with the threat of climate change and make our methods more sustainable, which means preserving biodiversity, conserving water, and kidnapping carbon.
Amid these challenges, Russia’s invasion of Ukraine, a globally important farming nation, is adding stress to the challenge of global food security. As we watch a country and its innocent people suffer, we aren’t thinking much about wheat germplasms—but we should be grateful that CIMMYT’s agronomists have made us all a little more resilient.
Read the original article: CIMMYT and a farmer
India has conferred posthumously upon Sanjaya Rajaram, 2014 World Food Prize laureate and former wheat breeder and Director of the Wheat Program at the International Maize and Wheat Improvement Center (CIMMYT), its prestigious 2022 Padma Bhushan Award in “Science and Engineering” in recognition of “distinguished service of high order.”
Among the most successful crop breeders in history, Rajaram, who passed away in 2021, personally oversaw the development of nearly 500 high-yielding and disease-resistant wheat varieties that were grown on at least 58 million hectares in over 50 countries, increasing global wheat production by more than 200 million tons and especially benefiting hundreds of millions of the resource-poor whose diets and livelihoods depend on this critical crop. In India and the neighboring South Asian nations of Bangladesh, Nepal, and Pakistan, inhabitants consume more than 120 million tons of wheat and wheat-based foods each year.
“Dr. Rajaram was a true titan of wheat breeding and an inspiration for young researchers, training and mentoring more than 700 scientists from developing countries worldwide,” said Bram Govaerts, CIMMYT director general. “He was also a complete gentleman, comporting himself with modesty and grace despite his many honors and accomplishments; his first priority was helping and crediting others. Rajaram is an example today for all of us to keep working with the final stakeholder — the farmer — in mind.”
The rise from rural beginnings
Born on a small farm in District Varanasi, Uttar Pradesh, India, in 1943, Rajaram studied genetics and plant breeding at the Indian Agricultural Research Institute in New Delhi. After receiving his Ph.D. from the University of Sydney, he joined CIMMYT in 1969, working as a wheat breeder alongside Nobel Prize Laureate and CIMMYT scientist Norman Borlaug in Mexico. Recognizing his talent and initiative, Borlaug appointed Rajaram as head of CIMMYT’s wheat breeding program at just 29 years of age.
The Padma Bhushan Award was announced by President Ram Nath Kovind of India on the country’s Republic Day, January 26. In 2015, Rajaram received the Pravasi Bharatiya Samman award, the highest honor conferred on Indians overseas. In 2001 he accepted the Padma Shri award from the government of India and, in 1998, the Friendship Award from the government of China.
Though a plant breeder and scientist by profession, Rajaram used the platform of his 2014 World Food Prize to promote an expansive, integrated vision for agricultural development. “If we want to make a change, research won’t do it alone; we need to work directly with farmers and to train young agronomists, ensuring they have a broad vision to address the problems in farmers’ fields,” Rajaram said at a news conference in Mexico City in 2014.
Rajaram also served as Director of the Integrated Gene Management Program at the International Center for Agricultural Research in the Dry Areas (ICARDA) before formally retiring in 2008. In his retirement, he continued as a special scientific advisor to CIMMYT and ICARDA.
Longstanding partners pushing forward for farmers
“India’s agricultural research community is proud of the distinguished achievements of Dr. Rajaram,” said Trilochan Mohapatra, Director General of the Indian Council of Agricultural Research (ICAR) and Secretary of the Department of Agricultural Research and Education (DARE), of India’s Ministry of Agriculture and Farmers’ Welfare. “ICAR greatly appreciates its valuable collaborations with CIMMYT to help farmers grow better crops and conserve resources under increasingly challenging conditions.”
The partnership of India with CIMMYT harks back to the 1960s-70s, when Indian farmers tripled national wheat yields in a few years by growing Borlaug’s high-yield wheat varieties and adopting improved farming practices.
In 2011, India and CIMMYT jointly launched the Borlaug Institute for South Asia (BISA) to improve cropping systems and food security, helping farmers to confront climate change and natural resource scarcities, among other challenges.
S. Ayyappan, former ICAR Director General who signed the joint declaration of intent for BISA’s establishment in India, has been honored with the 2022 Padma Shri Award.
CIMMYT is a non-profit international agricultural research and training organization focusing on two of the world’s most important cereal grains, maize and wheat, and related cropping systems and livelihoods. Wheat varieties derived from CIMMYT and ICARDA research cover more than 100 million hectares — nearly two-thirds of the area sown to improved wheat worldwide — and bring benefits in added grain worth as much as $3.8 billion each year.
World-renowned plant breeder Ravi Singh, whose elite wheat varieties reduced the risk of a global pandemic and now feed hundreds of millions of people around the world, has been announced as the 2021 Borlaug Global Rust Initiative (BGRI) Lifetime Achievement Award recipient.
Singh, distinguished scientist and head of Global Wheat Improvement at the International Maize and Wheat Improvement Center (CIMMYT), endowed hundreds of modern wheat varieties with durable resistance to fungal pathogens that cause leaf rust, stem rust, stripe rust and other diseases during his career. His scientific efforts protect wheat from new races of some of agriculture’s oldest and most devastating diseases, safeguard the livelihoods of smallholder farmers in the most vulnerable areas in the world, and enhance food security for the billions of people whose daily nutrition depends on wheat consumption.
“Ravi’s innovations as a scientific leader not only made the Cornell University-led Borlaug Global Rust Initiative possible, but his breeding innovations are chiefly responsible for the BGRI’s great success,” said Ronnie Coffman, vice chair of the BGRI and international professor of global development at Cornell’s College of Agriculture and Life Sciences. “Perhaps more than any other individual, Ravi has furthered Norman Borlaug’s and the BGRI’s goal that we maintain the global wheat scientific community and continue the crucial task of working together across international borders for wheat security.”
In the early 2000s, when a highly virulent rust race discovered in East Africa threatened most of the world’s wheat, Singh took a key leadership role in the formation of a global scientific coalition to combat the threat. Along with Borlaug, Coffman and other scientists, he served as a panel member on the pivotal report alerting the international community to the Ug99 outbreak and its potential impacts to global food security. That sounding of the alarm spurred the creation of the BGRI and the collaborative international effort to stop Ug99 before it could take hold on a global scale.
As a scientific objective leader for the BGRI’s Durable Rust Resistance in Wheat and Delivering Genetic Gain in Wheat projects, Singh led efforts to generate and share a series of elite wheat lines featuring durable resistance to all three rusts. The results since 2008 include resistance to the 12 races of the Ug99 lineage and new, high-temperature-tolerant races of stripe rust fungus that had been evolving and spreading worldwide since the beginning of the 21st century.
“Thanks to Ravi Singh’s vision and applied science, the dire global threat of Ug99 and other rusts has been averted, fulfilling Dr. Borlaug’s fervent wishes to sustain wheat productivity growth, and contributing to the economic and environmental benefits from reduced fungicide use,” Coffman said. “Ravi’s innovative research team at CIMMYT offered crucial global resources to stop the spread of Ug99 and the avert the human catastrophe that would have resulted.”
An innovative wheat breeder known for his inexhaustible knowledge and attention to genetic detail, Singh helped establish the practice of “pyramiding” multiple rust-resistance genes into a single variety to confer immunity. This practice of adding complex resistance in a way that makes it difficult for evolving pathogens to overcome new varieties of wheat now forms the backbone of rust resistance breeding at CIMMYT and other national programs.
The global champion for durable resistance
Ravi joined CIMMYT in 1983 and was tasked by his supervisor, mentor and friend, the late World Food Prize Winner Sanjaya Rajaram, to develop wheat lines with durable resistance, said Hans Braun, former director of CIMMYT’s Global Wheat Program.
“Ravi did this painstaking work — to combine recessive resistance genes — for two decades as a rust geneticist and, as leader of CIMMYT’s Global Spring Wheat Program, he transferred them at large scale into elite lines that are now grown worldwide,” Braun said. “Thanks to Ravi and his colleagues, there has been no major rust epidemic in the Global South for years, a cornerstone for global wheat security.”
Alison Bentley, Director of CIMMYT’s Global Wheat Program, said that “Building on Ravi’s exceptional work throughout his career, deployment of durable rust resistance in widely adapted wheat germplasm continues to be a foundation of CIMMYT’s wheat breeding strategy.”
Revered for his determination and work ethic throughout his career, Singh has contributed to the development of 649 wheat varieties released in 48 countries, working closely with scientists at national wheat programs in the Global South. Those varieties today are sown on approximately 30 million hectares annually in nearly all wheat growing countries of southern and West Asia, Africa and Latin America. Of these varieties, 224 were developed directly under his leadership and are grown on an estimated 10 million hectares each year.
In his career Singh has authored 328 refereed journal articles and reviews, 32 book chapters and extension publications, and more than 80 symposia presentations. He is regularly ranked in the top 1% of cited researchers. The CIMMYT team that Singh leads identified and designated 22 genes in wheat for resistance or tolerance to stem rust, leaf rust, stripe rust, powdery mildew, barley yellow dwarf virus, spot blotch, and wheat blast, as well as characterizing various other important wheat genome locations contributing to durable resistance in wheat.
Singh’s impact as a plant breeder and steward of genetic resources over the past four decades has been extraordinary, according to Braun: “Ravi Singh can definitely be called the global champion for durable resistance.”
This piece by Matt Hayes was originally posted on the BGRI website.
After a 37-year career, Hans-Joachim Braun is retiring from the International Maize and Wheat Improvement Center (CIMMYT). As the director of the Global Wheat Program and the CGIAR Research Program on Wheat, Braun’s legacy will resonate throughout halls, greenhouses and fields of wheat research worldwide.
We caught up with him to capture some of his career milestones, best travel stories, and vision for the future of CIMMYT and global wheat production. And, of course, his retirement plans in the German countryside.
Major career milestones
Native to Germany, Braun moved to Mexico in 1981 to complete his PhD research at CIMMYT’s experimental station in Obrégon, in the state of Sonora. His research focused on identifying the optimum location to breed spring wheat for developing countries — and he found that Obrégon was in fact the ideal location.
His first posting with CIMMYT was in Turkey in 1985, as a breeder in the International Winter Wheat Improvement Program (IWWIP). This was the first CGIAR breeding program hosted by a CIMMYT co-operator, that later developed into the joint Turkey, CIMMYT and the International Center for Agricultural Research in the Dry Areas (ICARDA) winter wheat program. “In 1990, when the Commonwealth of Independent States was established, I saw this tremendous opportunity to work with Central Asia to develop better wheat varieties,” he said. “Today, IWWIP varieties are grown on nearly 3 million hectares.”
Although Braun was determined to become a wheat breeder, he never actually intended to spend his entire career with one institution. “Eventually I worked my entire career for CIMMYT. Not so usual anymore, but it was very rewarding. CIMMYT is at my heart; it is what I know.”
“Make the link to the unexpected”
One of Braun’s standout memories was a major discovery when he first came to Turkey. When evaluating elite lines from outside the country — in particular lines from a similar environment in the Great Plains — his team noticed they were failing but nobody knew why.
Two of his colleagues had just returned from Australia, where research had recently identified micronutrient disorders in soil as a major constraint for cereal production. The team tried applying micro-nutrients to wheat plots, and it became crystal clear that zinc deficiency was the underlying cause. “Once aware that micro-nutrient disorders can cause severe growth problems, it was a minor step to identify boron toxicity as another issue. Looking back, it was so obvious. The cover picture of a FAO book on global soil analysis showed a rice field with zinc deficiency, and Turkey produces more boron than the rest of the world combined.”
“We tested the soil and found zinc deficiency was widespread, not just in the soils, but also in humans.” This led to a long-term cooperation with plant nutrition scientists from Cukurova University, now Sabanci University, in Istanbul.
But zinc deficiency did not explain all growth problems. Soil-borne diseases — cyst and lesion nematodes, and root and crown rot — were also widespread. In 1999, CIMMYT initiated a soil-borne disease screening program with Turkish colleagues that continues until today. Over the coming decade, CIMMYT’s wheat program will make zinc a core trait and all lines will have at least 25% more zinc in the grain than currently grown varieties.
After 21 years in Turkey, Braun accepted the position as director of CIMMYT’s Global Wheat Program and moved back to Mexico.
Partnerships and friendships
Braun emphasized the importance of “mutual trust and connections,” especially with cooperators in the national agricultural research systems of partner countries. This strong global network contributed to another major milestone in CIMMYT wheat research: the rapid development and release of varieties with strong resistance to the virulent Ug99 race of wheat rust. This network, led by Cornell University, prevented a potential global wheat rust epidemic.
CIMMYT’s relationship with Mexico’s Ministry of Agriculture and the Obregón farmers union, the Patronato, is especially important to Braun.
In 1955, Patronato farmers made 200 hectares of land available, free if charge, to Norman Borlaug. The first farm community in the developing world to support research, it became CIMMYT’s principal wheat breeding experimental station: Norman Borlaug Experimental Station, or CENEB. When Borlaug visited Obregón for the last time in 2009, the Patronato farmers had a big surprise.
“I was just getting out of the shower in my room in Obregón when I got a call from Jorge Artee Elias Calles, the president of the Patronato,” Braun recalls. “He said, ‘Hans, I’m really happy to inform you that Patronato decided to donate $1 million.’”
The donation, in honor of Borlaug’s lifetime of collaboration and global impact, was given for CIMMYT’s research on wheat diseases.
“This relationship and support from the Obregón farmers is really tremendous,” Braun says. “Obregón is a really special place to me. I am admittedly a little bit biased, because Obregón gave me a PhD.”
A worldwide perspective
Braun’s decades of international research and travel has yielded just as many stories and adventures as it has high-impact wheat varieties.
He remembers seeing areas marked with red tape as he surveyed wheat fields in Afghanistan in the 1990s, and the shock and fear he felt when he was informed that they were uncleared landmine areas. “I was never more scared than in that moment, and I followed the footsteps of the guy in front of me exactly,” Braun recalls.
On a different trip to Afghanistan, Braun met a farmer who had struggled with a yellow rust epidemic and was now growing CIMMYT lines that were resistant to it.
“The difference between his field and his neighbors’ was so incredible. When he learned I had developed the variety he was so thankful. He wanted to invite me to his home for dinner. Interestingly, he called it Mexican wheat, as all modern varieties are called there, though it came from the winter wheat program in Turkey.”
Seeing the impact of CIMMYT’s work on farmers was always a highlight for Braun.
CIMMYT’s future
Braun considers wheat research to be still in a “blessed environment” because a culture of openly-shared germplasm, knowledge and information among the global wheat community is still the norm. “I only can hope this is maintained, because it is the basis for future wheat improvement.”
His pride in his program and colleagues is clear.
“A successful, full-fledged wheat breeding program must have breeders, quantitative genetics, pathology, physiology, molecular science, wide crossing, quality, nutrition, bioinformatics, statistics, agronomy and input from economists and gender experts,” in addition to a broad target area, he remarked at an acceptance address for the Norman Borlaug Lifetime Achievement award.
“How many programs worldwide have this expertise and meet the target criteria? The Global Wheat Program is unique — no other wheat breeding program has a comparable impact. Today, around 60 million hectares are sown with CIMMYT-derived wheat varieties, increasing the annual income of farmers by around $3 billion dollars. Not bad for an annual investment in breeding of around $25 million dollars. And I don’t take credit for CIMMYT only, this is achieved through the excellent collaboration we have with national programs.”
A bright future for wheat, and for Braun
After retirement, Braun is looking forward to settling in rural Inzlingen, Germany, and being surrounded by the beautiful countryside and mountains, alongside his wife Johanna. They look forward to skiing, running, e-biking and other leisure activities.
“One other thing I will try — though most people will not believe me because I’m famous for not cooking — but I am really looking into experimenting with flour and baking,” he says.
Despite his relaxing retirement plans, Braun hopes to continue to support wheat research, whether it is through CIMMYT or through long friendships with national partners, raising awareness of population growth, the “problem of all problems” in his view.
“We have today 300 million more hungry people than in 1985. The road to zero hunger in 2030 is long and will need substantial efforts. In 1970, Organization for Economic Co-Operation and Development (OECD) countries agreed to spend 0.7% of GDP on official development assistance. Today only 6 countries meet this target and the average of all OECD countries has never been higher than 0.4%. Something needs to change to end extreme poverty — and that on top of COVID-19. The demand for wheat is increasing, and at the same time the area under wheat cultivation needs to be reduced, a double challenge. We need a strong maize and wheat program. The world needs a strong CIMMYT.”
Cover photo: Hans Braun, Director of the Global Wheat Program at the International Maize and Wheat Improvement Center (CIMMYT), inspects wheat plants in the greenhouses. (Photo: Alfonso Cortés/CIMMYT)
Hans Braun, director of the Global Wheat Program at the International Maize and Wheat Improvement Center (CIMMYT), has received the Norman Borlaug Lifetime Achievement Award for nearly four decades of wheat research. He received the award on October 9, 2020, during the virtual Borlaug Global Rust Initiative (BGRI) Technical Workshop.
“We rest on the shoulders of a lot of mighty people who have come before us,” said Ronnie Coffman, vice chair of BGRI, speaking to a global audience of wheat scientists and farmers as he presented four individuals with the award. “Each of these individuals has contributed to the improvement of wheat and smallholder livelihoods in major and enduring ways.”
Responsible for technical direction and implementation of the Global Wheat Program at CIMMYT and the CGIAR Research Program on Wheat (WHEAT), Braun leads and manages a team of 40 international scientists who develop wheat germplasm. This germplasm is distributed to around 200 cooperators in wheat-producing countries worldwide, and is responsible for the derived varieties being grown on more than 50% of the spring wheat area in developing countries.
Lifetime achievement
“In his 35 years with CIMMYT, Hans has become familiar with all major wheat-based cropping systems in the developing and developed world,” said Coffman, who called Braun an important collaborator and close personal friend.
“Hans was integral to the BGRI’s efforts in preventing Ug99 and related races of rust from taking out much of the 80% of the world’s wheat that was susceptible when Ug99 was first identified in 1999,” Coffman explained. He “has been an integral partner in the development and implementation of the Durable Rust Research in Wheat (DRRW) and Delivering Genetic Gain in Wheat (DGGW) projects.”
Braun delivered a keynote speech accepting the award and discussing the bright future of wheat, despite the many challenges that lie ahead.
“The future of wheat improvement in developing countries remains on the shoulders of public organizations and institutions. It is paramount that we share germplasm, information and knowledge openly,” he said.
He emphasized the need to “keep the herd together” and maintain strong, global partnerships.
Braun also noted the importance of continuing to improve nutritional content, growing within planetary boundaries, and taking farmers’ preferences seriously. He highlighted CIMMYT’s exceptional capacity as one of the world’s largest and most impactful wheat breeding programs, and encouraged national partners to continue their close collaboration.
He recalled what Norman Borlaug told him in 2004, when he became head of the Global Wheat Program: “Hans, I have confidence you can lead the program and I will always help you” — and how he did.
“I would like to thank all with whom I cooperated over four decades and who contributed to make CIMMYT’s program strong,” concluded Hans. “I am very optimistic that the global wheat community will continue to develop the varieties farmers need to feed 10 billion.”
This story was first posted on the BGRI blog and on the WHEAT website.
Learn more about the other distinguished scientists receiving this award, and the Technical Workshop outcomes, on the BGRI website.
On December 10, 1970, the former chair of the Nobel Committee, Aase Lionaes, called Norman Borlaug to receive the Nobel Peace Prize arguing, “He has given us a well-founded hope, an alternative of peace and of life — the Green Revolution.”
From that moment, Borlaug became known as “the man who saved one billion lives” from famine and as “the father of the Green Revolution.” Borlaug started a pivotal process in the 20th century, characterized by the development of high-yielding new wheat and maize varieties from the International Maize and Wheat Improvement Center (CIMMYT).
“Food is the moral right of all who are born into this world,” Borlaug said during his acceptance speech or Nobel Lecture almost 50 years ago. The scientist, credited for coining the phrase “You can’t build peace on empty stomachs,” became the world’s most acknowledged advocate of the right to food.
The Nobel Peace Center, the government of Mexico — through its Embassy in Oslo, Norway — and CIMMYT remembered Norman Borlaug’s legacy to commemorate the International Day of Peace on September 21. Established in 1981 by the United Nations General Assembly, this day calls to halt all forms of violence for 24 hours and to strengthen the ideals of peace, including Sustainable Development Goal number 2, ‘zero hunger.’
“Dr. Borlaug’s impact is an example of international cooperation for us to learn from and build the future,” said Ulises Canchola Gutiérrez, Mexico’s Ambassador to Norway, in the video Borlaug’s legacy: Agriculture for Peace #PeaceDay 2020.
According to the Nobel Peace Center, “Dr. Norman Borlaug’s work is one of the greatest achievements for humankind.” On a similar note, CIMMYT’s director general, Martin Kropff, noted that “Peace lies in the hands of those who cultivate the land. We can build peace through agriculture.”
CIMMYT carries on Borlaug’s legacy by implementing integrated strategic development projects that aim to transform food production units into sustainable, resilient and healthy agri-food systems. For that reason, CIMMYT issued a call to form an international coalition to tackle the current crisis and avert a new food crisis.
“Norman Borlaug led the charge in the war against hunger more than 50 years ago; let us learn from this experience, let us do it again together by listening to the current crisis and by developing a matching transformative answer to overcome today’s challenges and shortcomings,” said Bram Govaerts, director of CIMMYT’s Integrated Development program and representative for the Americas.
The process for breeding for grain yield in bread wheat at the International Maize and Wheat Improvement Center (CIMMYT) involves three-stage testing at an experimental station in the desert environment of Ciudad Obregón, in Mexico’s Yaqui Valley. Because the conditions in Obregón are extremely favorable, CIMMYT wheat breeders are able to replicate growing environments all over the world and test the yield potential and climate-resilience of wheat varieties for every major global wheat growing area. These replicated test areas in Obregón are known as selection environments (SEs).
This process has its roots in the innovative work of wheat breeder and Nobel Prize winner Norman Borlaug, more than 50 years ago. Wheat scientists at CIMMYT, led by wheat breeder Philomin Juliana, wanted to see if it remained effective.
The scientists conducted a large quantitative genetics study comparing the grain yield performance of lines in the Obregón SEs with that of lines in target growing sites throughout the world. They based their comparison on data from two major wheat trials: the South Asia Bread Wheat Genomic Prediction Yield Trials in India, Pakistan and Bangladesh initiated by the U.S. Agency for International Development Feed the Future initiative and the global testing environments of the Elite Spring Wheat Yield Trials.
The findings, published in Retrospective Quantitative Genetic Analysis and Genomic Prediction of Global Wheat Yields, in Frontiers in Plant Science, found that the Obregón yield testing process in different SEs is very efficient in developing high-yielding and resilient wheat lines for target sites.
The authors found higher average heritabilities, or trait variations due to genetic differences, for grain yield in the Obregón SEs than in the target sites (44.2 and 92.3% higher for the South Asia and global trials, respectively), indicating greater precision in the SE trials than those in the target sites. They also observed significant genetic correlations between one or more SEs in Obregón and all five South Asian sites, as well as with the majority (65.1%) of the Elite Spring Wheat Yield Trial sites. Lastly, they found a high ratio of selection response by selecting for grain yield in the SEs of Obregón than directly in the target sites.
“The results of this study make it evident that the rigorous multi-year yield testing in Obregón environments has helped to develop wheat lines that have wide-adaptability across diverse geographical locations and resilience to environmental variations,” said Philomin Juliana, CIMMYT associate scientist and lead author of the article.
“This is particularly important for smallholder farmers in developing countries growing wheat on less than 2 hectares who cannot afford crop losses due to year-to-year environmental changes.”
In addition to these comparisons, the scientists conducted genomic prediction for grain yield in the target sites, based on the performance of the same lines in the SEs of Obregón. They found high year-to-year variations in grain yield predictabilities, highlighting the importance of multi-environment testing across time and space to stave off the environment-induced uncertainties in wheat yields.
“While our results demonstrate the challenges involved in genomic prediction of grain yield in future unknown environments, it also opens up new horizons for further exciting research on designing genomic selection-driven breeding for wheat grain yield,” said Juliana.
This type of quantitative genetics analysis using multi-year and multi-site grain yield data is one of the first steps to assessing the effectiveness of CIMMYT’s current grain yield testing and making recommendations for improvement—a key objective of the new Accelerating Genetic Gains in Maize and Wheat for Improved Livelihoods (AGG) project, which aims to accelerate the breeding progress by optimizing current breeding schemes.
This work was made possible by the generous support of the Delivering Genetic Gain in Wheat (DGGW) project funded by the Bill & Melinda Gates Foundation and the UK Foreign, Commonwealth & Development Office (FCDO) and managed by Cornell University; the U.S. Agency for International Development’s Feed the Future initiative; and several collaborating national partners who generated the grain yield data.
Read the full article: Retrospective Quantitative Genetic Analysis and Genomic Prediction of Global Wheat Yields
This story was originally posted on the website of the CGIAR Research Program on Wheat (wheat.org).
Cover photo: Wheat fields at CIMMYT’s Campo Experimental Norman E. Borlaug (CENEB) in Ciudad Obregón, Mexico. (Photo: CIMMYT)
A new fact sheet captures the impact of CIMMYT after six decades of maize and wheat research in Pakistan.
Dating back to the 1960s, the research partnership between Pakistan and CIMMYT has played a vital role in improving food security for Pakistanis and for the global spread of improved crop varieties and farming practices.
Norman Borlaug, Nobel Peace Prize laureate and first director of CIMMYT wheat research, kept a close relationship with the nation’s researchers and policymakers. CIMMYT’s first training course participant from Pakistan, Manzoor A. Bajwa, introduced the high-yielding wheat variety “Mexi-Pak” from CIMMYT to help address the national food security crisis. Pakistan imported 50 tons of Mexi-Pak seed in 1966, the largest seed purchase of its time, and two years later became the first Asian country to achieve self-sufficiency in wheat, with a national production of 6.7 million tons.
In 2019 Pakistan harvested 26 million tons of wheat, which roughly matches its annual consumption of the crop.
In line with Pakistan’s National Food Security Policy and with national partners, CIMMYT contributes to Pakistan’s efforts to intensify maize- and wheat-based cropping in ways that improve food security, raise farmers’ income, and reduce environmental impacts. This has helped Pakistani farmers to figure among South Asia’s leaders in adopting improved maize and wheat varieties, zero tillage for sowing wheat, precision land leveling, and other innovations.
With funding from USAID, since 2013 CIMMYT has coordinated the work of a broad network of partners, both public and private, to boost the productivity and climate resilience of agri-food systems for wheat, maize, and rice, as well as livestock, vegetable, and fruit production.
Download the fact sheet:
CIMMYT and Pakistan: 60 years of collaboration
Cover photo: A wheat field in Pakistan, ready for harvest. (Photo: Kashif Syed/CIMMYT)
Norman Borlaug was awarded the Nobel Peace Prize in 1970 in recognition of his contributions to world peace through increasing food production. In the latest episode of the BBC radio show Witness History, Rebecca Kesby interviews Ronnie Coffman, student and friend of Norman Borlaug.
Among other stories, Coffman recalls the moment when Borlaug was notified about the Nobel Prize — while working in the wheat fields in Mexico — and explores what motivated Borlaug to bring the Green Revolution to India.
Simon N. Groot is the winner of the 2019 World Food Prize. With this award, food and agriculture leaders recognize his work to increase vegetable production in more than 60 countries, through the development of high-quality seeds and training programs for farmers.
Groot’s efforts were crucial in leading millions of farmers to become horticulture entrepreneurs, resulting in improved incomes and livelihoods for them, and greater availability of nutritious vegetables for hundreds of millions of consumers.
Like small-town Iowa farm boy Norman Borlaug, Groot comes from a small town in the Netherlands, where he learned the value of seeds at a young age. Both shared the same vision to feed the world and succeeded.
“I think I was born to be a vegetable seedsman.”
– Simon N. Groot
Groot devoted his whole life to the seed and plant breeding industry. After 20 years in the industry in Europe and North America, Groot travelled to southeast Asia at the age of 47 with a vision to set up the region’s first vegetable seed breeding company. Frustrated by the poor quality seeds he found and noticing a total lack of commercial breeding activities in the region, Groot decided to set up his own company, using his own capital, partnering with Benito Domingo, a Philippines local with a passion for seeds and local connections to the traditional seed trade, agriculture industry and universities.
The company, named East-West Seed Company, started out as a small five-hectare farm outside Lipa City, Philippines. Groot brought over well-trained plant breeders from the Netherlands to begin plant breeding and help train locals as breeders and technicians. Groot was the first to introduce commercial vegetable hybrids in tropical Asia: varieties which were high-yielding, fast-growing and resistant to local diseases and stresses. Today, East-West Seed Company has over 973 improved varieties of 60 vegetable crops which are used by more than 20 million farmers across Asia, Africa and Latin America.
Inspired by Borlaug
Groot described meeting Dr. Borlaug at a conference in Indonesia in the late 1980s as “a pivotal moment” for him, writing that “his legacy has continued to serve as an inspiration for everything I have done at East-West Seed.”
In response to being awarded the 2019 World Food Prize, Groot wrote: “Bringing about the ‘Vegetable Revolution’ will be a fitting tribute to the work of Dr. Borlaug.”
The World Food Prize has been referred to as the “Nobel Prize for food and agriculture.” Awarded by the World Food Prize Foundation, it recognizes individuals who have advanced human development by improving the quality, quantity or availability of food in the world. Winners receive $250,000 in prize money.
The World Food Prize was founded in 1986 by Norman Borlaug, recipient of the 1970 Nobel Peace Prize.
The World Food Prize has a long association with CIMMYT. Sanjaya Rajaram was awarded the 2014 World Food Prize for his work that led to a prodigious increase in world wheat production. Evangelina Villegas and Surinder Vasal were awarded the 2000 World Food Prize for their work on productivity and nutritional content of maize. Bram Govaerts received the Norman Borlaug Field Award in 2014. As an institution, CIMMYT received the Norman Borlaug Field Medallion in 2014.
After declining for nearly a decade to around 770 million, in the last three years the number of hungry people has shot up to more than 850 million. At the same time, erratic weather and crop pests and diseases are ruining harvests, intensifying farmers’ risks, and threatening local and global food security.
In an article for Rural 21, I describe how plant breeding has changed over the last four decades and which methods the international research community is developing to master present and future challenges.