The war in Ukraine and the sanctions against Russia will disrupt wheat supply chains, fertilizer exports and other components of food systems. Their combined effect, along with other factors, could unchain a major food security crisis as well as increased inequality.
Explore our analysis and coverage on major media outlets and journals. To get in touch with our experts, please contact the media team.
CIMMYT scientists have also made available a summary of key facts and figures about the impact of the Russia-Ukraine war on wheat supply (PowerPoint, 32MB): changing patterns of consumption and effect on food prices, geographic export supply concentration, global wheat imports, and specific vulnerabilities particularly in the Global South.
The Russia-Ukraine conflict will cause massive disruptions to global wheat supply and food security. Agricultural research investments are the basis of resilient agri-food systems and a food-secure future.
War highlights the fragility of the global food supply — sustained investment is needed to feed the world in a changing climate, Alison Bentley explains on Nature.
A new Bloomberg op-ed urges nations to steer more money to organizations like CIMMYT that are advancing crucial research on how to grow more resilient wheat and maize crops in regions that are becoming steadily less arable.
The war in Ukraine, coupled with weather-related disruptions in the world’s major grain-producing regions, could unleash unbearable humanitarian consequences, civil unrest, and major financial losses worldwide, say Sharon E. Burke (Ecospherics) and Bram Govaerts (CIMMYT) on The Boston Globe.
The war in Ukraine, coupled with weather-related disruptions in the world’s major grain-producing regions, could unleash unbearable waves of displacement, humanitarian consequences, civil unrest, major financial losses worldwide, and geopolitical fragility, says Bram Govaerts, DG of CIMMYT, in a Boston Globe op-ed.
Mature wheat spikes. (Photo: Alfonso Cortés/CIMMYT)
The impacts of the Ukraine crisis are likely to reverberate over months, if not years, to come. If the reductions in wheat exports from Russia and Ukraine are as severe as anticipated, global supplies of wheat will be seriously constrained. If a major reduction in fertilizer exports comes to pass, the resulting drop in global productivity will tighten global markets for wheat, other grains and alternate food sources — leaving vulnerable people all over the world facing higher food prices, hunger and malnutrition.
These massive disruptions will erode modest progress made toward gender equality, biodiversity conservation and dietary diversification. The severe impact of this single shock shows the underlying fragility and complexity of our agri-food systems. Climate change will bring many more.
The world must take essential actions to mitigate food shocks, stabilize local wheat supplies and transition toward agri-food system resilience, from the current efficiency-driven model. We call for large and sustained agricultural research investments as a foundational element of any viable, food-secure future.
From chronic challenges to food crisis conditions
Global wheat production for export is geographically concentrated, placing inherent vulnerabilities on the global system. Dominance of the wheat export trade by a relatively small number of countries makes sense under an efficiency paradigm, but it opens the door to price spikes and food-related crises. At the same time, biophysical vulnerability of major global breadbaskets is on the rise as drought and other weather extremes increase volatility in cereal yields, exports and prices.
Russia and Ukraine produce 28% of the world’s total wheat exports and Russia is a globally important source of fuel and fertilizer. With over 2.5 billion people worldwide consuming wheat-based products and wheat futures at their highest levels since 2012, disrupted exports from Russia and Ukraine would usher in substantial new pressures on global wheat markets and tremendous risks for vulnerable populations around the world.
Dependence on wheat imports from Russia and Ukraine imperils food security in lower- and middle-income countries in North Africa and the Middle East (Algeria, Egypt, Libya, Morocco, Yemen), the Mediterranean (Azerbaijan, Turkey), sub-Saharan Africa (Nigeria, Sudan), Southern Asia (Bangladesh, Pakistan) and throughout Southeast Asia. Globally elevated food prices will hit hardest in those countries already struggling with food insecurity.
Layered onto the existing concentration of wheat-exporting countries and the climate-induced vulnerabilities in essential global breadbaskets, the crisis in Ukraine and trade sanctions on Russia are triggering a level of volatility that could easily overwhelm existing mitigation mechanisms. We may well see a range of negative effects over the short, medium and long term, including:
Severe food insecurity and economic impacts due to reduced global wheat supplies and price increases affecting all wheat-importing countries and humanitarian agencies.
Diminished global grain productivity due to fertilizer supply limitations and price escalation, especially in low-income, fertilizer-import-dependent countries.
Higher food prices and expanded global hunger and malnutrition as a result of tighter fuel supplies driving up costs of agricultural production.
Pressure on household budgets negatively affecting nutrition, health, education and gender equity.
The employee of an Ethiopian seed association smiles as bags of wheat seed are ready to be distributed. (Photo: Gerardo Mejía/CIMMYT)
Stabilize while building resilience
With these multi-layered challenges in view, we propose essential actions to mitigate near-term food security crises, to stabilize wheat supply and to concurrently transition toward agri-food system resilience.
Without doubt, the world’s top priority must be to mitigate food security crises at our doorstep. This will involve boosting wheat production through expanded acreage (e.g. in high-performing systems in the Global North) and closing yield gaps (e.g. improved management and value chains of rainfed, wheat-based systems in the Global South) using policy incentives such as price guarantees and subsidized agricultural inputs. Short-term food insecurity can also be addressed through demand-side management (e.g. market controls to conserve grain stocks for human consumption; use of lower-cost flour blends) and de-risking alternative sourcing (e.g. trade agreements).
As these actions are taken, a range of strategies can simultaneously drive toward more resilient wheat supply at local to global scales. Well-functioning seed systems, demand-driven agronomic support and other elements of wheat self-reliance can be encouraged through shifts in local policy, regulatory and sectoral contexts. Enhanced monitoring capacity can track spatial patterns in wheat cropping, including expansion into areas where comparative advantage for wheat production (e.g. agro-ecological suitability; supporting infrastructure) has been identified in rural development frameworks and national plans (e.g. as a double crop in Ethiopian midlands). In addition to enabling yield forecasts, surveillance systems are critical to phytosanitary control of geographically restricted pathogens under altered wheat trade routes.
Yet, these steps to mitigate food shocks and stabilize local wheat supplies will not adequately protect the world from climate-related biophysical risks to food and nutritional security. In parallel, a transition toward agri-food system resilience requires transformative investments in agricultural diversification, sustainable natural resource management and low-greenhouse-gas agroecosystems, as well as meaningful actions toward achieving gender equality, nutritional sufficiency and livelihood security.
Drone shot of wheat trials at CIMMYT global headquarters in Texcoco, Mexico. (Photo: Alfonso Cortés/CIMMYT)
Sustained research & development for a food-secure future
None of the critical actions described above are guaranteed given the oscillating global investment in agricultural research. Enabled by decades of agricultural research, the world has managed to constrain the number and severity of food security crises through major gains in agricultural productivity.
The International Maize and Wheat Improvement Center (CIMMYT), the global international wheat research Center of the CGIAR, has been working tirelessly to maintain wheat harvests around the world in the face of mounting disease pressures and climate challenges. The estimated benefit-cost ratio for wheat improvement research ranges from 73:1 to 103:1. Yet, research funding only rises when food crises occur, revealing the globalized risks of our highly interconnected agri-food systems, and then tapers as memories fade.
With limited resources, scientists around the world are attacking the complex challenge of increasing agricultural yields and ensuring stable, equitable food supplies. Receiving only about 2% of international agricultural research funding over time, CIMMYT and the entire CGIAR have had limited ability to develop the long-term research capabilities that could mitigate or prevent short-term emergencies with medium- to long-term effects.
Responding to the mounting pressures on deeply complex agri-food systems requires integrative solutions that allow farmers and other agri-food stakeholders to mitigate and withstand shocks and to achieve viable livelihoods. Knowledge and technology needs are extensive across production systems (e.g. wheat-legume intercropping; cereals-focused agroecological interventions), value chains (e.g. context-appropriate seed systems; nutrition enhancement through flour blending), monitoring systems (e.g. genomics-based surveillance), and social dimensions (e.g. gender implications of new production and consumption strategies; policy interventions).
Generating such solutions depends on robust, multidisciplinary and transparent research capabilities that fuel the transition to agri-food system resilience. Robust international investment in resilient agricultural systems is an essential condition for national security, global peace and prosperity.
In an analysis piece on Nature, the director of CIMMYT’s Global Wheat Program, Alison Bentley, highlights the expected income of the Russia-Ukraine war on food security.
In low-income nations, the ability of governments to continue to subsidize bread will be strained; the knock-on effects on overall government spending and provision of public services will reach far beyond wheat. The last time wheat prices increased sharply, in 2008, it precipitated food riots from Burkina Faso to Bangladesh.
An unprecedented level of international political and economic action is now required to safeguard the immediate food supply of those who are already vulnerable, including in the global south. At the same time, a range of agricultural interventions must be deployed to make the supply of wheat more resilient in the years ahead.
When wheat prices rise, so do global food prices, along with conflict, inequality and instability. Over the past two decades, the world has witnessed multiple crises erupt over the social and political instability caused by rising costs for staple cereals. The global food crisis that impacted many parts of the world in 2007–2008 was a response, in part, to the prices for wheat and rice which had increased 130% and 70%, respectively, compared to the year before. More recently, spikes in grain prices catalyzed the 2011 Arab Spring.
With the ongoing conflict in Ukraine and the resulting longer-term disruptions of the country’s rural economy, there is potential for another round of turmoil linked to prices for staple cereals.
Wheat is a staple crop, essential to food security. It is consumed by over 2.5 billion people worldwide, including large proportions of the populations of many food-insecure regions in the world. Many of the wheat-consuming countries in these regions are far from wheat self-sufficient, relying on global imports to meet demand. This causes significant vulnerability in food supply and increases associated humanitarian risks. In 2019, important quantities of Ukrainian wheat were exported to low- and middle-income countries in North Africa and the Middle East. Although the impacts of current price increases are anticipated to be short-term, they are likely to be inequitably felt, as not all buyers are able to pay higher prices.
There are over 6 million hectares of wheat planted in farmers’ fields across Ukraine that will be due for harvest in June and July of 2022. The length and depth of the current crisis has potential implications for the fate of this in-field crop, and for its subsequent harvest and global distribution. Likewise, sanctions and trading restrictions on Russia, the world’s largest wheat exporter — exporting $7.92 billion of wheat in 2020 — are likely to place added pressure on international wheat markets. This comes at a time of rising costs in agriculture, including the soaring price of nitrogen fertilizer and increasing fuel and supply chain costs. The gap between supply and demand is also becoming wider with climatic instability — such as drought conditions — hitting both domestic production and export stocks in several countries.
Rising prices for staple cereals have historically led to instability, particularly in fragile regions where food security is low. The impacts of current high wheat prices are likely to be felt most significantly by populations in the Global South who rely on wheat imports.
The potential humanitarian crisis beyond the borders of the current conflict needs to be addressed to avoid deepening global divisions in equality of access to food. In the case of wheat, long-term solutions will require much higher levels of investment, coordination and cooperation between governments, development organizations and agro-industry. Without doubt, part of the solution lies in increasing wheat productivity and profitability in food-insecure regions where wheat has traditionally been grown, as well as supporting the expansion of wheat production into climatically suitable areas in countries which have traditionally relied on imports to meet local demand.
Grafting wheat shoot to oat root gives the plant tolerance to a disease called “Take-all,” caused by a pathogen in soil. The white arrow shows the graft junction. (Photo: Julian Hibberd)
Grafting is the technique of joining the shoot of one plant with the root of another, so they continue to grow together as one. Until now it was thought impossible to graft grass-like plants in the group known as monocotyledons because they lack a specific tissue type, called the vascular cambium, in their stem.
Researchers at the University of Cambridge have discovered that root and shoot tissues taken from the seeds of monocotyledonous grasses — representing their earliest embryonic stages — fuse efficiently. Their results are published today in the journal Nature.
An estimated 60,000 plants are monocotyledons; many are crops that are cultivated at enormous scale, for example rice, wheat and barley.
The finding has implications for the control of serious soil-borne pathogens including Panama Disease, or Tropical Race 4, which has been destroying banana plantations for over 30 years. A recent acceleration in the spread of this disease has prompted fears of global banana shortages.
“We’ve achieved something that everyone said was impossible. Grafting embryonic tissue holds real potential across a range of grass-like species. We found that even distantly related species, separated by deep evolutionary time, are graft compatible,” said Julian Hibberd in the University of Cambridge’s Department of Plant Sciences, senior author of the report.
The technique allows monocotyledons of the same species, and of two different species, to be grafted effectively. Grafting genetically different root and shoot tissues can result in a plant with new traits — ranging from dwarf shoots, to pest and disease resistance.
Alison Bentley, CIMMYT Global Wheat Program Director and a contributor to the report, sees great potential for the grafting method to be applied to monocot crops grown by resource-poor farmers in the Global South. “From our major cereals, wheat and rice, to bananas and matoke, this technology could change the way we think about adapting food security crops to increasing disease pressures and changing climates.”
High magnification images show successful grafting of wheat in which a connective vein forms between root and shoot tissue after four months. White arrows show the graft junction. (Photo: Julian Hibberd)Monocotyledons breakthrough
The scientists found that the technique was effective in a range of monocotyledonous crop plants including pineapple, banana, onion, tequila agave and date palm. This was confirmed through various tests, including the injection of fluorescent dye into the plant roots — from where it was seen to move up the plant and across the graft junction.
“I read back over decades of research papers on grafting and everybody said that it couldn’t be done in monocots. I was stubborn enough to keep going — for years — until I proved them wrong,” said Greg Reeves, a Gates Cambridge Scholar in the University of Cambridge Department of Plant Sciences, and first author of the paper.
“It’s an urgent challenge to make important food crops resistant to the diseases that are destroying them,” Reeves explained. “Our technique allows us to add disease resistance, or other beneficial properties like salt-tolerance, to grass-like plants without resorting to genetic modification or lengthy breeding programmes.”
The world’s banana industry is based on a single variety, called the Cavendish banana — a clone that can withstand long-distance transportation. With no genetic diversity between plants, the crop has little disease-resilience. And Cavendish bananas are sterile, so disease resistance cannot be bred into future generations of the plant. Research groups around the world are trying to find a way to stop Panama Disease before it becomes even more widespread.
Image of date palm two and a half years after grafting. Inset shows a magnified region at the base of the plant, with the arrowhead pointing to the graft junction. (Photo: Julian Hibberd)
Grafting has been used widely since antiquity in another plant group called the dicotyledons. Dicotyledonous orchard crops — including apples and cherries, and high-value annual crops including tomatoes and cucumbers — are routinely produced on grafted plants because the process confers beneficial properties, such as disease resistance or earlier flowering.
The researchers have filed a patent for their grafting technique through Cambridge Enterprise. They have also received funding from Ceres Agri-Tech, a knowledge exchange partnership between five leading universities in the United Kingdom and three renowned agricultural research institutes.
“Panama disease is a huge problem threatening bananas across the world. It’s fantastic that the University of Cambridge has the opportunity to play a role in saving such an important food crop,” said Louise Sutherland, Director of Ceres Agri-Tech.
Ceres Agri-Tech, led by the University of Cambridge, was created and managed by Cambridge Enterprise. It has provided translational funding as well as commercialisation expertise and support to the project, to scale up the technique and improve its efficiency.
This research was funded by the Gates Cambridge Scholarship programme.
The University of Cambridge is one of the world’s top ten leading universities, with a rich history of radical thinking dating back to 1209. Its mission is to contribute to society through the pursuit of education, learning and research at the highest international levels of excellence.
The University comprises 31 autonomous Colleges and 150 departments, faculties and institutions. Its 24,450 student body includes more than 9,000 international students from 147 countries. In 2020, 70.6% of its new undergraduate students were from state schools and 21.6% from economically disadvantaged areas.
Cambridge research spans almost every discipline, from science, technology, engineering and medicine through to the arts, humanities and social sciences, with multi-disciplinary teams working to address major global challenges. Its researchers provide academic leadership, develop strategic partnerships and collaborate with colleagues worldwide.
The University sits at the heart of the ‘Cambridge cluster’, in which more than 5,300 knowledge-intensive firms employ more than 67,000 people and generate £18 billion in turnover. Cambridge has the highest number of patent applications per 100,000 residents in the UK.
The International Maize and Wheat Improvement Center (CIMMYT) is the global leader in publicly-funded maize and wheat research and related farming systems. Headquartered near Mexico City, CIMMYT works with hundreds of partners throughout the developing world to sustainably increase the productivity of maize and wheat cropping systems, thus improving global food security and reducing poverty. CIMMYT is a member of the CGIAR System and leads the CGIAR Research Programs on Maize and Wheat and the Excellence in Breeding Platform. The Center receives support from national governments, foundations, development banks and other public and private agencies.
Cover photo: A banana producer in Kenya. (Photo: N. Palmer/CIAT)
For over a decade, the CGIAR Research Programs on Maize (MAIZE) and Wheat (WHEAT) have been at the forefront of research-for-development benefiting maize and wheat farmers in the Global South, especially those most vulnerable to the shocks of a changing climate.
From 2012 to 2021, MAIZE has focused on doubling maize productivity and increasing incomes and livelihood opportunities from sustainable maize-based farming systems. Through MAIZE, scientists released over 650 elite, high-yielding maize varieties stacked with climate adaptive, nutrition enhancing, and pest and disease resistant traits.
The WHEAT program has worked to improve sustainable production and incomes for wheat farmers, especially smallholders, through collaboration, cutting-edge science and field-level research. Jointly with partners, WHEAT scientists released 880 high-yielding, disease- and pest-resistant, climate-resilient and nutritious varieties in 59 countries over the life of the program.
To document and share this legacy, the MAIZE and WHEAT websites have been redesigned to highlight the accomplishments of the programs and to capture their impact across the five main CGIAR Impact Areas: nutrition, poverty, gender, climate and the environment.
We invite you to visit these visually rich, sites to view the global impact of MAIZE and WHEAT, and how this essential work will continue in the future.
CIMMYT’s relationship with Mexico is one of a kind: in addition to being the birthplace of the wheat innovations that led to the Green Revolution and the founding of CGIAR, Mexico is also where maize originated thousands of years ago, becoming an emblem of the country’s economy and identity.
Honoring this longstanding connection and celebrating Mexico’s key contribution to global wheat and maize production, Mexico City will host a photo exhibition from December 1, 2021, to January 15, 2022, in the Open Galleries Lateral, located on Paseo de la Reforma, one of city’s most iconic promenades.
Titled “Maize and Wheat Research in Focus: Celebrating a Decade of Research for Sustainable Agricultural Development Under the CGIAR Research Programs on Maize and Wheat,” the exhibition illustrates the impact of MAIZE and WHEAT over the last ten years. The selection of photographs documents the challenges faced by maize and wheat smallholders in different regions, and showcases innovative interventions made by national and regional stakeholders worldwide.
From pathbreaking breeding research on climate-smart varieties to helping farming families raise their incomes, the photos — taken by CGIAR photographers before the COVID-19 pandemic — capture both the breadth of the challenges facing our global agri-food systems and the spirit of innovation and cooperation to meet them head on.
Don’t miss the chance to visit the exhibition if you are in Mexico City!
The photo exhibition “Maize and Wheat Research in Focus: Celebrating a Decade of Research for Sustainable Agricultural Development Under the CGIAR Research Programs on Maize and Wheat” will be on display in Mexico City until January 15, 2022. (Photo: Alfonso Cortés/CIMMYT)
A group of farmers involved in participatory rice breeding trials near Begnas Lake, Pokhara, Nepal. (Photo: Neil Palmer/CIAT/CCAFS)
As CGIAR develops 33 exciting new research Initiatives, it is essential for its new research portfolio to move beyond “diagnosing gender issues” and to supporting real change for greater social equity. Gender-transformative research and methodologies are needed, co-developed between scientists and a wide range of partners.
To advance this vision, gender scientists from ten CGIAR centers and key partner institutions came together from October 25 to 27, 2021, in a hybrid workshop. Some participants were in Amsterdam, hosted by KIT, and others joined online from Canada, the Philippines and everywhere in between.
The workshop emerged from gender scientists’ desire to create a supportive innovation space for CGIAR researchers to integrate gender-transformative research and methodologies into the new CGIAR Initiatives.
The organizing team calls this effort GENNOVATE 2, as it builds on GENNOVATE, the trailblazing gender research project which ran across the CGIAR between 2014 and 2018.
GENNOVATE 2 promises to help CGIAR Initiatives achieve progress in the Gender, Youth and Social Inclusion Impact Area. It will also advance change towards Sustainable Development Goals 5 and 10 on gender and other forms of inequality.
In the workshop, participants sought to:
Share and develop ideas, methods and approaches to operationalize gender-transformative research and methodologies. Working groups focused on an initial selection of CGIAR Initiatives, representing all the Action Areas of CGIAR:
ClimBeR: Building Systemic Resilience against Climate Variability and Extremes; (Systems Transformation)
Securing the Asian Mega-Deltas from Sea-level Rise, Flooding, Salinization and Water Insecurity (Resilient Agrifood Systems)
Sustainable Intensification of Mixed Farming Systems (Resilient Agrifood Systems)
Market Intelligence and Product Profiling (Genetic Innovation)
Build on the significant investments, methods, data, and results from the original GENNOVATE.
Conceive a community of practice for continued sharing, learning and collaboration, across and within Initiatives, to accelerate progress on gender and social equity.
Participants at the GENNOVATE 2 workshop in Amsterdam, the Netherlands, in October 2021.
Joining a vibrant community
GENNOVATE 2 is envisioned to complement the CGIAR GENDER Platform and the proposed new CGIAR gender-focused research Initiative, HER+.
“We have several gender methodology assets in CGIAR, and GENNOVATE is one of them,” said Nicoline de Haan, Director of the CGIAR GENDER Platform, opening the workshop. “We want to make sure we cultivate and grow the efforts started during GENNOVATE and move forward important lessons and practices in the new CGIAR portfolio.”
The team of scientists behind GENNOVATE 2 wants to support a vibrant community of researchers who “work out loud.” They will document and share their research methodologies, experiences and insights, in order to accelerate learning on gender issues and scale out successes more quickly.
The ultimate objectives of GENNOVATE 2 are to:
Develop and deepen a set of methodologies expected to directly empower women, youth, and marginalized groups in the targeted agri-food systems
Contribute to normative change towards increased gender equality across different scales, ranging from households to countries.
Generate and build an evidence base on the relationship between empowering women, youth and marginalized people, and moving towards climate-resilient and sustainable agri-food systems — and vice versa.
“An example of the added value GENNOVATE 2 can bring to CGIAR Initiatives is understanding what maintains prevailing gender norms in research sites, and also at relevant institutional and political levels,” said Anne Rietveld, gender scientist at the Alliance of Bioversity International and CIAT, and co-organizer of the workshop. “This will enable CGIAR scientists, partners and policymakers to design locally relevant gender-transformative approaches and policies for more impact. We can do this by building on our GENNOVATE 1 evidence base, adapting methods from GENNOVATE 1 and co-developing new methods in GENNOVATE 2.”
Participants at the GENNOVATE 2 workshop in Amsterdam, the Netherlands, in October 2021.
What’s next?
The workshop showed that many scientists from CGIAR and partner institutes are motivated to invest in the vision of GENNOVATE 2. Achieving impact in the Gender, Youth and Social Inclusion Impact Area will require concerted efforts and inputs from scientists on the ground.
“There is a groundswell of experience and enthusiasm that you, we, this group brings. We need answers and we can and should work together to make this a reality,” remarked Jon Hellin, Platform Leader – Sustainable Impact in Rice-based Systems at the International Rice Research Institute (IRRI), and co-lead of the ClimBeR Initiative.
The organizing team listed concrete actions to follow the workshop:
Developing processes and spaces for discussing methodological advancements among the gender scientists in these four Initiatives which other Initiatives can tap into, contribute to and become part of.
To develop these shared and integrated methodologies and approaches into a GENNOVATE 2 conceptual and methodological roadmap — to contribute to the CGIAR Gender, Youth, and Social Inclusion Impact Area and guide other Initiatives, as well as bilateral research
To develop a position paper articulating what can be achieved through concerted efforts to integrate gender and social equity more effectively into the Initiatives, to showcase gender-transformative research methods for further development and implementation. The aim of the position paper is to influence global science leaders and CGIAR leadership in how they include issues of social equity in the Initiatives.
To support these conversations, learnings and harmonization processes through setting up a community of practice, where the “practice” to be improved is the practice of advancing gender research methodologies to go from diagnosis to action. This will start with a core group of enthusiastic researchers and then will expand as it gains momentum, so that all researchers in the various Initiatives interested in social equity can contribute
To seek funding opportunities to support the activities outlined above.
The GENNOVATE 2 organizing team welcomes the participation of interested CGIAR Initiatives as they move forward. The organizing team will also help strengthen interactions with external resource people and research networks, in to cross-pollinate new knowledge and innovations.
If you would like to know more about GENNOVATE 2, please contact Anne Rietveld, Gender Scientist at the Alliance of Bioversity International and CIAT and Hom Gartaula, Gender and Social Inclusion Specialist at the International Maize and Wheat Improvement Center (CIMMYT).
The GENNOVATE 2 workshop was supported with funds from the CGIAR Research Programs on Roots Tubers and Bananas, Maize, and Wheat.
Workshop organizers Anne Rietveld (Alliance), Cathy Rozel Farnworth (Pandia Consulting, an independent gender researcher), Diana Lopez (WUR) and Hom Gartaula (CIMMYT) guided participants. Arwen Bailey (Alliance) served as facilitator.
Participants were: Renee Bullock (ILRI); Afrina Choudhury (WorldFish); Marlene Elias (Alliance); Gundula Fischer (IITA); Eleanor Fisher (The Nordic Africa Institute/ClimBeR); Alessandra Galie (ILRI); Elisabeth Garner (Cornell University/Market Intelligence); Nadia Guettou (Alliance); Jon Hellin (IRRI); Deepa Joshi (IWMI); Berber Kramer (IFPRI); Els Lecoutere (CGIAR GENDER Platform); Angela Meentzen (CIMMYT); Gaudiose Mujawamariya (AfricaRice); Surendran Rajaratnam (WorldFish); Bela Teeken (IITA), among others.
External experts who provided methodological inputs were: Nick Vandenbroucke of Trias talking about institutional change; Shreya Agarwal of Digital Green talking about transformative data; Katja Koegler of Oxfam Novib talking about Gender Action Learning Systems (GALS) for community-led empowerment; and Phil Otieno of Advocates for Social Change (ADSOCK) talking about masculinities and working with men.
From October 31 to November 12, all eyes and cameras turned to Glasgow, where the 26th Conference of the Parties of the United Nations Convention against Climate Change (COP26) took place in a hybrid format. With temperatures rising around the world and extreme weather events becoming increasingly frequent, country leaders and climate experts came together in Scotland to discuss the next steps in the fight against climate change.
Together with other CGIAR Centers, the International Maize and Wheat Improvement Center (CIMMYT) took part in this crucial conversation, drawing attention to the impact of climate change on smallholder agriculture and echoing CGIAR’s call for increased funding for agricultural research and innovation.
Here’s a summary of the events in which CIMMYT researchers and scientists participated.
“Because farmers feed us all: using climate for a resilient food system”
November 6, 2021
Sponsored by the UK Met Office, this event focused on the effects of climate change on the resilience of food systems and how this impact is factored into decision-making. Speakers discussed the real-life application of climate risk information, highlighting the importance of global collaboration and multi-stakeholder partnerships in developing context-specific climate services.
Focusing on CIMMYT’s work in Ethiopia, research associate Yoseph Alemayehu and senior scientist Dave Hodson provided some insights on the wheat rust early warning system. This revolutionary mechanism developed by CIMMYT and partners helps farmers in developing countries predict this disease up to a week in advance.
“COP26 highlighted the vulnerability of different agriculture sectors to climate change, including increased threats from pests and pathogens. From the work in Ethiopia on wheat rust early warning systems, strong partnerships and the application of advanced climate science can play an important role in mitigating some of the effects.” – Dave Hodson
“Developing Climate Resilient Food Systems Pathways: Approaches From Sub-Saharan Africa”
November 8, 2021
Putting an emphasis on participatory governance and community-centered technologies, this event showcased innovative approaches to strengthen the resilience of African food systems, calling for increased investment in the scale-up of climate-smart agriculture practices to meet growing demand.
Joining from Zimbabwe, Christian Thierfelder, Principal Cropping Systems Agronomist gave an overview of CIMMYT’s work in southern Africa, explaining how the introduction of conservation agriculture back in 2004 helped farmers overcome low crop yields and boost their incomes.
“If one thing was made clear at COP26, it is the urgent need for a change in the way we do agriculture. The status quo is not an option and we, as CIMMYT and part of the One CGIAR, will continue to generate the scientific evidence and climate-smart solutions to accelerate this change and address the climate challenges ahead of us, with farmers at the core of our work.” – Christian Thierfelder
“4 per 1000” Initiative Day
November 10, 2021
The “4 per 1000” Initiative, a multi-stakeholder partnership of more than 650 members on food security and climate change, held a day-long hybrid event to explore how healthy soils can help agriculture and forestry adapt to and mitigate climate change.
At the Partner Forum, Bram Govaerts, Director General of CIMMYT, stressed the urgent need to fund soil science to achieve its carbon sequestration potential, reiterating CIMMYT’s commitment to supporting this science with results-oriented actions that scale out sustainable practices and technologies.
“For me, the main take-away of the summit is the growing consensus and understanding that we need to transform agriculture and food systems to achieve global emissions targets on time.” – Bram Govaerts
Cover photo: The action zone and the globe at the Hydro, one of the venues in Glasgow where COP26 took place. (Photo: Karwai Tang/UK Government)
Wheat stalks grow in a field in India. (Photo: Saad Akhtar)
For scientists, determining how best to increase wheat yields to meet food demand is a persistent challenge, particularly as the trend toward sustainably intensifying production on agricultural lands grows.
The United Nations projects that the current global population of 7.6 billion will increase to more than 9.8 billion by 2050, making higher grain yield potential vital, particularly as climate instability increases due to global warming. International efforts are also focused on meeting the Zero Hunger target detailed in the UN Sustainable Development Goals before they expire in 2030.
Now, a new landmark research survey on the grain yield potential and climate-resilience of bread wheat (Triticum aestivum L.) has brought scientists a few strides closer to meeting their ambitions.
Grain yield has traditionally been an elusive trait in genomic wheat breeding because of its quantitative genetic control, which means that it is controlled by many genomic regions with small effects.
Challenges also include a lack of good understanding about the genetic basis of grain yield, inconsistent grain yield quantitative trait loci identified in different environments, low heritability of grain yield across environments and environment interactions of grain yield.
To dissect the genetic architecture of wheat grain yield for the purposes of the research, which appeared in Scientific Reports, researchers implemented a large-scale genome-wide association study based on 100 datasets and 105,000 grain yield observations from 55,568 wheat breeding lines developed by the International Maize and Wheat Improvement Center (CIMMYT).
They evaluated the lines between 2003 and 2019 in different sites, years, planting systems, irrigation systems and abiotic stresses at CIMMYT’s primary yield testing site, the Norman E. Borlaug Experimental Research Station, Ciudad Obregon, Mexico, and in an additional eight countries — including Afghanistan, India and Myanmar — through partnerships with national programs.
The researchers also generated the grain-yield associated marker profiles and analyzed the grain-yield favorable allele frequencies for a large panel of 73,142 wheat lines, resulting in 44.5 million data points. The marker profiles indicated that the CIMMYT global wheat germplasm is rich in grain yield favorable alleles and is a trove for breeders to choose parents and design strategic crosses based on complementary grain yield alleles at desired loci.
“By dissecting the genetic basis of the elusive grain-yield trait, the resources presented in our study provide great opportunities to accelerate genomic breeding for high-yielding and climate-resilient wheat varieties, which is a major objective of the Accelerating Genetic Gain in Maize and Wheat project,” said CIMMYT wheat breeder Philomin Juliana.
“This study is unique and the largest-of-its-kind focusing on elucidating the genetic architecture of wheat grain yield,” she explained, “a highly complex and economically important trait that will have great implications on future diagnostic marker development, gene discovery, marker-assisted selection and genomic-breeding in wheat.”
Currently, crop breeding methods and agronomic management put annual productivity increases at 1.2% a year, but to ensure food security for future generations, productivity should be at 2.4% a year.
So, the extensive datasets and results presented in this study are expected to provide a framework for breeders to design effective strategies for mitigating the effects of climate change, while ensuring food-sustainability and security.
CIMMYT researchers use coverings to increase night-time temperatures and study wheat’s heat tolerance mechanisms, key to overcoming climate change challenges to wheat production. (Photo: Kevin Pixley/CIMMYT)
The International Maize and Wheat Improvement Center (CIMMYT) and the John Innes Centre (JIC) have announced a strategic collaboration for joint research, knowledge sharing and communications, to further the global effort to develop the future of wheat.
Wheat, a cornerstone of the human diet that provides 20% of all calories and protein consumed worldwide, is threatened by climate change-related drought and heat, as well as increased frequency and spread of pest and disease outbreaks. The new collaboration, building on a history of successful joint research achievements, aims to harness state-of-the-art technology to find solutions for the world’s wheat farmers and consumers.
“I am pleased to formalize our longstanding partnership in wheat research with this agreement,” said CIMMYT Deputy Director General for Research Kevin Pixley. “Our combined scientific strengths will enhance our impacts on farmers and consumers, and ultimately contribute to global outcomes, such as the Sustainable Development Goal of Zero Hunger.”
Director of the John Innes Centre, Professor Dale Sanders commented, “Recognizing and formalizing this long-standing partnership will enable researchers from both institutes to focus on the future, where the sustainable development of resilient crops will benefit a great many people around the world.”
Thematic areas for collaboration
Scientists from CIMMYT and JIC will work jointly to apply cutting-edge approaches to wheat improvement, including:
developing and deploying new molecular markers for yield, resilience and nutritional traits in wheat to facilitate deploying genomic breeding approaches using data on the plant’s genetic makeup to improve breeding speed and accuracy;
generating, sharing and exploiting the diversity of wheat genetic material produced during crossing and identified in seed banks;
pursuing new technologies and approaches that increase breeding efficiency to introduce improved traits into new wheat varieties; and
developing improved technologies for rapid disease diagnostics and surveillance.
Plans for future collaborations include establishing a new laboratory in Norwich, United Kingdom, as part of the Health Plants, Healthy People, Healthy Plant (HP3) initiative.
Bringing innovations to farmers
An important goal of the collaboration between CIMMYT and JIC is to expand the impact of the joint research breakthroughs through knowledge sharing and capacity development. Stakeholder-targeted communications will help expand the reach and impact of these activities.
“A key element of this collaboration will be deploying our innovations to geographically diverse regions and key CIMMYT partner countries that rely on smallholder wheat production for their food security and livelihoods,” said CIMMYT Global Wheat Program Director Alison Bentley.
Capacity development and training will include collaborative research projects, staff and student exchanges and co-supervision of graduate students, exchange of materials and data, joint capacity building programs, and shared connections to the private sector. For example, plans are underway for a wheat improvement summer school for breeders in sub-Saharan African countries and an internship program to work on the Mobile And Real-time PLant disease (MARPLE) portable rust testing project in Ethiopia.
INTERVIEW OPPORTUNITIES:
Alison Bentley – Director, Global Wheat Program, International Maize and Wheat Improvement Center (CIMMYT)
Dale Sanders – Director, John Innes Centre
OR MORE INFORMATION, OR TO ARRANGE INTERVIEWS, CONTACT THE MEDIA TEAM:
The International Maize and Wheat Improvement Center (CIMMYT) is the global leader in publicly-funded maize and wheat research and related farming systems. Headquartered near Mexico City, CIMMYT works with hundreds of partners throughout the developing world to sustainably increase the productivity of maize and wheat cropping systems, thus improving global food security and reducing poverty. CIMMYT is a member of the CGIAR System and leads the CGIAR Research Programs on Maize and Wheat and the Excellence in Breeding Platform. The Center receives support from national governments, foundations, development banks and other public and private agencies. For more information, visit staging.cimmyt.org.
ABOUT THE JOHN INNES CENTRE:
The John Innes Centre is an independent, international centre of excellence in plant science, genetics and microbiology. Our mission is to generate knowledge of plants and microbes through innovative research, to train scientists for the future, to apply our knowledge of nature’s diversity to benefit agriculture, the environment, human health, and wellbeing, and engage with policy makers and the public.
We foster a creative, curiosity-driven approach to fundamental questions in bio-science, with a view to translating that into societal benefits. Over the last 100 years, we have achieved a range of fundamental breakthroughs, resulting in major societal impacts. Our new vision Healthy Plants, Healthy People, Healthy Planet (www.hp3) is a collaborative call to action. Bringing knowledge, skills and innovation together to create a world where we can sustainably feed a growing population, mitigate the effects of climate change and use our understanding of plants and microbes to develop foods and discover compounds to improve public health.
The challenges facing our food system are growing, both in size and in complexity. In order to tackle these issues and meet the needs of our changing world, the International Maize and Wheat Improvement Center (CIMMYT) understands the importance of assembling a workforce that is diverse, creative and representative. In addition to encouraging STEM careers and hiring more women in scientific positions, we must also foster a more encouraging scientific community for women whose careers are just sparking.
Whether it is through a school field trip, a first internship or a PhD thesis project, CIMMYT is committed to encouraging young women to step into the lab and the fields, and up to the challenge, as we strive to create a more equitable community. On the International Day of Women and Girls in Science, we are inspired by the words of some of the many brilliant women whose scientific careers are just beginning, lighting the pathway to a more equitable future.
The International Day of Women and Girls in Science is particularly meaningful to CIMMYT’s new Global Wheat Program (GWP) Director, Alison Bentley. Listen and watch as she tells her story, from her first lightbulb moment on a high school field trip, to a leadership position in the wheat research world.
In celebration of the International Day of Women and Girls in Science, CIMMYT is participating in a unique marathon event, carrying a global conversation with CGIAR women scientists that are leading change and creating solutions to some of the world’s biggest challenges.
Powered by Women in Research and Science (WIRES), a new employee-led resource group at CGIAR, the event will showcase the many ways women scientists are transforming the way we look at our food, land and water systems around the world. In addition to learning about cutting-edge science, you’ll be able to engage with inspiring speakers in 13 different countries.
Join CIMMYT’s discussion on February 11, 2021, at 1:00 p.m. CST, and learn about the journeys of the 2020 Bänziger Award recipients, an engaging Q&A with four CIMMYT scientists, and our vision for a more equitable workforce. Register for the event.
Norman Borlaug teaches a group of young trainees in the field in Sonora, Mexico. (Photo: CIMMYT)
50 years ago, the late Norman Borlaug received the 1970 Nobel Peace Prize for averting famine by increasing wheat yield potential and delivering improved varieties to farmers in South Asia. He was the first Nobel laureate in food production and is widely known as “the man who saved one billion lives.”
In the following decades, Borlaug continued his work from the Mexico-based International Maize and Wheat Improvement Center (CIMMYT), a non-profit research-for-development organization funded by the Rockefeller Foundation and the governments of Mexico and the United States.
CIMMYT became a model for a future network of publicly-funded organizations with 14 research centers: CGIAR. Today, CGIAR is led by Marco Ferrroni, who describes it as a global research partnership that “continues to be about feeding the world sustainably with explicit emphasis on nutrition, the environment, resource conservation and regeneration, and equity and inclusion.”
Norman Borlaug’s fight against hunger has risen again to the global spotlight in the wake of the most severe health and food security crises of the 21st Century. “The Nobel Peace Prizes to Norman Borlaug and the World Food Programme are very much interlinked,” said Kjersti Flogstad, Executive Director of the Oslo-based Nobel Peace Center. “They are part of a long tradition of awarding [the prize] to humanitarian work, also in accordance with the purpose [Alfred] Nobel expressed in his last will: to promote fraternity among nations.”
During welcome remarks at the virtual 50-year commemoration of Norman Borlaug’s Nobel Peace Prize on December 8, 2020, Mexico’s Secretary of Agriculture and Rural Development Víctor Villalobos Arámbula, warned that “for the first time in many years since Borlaug defeated hunger in Southeast Asia, millions of people are at risk of starvation in several regions of Africa, Asia and Latin America.”
According to CIMMYT’s Director General Martin Kropff, celebrating Norman Borlaug’s legacy should also lead to renewed investments in the CGIAR system. “A report on the payoff of investing in CGIAR research published in October 2020 shows that CIMMYT’s return on investment (ROI) exceeds a benefit-cost ratio of 10 to 1, with median ROI rates for wheat research estimated at 19 and for maize research at 12.”
Mexico’s Foreign Affairs Department echoed the call to invest in Agriculture for Peace. “The Government of Mexico, together with the Nobel Peace Center and CIMMYT, issues a joint call to action to overcome the main challenges to human development in an international system under pressure from conflict, organized crime, forced migration and climate change,” said Martha Delgado, Mexico’s Under Secretary of Multilateral Affairs and Human Rights.
Norman Borlaug sits on a tractor next to field technicians in Sonora, Mexico. (Photo: CIMMYT)
The event called for action against the looming food crises through the transformation of food systems, this time with an emphasis on nutrition, environment and equality. Speakers included experts from CGIAR, CIMMYT, Conservation International, Mexico’s Agriculture and Livestock Council, United Nations Food and Agriculture Organization (FAO), United States Agency for International Development (USAID) and the World Food Programme (WFP), among others. Participants discussed the five action tracks of the 2021 United Nations Food Systems Summit: (1) ensure access to safe and nutritious food for all; (2) shift to sustainable consumption patterns; (3) boost nature-positive production; (4) advance equitable livelihoods; and, (5) build resilience to vulnerabilities, shocks and stresses.
“This event underlines the need for international solidarity and multilateral cooperation in the situation the world is facing today,” said Norway’s Ambassador to Mexico, Rut Krüger, who applauded CIMMYT’s contribution of 170,000 maize and wheat seeds to the Global Seed Vault in Svalbard, Norway. “This number reflects the global leadership position of CIMMYT in the development of maize and wheat strains.”
Norman Borlaug’s famous words — “take it to the farmer” — advocated for swift agricultural innovation transfers to the field; Julie Borlaug, president of the Borlaug Foundation, said the Agriculture for Peace event should inspire us to also “take it to the public.”
“Agriculture cannot save the world alone,” she said. “We also need sound government policies, economic programs and infrastructure.”
CIMMYT’s Deputy Director General for Research and Partnerships, and Integrated Development Program Director Bram Govaerts, called on leaders, donors, relief and research partners to form a global coalition to transform food systems. “We must do a lot more to avert a hunger pandemic, and even more to put the world back on track to meet the Sustainable Development Goals of the 2030 Agenda.”
CIMMYT’s host country has already taken steps in this direction with the Crops for Mexico project, which aims to improve the productivity of several crops essential to Mexico’s food security, including maize and wheat. “This model is a unique partnership between the private, public and social sectors that focuses on six crops,” said Mexico’s Private Sector Liaison Officer Alfonso Romo. “We are very proud of its purpose, which is to benefit over one million smallholder households.”
The call stresses the need for sustainable and inclusive rural development. “It is hard to imagine the distress, frustration and fear that women feel when they have no seeds to plant, no grain to store and no income to buy basic foodstuffs to feed their children,” said Nicole Birrell, Chair of CIMMYT’s Board of Trustees. “We must make every effort to restore food production capacities and to transform agriculture into productive, profitable, sustainable and, above all, equitable food systems worldwide.”
In 1970, Norman Borlaug was awarded the Nobel Peace Prize for his important scientific work that saved millions of people from famine. Today, humanity faces an equally complex challenge which requires the commitment of all nations, leaders, investors and strategic partners: avoiding the next food crisis.
The Government of Mexico, the Nobel Peace Center and the International Maize and Wheat Improvement Center (CIMMYT) will celebrate the 50th anniversary of Borlaug’s Nobel Prize with a call to action to develop a transformational response of agriculture for peace, with an emphasis on nutrition, environment and equity.
Join us on December 8, 2020, from 9:00 to 10:30 a.m. (CST, GMT-6).
This special event is part of the run-up to the United Nations Summit of Agrifood Systems of 2021. It will feature international experts in each of the five action tracks of the summit: ensure access to safe and nutritious food for all; shift to sustainable consumption patterns; boost nature-positive production; advance equitable livelihoods; and build resilience to vulnerabilities, shocks and stress.
Guest speakers will include:
Marcelo Ebrard Casaubón – Mexico’s Secretary of Foreign Affairs
Kjersti Fløgstad – Executive Director, Nobel Peace Center
Victor Villalobos – Mexico’s Secretary of Agriculture and Rural Development
Martin Kropff – Director General, CIMMYT
Margaret Bath – Member of CIMMYT’s Board of Trustees
Alison Bentley – Director of CIMMYT’s Global Wheat Program
Robert Bertram – Chief Scientist, USAID’s Bureau for Resilience and Food Security
Nicole Birrell – Chair of CIMMYT’s Board of Trustees
Julie Borlaug – President of the Borlaug Foundation
Gina Casar – Assistant Secretary-General of the World Food Programme
Martha Delgado – Mexico’s Deputy Secretary for Multilateral Affairs and Human Rights
Marco Ferroni – Chair, CGIAR System Board
Federico González Celaya – President of Mexico’s Food Banks Association
Bram Govaerts – Deputy Director General for Research and Collaborations a.i. and Director of the Integrated Development Program, CIMMYT
Juana Hernández – Producer from the community of San Miguel, in Ocosingo, Chiapas, Mexico
Rut Krüger Giverin – Norwegian Ambassador to Mexico
Sylvanus Odjo – Postharvest Specialist, CIMMYT
Lina Pohl – FAO’s Mexico Representative
B.M. Prasanna – Director of CIMMYT’s Global Maize Program and the CGIAR Research Program on Maize
Tatiana Ramos – Executive Director, Conservation International Mexico
Alfonso Romo – Private Sector Liaison, Government of Mexico
Bosco de la Vega – President Mexico’s National Farmer’s Agricultural Council (CNA)
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.
Beyh Akin (left) and Hans Braun in wheat fields in Izmir, Turkey, in 1989. (Photo: CIMMYT)
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.”
Hans Braun (center), Sanjaya Rajaram (third from right), Ravi Singh (first from right) and other colleagues stand for a photograph during a field day at CIMMYT’s experimental station in Ciudad Obregón, Sonora, Mexico. (Photo: CIMMYT)
“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.
Left to right: Zhonghu He, Sanjaya Rajaram, Ravi Singh and Hans Braun during a field trip in Anyang, South Korea, in 1990. (Photo: CIMMYT)
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.”
Hans Braun (right) and colleagues in a wheat field in CIMMYT’s experimental station in Ciudad Obregón, Sonora, Mexico. (Photo: CIMMYT)
Norman Borlaug (left), Ravi Singh (center) and Hans Braun stand in the wheat fields at CIMMYT’s experimental station in Ciudad Obregón, in Mexico’s Sonora state. (Photo: CIMMYT)
Left to right: Sanjaya Rajaram, unknown, unknown, unknown, Norman E. Borlaug, unknown, Ken Sayre, Arnoldo Amaya, Rodrigo Rascon and Hans Braun during Norman Borlaug’s birthday celebration in March 2006. (Photo: CIMMYT)
Left to right: Hans Braun, Ronnie Coffman, Jeanie Borlaug-Laube, Thomas Lumpkin, Antonio Gándara, Katharine McDevitt and unknown during the unveiling of the Norman Borlaug statue at CIMMYT’s experimental station in Ciudad Obregón, Sonora, Mexico, in 2012. (Photo: Xochil Fonseca/CIMMYT)
Participants in the first technical workshop of the Borlaug Global Rust Initiative in 2009 take a group photo at CIMMYT’s experimental station in Ciudad Obregón, Sonora, Mexico. (Photo: CIMMYT)
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.
Hans Braun, Director of CIMMYT’s Global Wheat Program of CIMMYT, is interviewed by Ethiopian journalist at an event in 2017. (Photo: CIMMYT)
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
General view Inzlingen, Germany, with Basel in the background. (Photo: Hans 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.”
Left to right: Bruno Gerard, Ram Dhulipala, David Bergvinson, Martin Kropff, Víctor Kommerell , Marianne Banziger, Dave Watson and Hans Braun stand for a photograph at CIMMYT’s global headquarters in Texcoco, Mexico. (Photo: Alfonso Cortés/CIMMYT)
Former Director General of CIMMYT, Thomas Lumpkin (center), Hans Braun (next right) and Turkish research partners on a field day at a wheat landraces trial in Turkey. (Photo: CIMMYT)
Hans Braun (sixth from right) stands for a photograph with colleagues during a work trip to CIMMYT’s Pakistan office in 2020. (Photo: CIMMYT)
Hans Braun (seventh from left) visits wheat trials in Eskişehir, Turkey in 2014. (Photo: 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)
In 1970, 
