Bram Govaerts, renowned scientist and leader, has been appointed as CIMMYT’s Director General for the period 2023-2028 as of July 1, 2023, after holding the position on an interim basis for two years and steering the organization through the unprecedented global challenges of the pandemic and ongoing food insecurity.
Under Govaerts’ leadership, CIMMYT has expanded its research portfolio and strengthened its work in key regions. Govaerts has also started an effort to streamline internal processes and operations to speed up CIMMYT’s response capacity and impact across the world.
Bram with Zamseed staff holding pro-vitamin A orange maize (Photo: Katebe Mapipo/CIMMYT)
Govaerts holds a PhD in Bioscience Engineering – Soil Science, a master’s degree in Soil Conservation and Tropical Agriculture, and a bachelor’s degree in Bioscience Engineering, all from Katholieke Universiteit Leuven, Belgium. He has also received multiple awards during his career: the Development Cooperation Prize from the Belgian Federal Government in 2003, the Norman Borlaug Award for Field Research and Application in 2014, the Premio Tecnoagro, awarded by an organization of 2,500 Mexican farmers in 2018, and Fellow of The American Society of Agronomy (ASA). In addition to leading CIMMYT, Govaerts is an A.D. White Professor-at-Large at Cornell University.
“With Bram’s appointment, I am excited and confident about CIMMYT’s future,” said Margaret Bath, Chair of CIMMYT’s Board of Trustees. “We look forward to many great days ahead for CIMMYT staff across the globe, who lift smallholder farmers and their communities to achieve better and more sustainable livelihoods and to ensure that food security is delivered, and human potential maximized.”
Timothy Reeves. (Photo: Courtesy of Tim Reeves/University of Melbourne)
Timothy Reeves, who served as director general of the International Maize and Wheat Improvement Center (CIMMYT) from 1995 to 2002, has been included in Queen Elizabeth II’s Birthday Honours List. He has been appointed a Member (AM) of the Order of Australia, for his significant service to sustainable agriculture research and production.
“I’m overwhelmed. I feel so honored and wish to also recognize the wonderful people that I have worked with — both farmers and scientists — here in Australia, and around the world. I also acknowledge my beautiful family without whom it would have not been possible,” he said.
Reeves was a pioneer of direct drilling and conservation agriculture in Australia in the 1960s and 70s. This method of planting crops which requires no cultivation of the land, is now the direct-drilling method used by 90% of farmers across Australian cropping regions. He and colleagues in the Victorian Department of Agriculture also worked at that time on the introduction of new crops into farming systems, including lupins, canola and faba beans.
Timothy Reeves (center) with C. Renard (left) and Norman Borlaug. (Photo: CIMMYT)
He was appointed to the role of director general of CIMMYT in 1995, based in Mexico for seven years, helping developing countries with food and nutritional security. He is the only Australian to have held this position.
Reeves is currently an Honorary Professorial Fellow at the Faculty of Veterinary and Agricultural Sciences, University of Melbourne. He is heavily involved with passing on his knowledge to his academic colleagues and to both undergraduate and postgraduate students. Reeves’s academic writings include publishing more than 180 papers, book chapters and articles. He is also a Chair of the Agriculture Forum of the Australian Academy of Technological Sciences and Engineering.
Zhuang Qiaosheng (center) receives CIMMYT delegations in Beijing in 1997. (Photo: CIMMYT)
Zhuang Qiaosheng passed away in Beijing on May 8, 2022, at the age of 105. He was the most celebrated wheat breeder in China and enjoyed a high reputation in the international community.
As a leader of Wheat Breeding Program at Chinese Academy of Agricultural Sciences (CAAS), Zhuang developed 20 high-yielding and disease-resistant winter wheat varieties from 1947 to 1995, with a total planting area of 28 million hectares in achieving notable yield increase.
Zhuang served as a member of the Board of Trustees of the International Maize and Wheat Improvement Center (CIMMYT) from 1984 to 1987. He made great contributions to the collaboration between CIMMYT and China, including the opening of the CIMMYT office in China and the establishment of a shuttle breeding project for improving scab resistance.
Zhuang Qiaosheng (center) with Sanjaya Rajaram (left) and Tom Lumpkin in Beijing in 2017. (Photo: CIMMYT)
He did everything possible to enlarge CIMMYT activities in China before fully retiring in 2015.
He was a close friend to many CIMMYT staff, including the late distinguished scientist Sanjaya Rajaram. He also strongly recommended He Zhonghu, distinguished scientist and CIMMYT Country Representative for China, to work at CIMMYT as a postdoctoral fellow in 1990.
The CIMMYT community sends its deepest condolences to the Zhuang family.
Jai Prakash Rajaram (left) receives the Padma Bhushan Award on behalf of his late father, Sanjaya Rajaram, from the President of India, Ram Nath Kovind. (Photo: Government of India)
The President of India, Ram Nath Kovind, presented the prestigious Padma Bhushan Award for Science & Engineering (Posthumous) to the relatives of Sanjaya Rajaram. The award was received by Rajaram’s son and daughter, Jaiprakash Rajaram and Sheila Rajaram, at a ceremony in New Delhi, India, on March 28, 2022.
The Padma Awards, instituted in 1954, are one of India’s highest civilian honors. Announced annually on the eve of Republic Day, January 26, they are given in three categories: Padma Vipbhushan, for outstanding and distinguished service; Padma Bhushan, for distinguished service of the highest order; and Padma Shri, for distinguished service.
The award seeks to recognize achievement in all fields of activities and disciplines involving a public service item.
Padma Bhushan Award diploma and medal. (Photo: Courtesy of Jai Prakash Rajaram)
Sanjaya Rajaram, who passed away in 2021, was a 2014 World Food Prize laureate and former wheat breeder and Director of the Wheat Program at the International Maize and Wheat Improvement Center (CIMMYT).
Among his many accomplishments, he personally oversaw the development of nearly 500 high-yielding and disease-resistant wheat varieties. These varieties, which have been grown on at least 58 million hectares in over 50 countries, increased global wheat production by more than 200 million tons, benefiting hundreds of millions of resource-poor people who rely on wheat for their diets and livelihoods.
In the traditional Indian society Madhulika Singh grew up in, girls choosing to study science, technology, engineering or mathematics (STEM) was as radical as choosing a life partner on their own.
“They say women hold up half the sky. I believe they should hold up as much and contribute equally in STEM too,” says Singh, now an agriculture specialist at the International Maize and Wheat Improvement Center (CIMMYT).
In her early teens she saw her mother, a school headmaster, comfortably navigate her career along with her domestic responsibilities without a sweat. She later saw a similar example in her sister-in-law. “I grew up thinking ‘there is so much that a woman is capable of,’ whether at home or her workplace,” Singh recalls.
This strong idea of women’s potential led her to pursue studies in science. “Many women before me, like my mother’s generation, were encouraged to take up [careers in] humanities — become a teacher, or pursue home management courses — to ensure a smooth transition once married,” Singh explains. She hoped this would change during her time and that following a career in STEM would be a matter of choice — not gender.
Singh’s goals and ambitions were very clear from the very beginning. In school, she was interested in biology, particularly plant studies and botany. Her inquisitive nature was reflected in her projects and presentations, scoring her high grades. She demonstrated a thorough understanding of plant physiology and her passion for the subject. The budding scientist always wanted to know more and to do more, which Singh feels resonates with her current research and publications.
A popular quote attributed to Mahatma Gandhi says “Be the change you want to see in the world.” When Singh chose to take up plant science in graduate school and then agriculture science for her doctorate, she became the change she had hoped to see in her home and society as a young girl. With the support from her family but a skeptical society, she went ahead and pursued a career in STEM, beginning her research on maize genotypes and conservation agriculture. In 2013 she joined CIMMYT as a physiologist.
CIMMYT researcher Madhulika Singh takes notes while talking to farmers about their rice-wheat cropping practice in Nalanda, Bihar state, India. (Photo: CIMMYT)
Helping farmers transition to conservation agriculture
Singh currently works in her home state of Bihar for the Cereal Systems Initiative for South Asia (CSISA), led by CIMMYT. She is engaged with over ten thousand farmers from the states of Bihar and Uttar Pradesh, supporting the adoption of conservation agriculture practices.
Farming is vital for the region, as nearly 70% of the population is engaged in agriculture and extension services. However, food and livelihoods are threatened by the small size of farms, low incomes, and comparatively low levels of agricultural mechanization, irrigation and productivity.
Singh and her colleagues have led the transition from traditional farming to sustainable intensification practices — like early wheat sowing, zero tillage and direct-seeded rice — which have helped smallholder farmers increase their yield potential substantially.
“We believe a project like CSISA, along with the government and partners, can help advance and support in realizing the full agriculture potential of these regions,” Singh explains.
Roots in the soil
Her grandparents were farmers. “To be able to care for the land that provided you nourishment and a living was always admired upon,” she says. As a crop scientist, Singh’s family acknowledges her work as an extension of the services her grandparents practiced.
Sustained by this motivation and encouragement, Singh feels reassured of her role: joining other scientists, partners and farmers to make agriculture sustainable and our communities food-secure.
“The fact that the data we generate from our experiments serve as building blocks in the generation of knowledge and help farmers optimize the cost of inputs and increase their productivity is fulfilling and enriching to me,” Singh expresses.
Apart from working to build the capacity of farmers and extension workers, Singh supports the implementation of field trials and community-based technology demonstrations. She also helps refine key agricultural innovations, through participatory testing, and optimizes cropping systems in the region.
Leading the way for for the next generation
A true representative of the STEM community, Singh is always learning and using her experience to give back to society. She has co-authored numerous books and contributed to journals, sharing her knowledge with others.
Other women leaders in STEM have inspired Singh in her professional life, including CIMMYT’s former deputy director general for research Marianne Banziger. Singh believes Banziger was trailblazing and that young girls today have many female role models in STEM that can serve as inspiration.
The change is already here and many more young women work in STEM, pursuing excellence in agriculture sciences, engineering and research studies contributing to as well as claiming “half the sky.”
Cover photo: CIMMYT researcher Madhulika Singh (center-right) stands with farmers from self-help groups in the village of Nawtanwa, West Champaran, in India’s Bihar state. CIMMYT works on gender inclusion and participation through partnerships with other organizations and self-help groups. (Photo: CIMMYT)
The International Maize and Wheat Improvement Center (CIMMYT) mourns the passing of our much respected and admired colleague, agriculture, forestry and global development leader, Barbara H. Wells.
Wells held the positions of Global Director of Genetic Innovation of CGIAR and Director General of the International Potato Center (CIP). She had over 30 years of experience in multiple areas of research and management of innovations in the agriculture and forestry sectors. Barbara also served at several senior executive positions in the private sector throughout her outstanding career.
“We are deeply saddened by the news of Barbara’s passing and send our heartfelt condolences to her family, friends and colleagues at our sister center CIP,” said CIMMYT Director General Bram Govaerts.
CIP’s projects and activities flourished under her leadership, opening new collaboration opportunities with local partners and fellow CGIAR centers, particularly with those based in the Americas.
In their partnership, CIMMYT and CIP have successfully collaborated in several areas of research and capacity building for the benefit of smallholder farmers throughout the region; including:
Building resilience through poverty- and food security-based safety nets, including links to productive programs;
Rural financial inclusion, including different types of savings, loans, and credit instruments, management of risk, and remittances;
New financial arrangements and governance structures in value chains;
Public-policy institutional mechanisms for dialogue on policymaking;
Successful R&D and extension projects funded by local governments at both national and state levels;
A regional approach to agricultural policies and role of sub-national governments and intermediate cities; and
Delivery and monitoring instruments, including use of ICT technology.
“We want our colleagues and friends throughout the world to know that we will honor Barbara’s legacy by redoubling our efforts for those who really mattered to her, the farmers,” Govaerts said.
On this International Day of Women and Girls in Science, CIMMYT speaks to Tripti Agarwal, whose research paper delves into the impact of Climate-Smart Agricultural Practices (CSAPs) on women and farming households in Bihar, India. CSAPs offer a promising solution to address environmental issues through gender-inclusive technological interventions. As we celebrate the achievements of women in science today, we see CSAPs bridging the gender gap and empowering women.
Hello Tripti, it’s great to talk to you about labor migration and how the adoption of CSAPs ensures household food security. Could you share how this approach influences gender equality in farming households?
My paper istitled “Gendered impacts of climate-smart agriculture on household food security and labor migration: insights from Bihar, India.”Bihar is highly vulnerable to hydro-meteorological natural disasters that cause agricultural production loss. The issue is that the male workforce migrates to other cities to seek different employment opportunities and improve their families’ livelihoods, often leaving the women behind to farm. Women left behind are then responsible for household and farming activities, making them overburdened. Therefore, Climate Smart Agricultural Practices (CSAPs) could play a vital role in safeguarding the loss in production and supporting livelihoods. The concept of Climate-Smart Villages (CSVs) links this, acknowledging the gender gap and striving to promote gender-equitable approaches in knowledge enhancement, capacity development, and better practices. CSAPs empower women to support farming decision-making and a better utilization of resources
That is interesting. Would you also tell us how the CSV program addresses climatic risks from technological and social perspectives?
As per the study I mentioned earlier, climatic stress that affects crop production directly impacts a household’s food security and, more severely, women’s food security. The CSV program promotes adopting climate-resilient practices and technologies that mitigate the risk of crop loss and ensure enough food for the household. CSV is a promising solution to address environmental issues through gender-inclusive technological interventions.
Ensuring food for the household is the most important thing. We also see that this paper highlighted the knowledge gaps between men and women farmers in terms of CSAPs. What action plan is needed to have a more equitable gender-responsive environment at the policy level?
The paper attempts to drive the concentration of the state/policymakers in providing more opportunities to women in having access to resources. Policies or strategies — driven towards ensuring female education, knowledge and capacity building — are likely to play a significant role in providing access and control of resources to women across their lifetimes in varied areas of work.
As per the research paper,the probability of out-migration is reduced by 21% with the adoption of CSAPs. What factors do you think are the critical indicators of this trend?
The increase in knowledge about CSAPs, both for men and women, supports household decision-making in adopting CSAPs. With the adoption of CSAPs, the increase in agricultural production reduced the compulsion of males to migrate, and better female literacy also had a negative and significant effect on male out-migration
The study also reveals that the farmer’s education has a direct impact on the adoption of CSAPs. Is there any plan to bridge this gap? Or a suggestion for the policy makers to address this issue?
There are two steps to be covered on this front. First, to have gender-equitable knowledge dissemination and to ensure that women receive the required and necessary information about CSAPs. For this, the role of women in society needs to be strengthened and would primarily come from (i) support from the family & society and (ii) right to education. Second, knowledge alone is not enough to contribute to economic activities. Gender-inclusive strategies need to be framed and implemented to provide women the required access and control over resources. For this, multi-sectoral efforts are necessary, like having policies from the government, corporates supporting the cost of efforts, specialized agencies providing the expertise, NGO partners working with the community, and foremost, support from the society.
Very rightly said, and we hope that some strong measures are taken at the policy level. Today, women play a huge role in agriculture; thus, it becomes vital to enhance their capacities, especially in newer technologies. In this context, what approaches can you suggest to strengthening their skills and knowledge to achieve a gender-empowered agricultural domain?
There is no limit to enhancing the skills and capacities of an individual. And when we talk about women, especially in rural/agricultural contexts, we see that support from the family is critical for them. To ensure that, we need ways to educate men on how women can support them in providing better livelihoods. Creating plans and roadmaps for women would help achieve a gender-empowered agricultural domain, but we must also bring behavior change among men towards a more accepting role of women in farming and decision making.
One last question related to this special day. Why do you love your work? And how is science exciting for you?
I was assigned the position of Project Administrator; however, after working for many years with a team of experts, my interest in research slowly ignited. Thanks to the support I received, I decided to work closely on the subject and identify the areas where I may add value. Linking my knowledge and field studies, I started contributing to relevant publications like this one, which is the output of my years of experience at CIMMYT. I received a lot of support from my team, especially from Dr. M.L. Jat, who has been a great mentor throughout my journey of learning and growth.
M.L. Jat is a Principal Scientist at CIMMYT and co-author of the article. Building on this publication, CIMMYT’s gender research will be further strengthened under the One CGIAR Regional Integrated Initiative on Transforming Agri-Food Systems in South Asia (TAFSSA), which has a core learning site in Bihar.
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.
Sanjaya Rajaram (Photo: Xochil Fonseca/CIMMYT)
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.
Three scientists from the International Maize and Wheat Improvement Center (CIMMYT) have been included in the Highly Cited Researchers list for 2021, published by the Web of Science Group.
The list recognizes researchers who demonstrated significant influence in their field, or across fields, through the publication of multiple highly cited papers during the last decade. Their names are drawn from the publications that rank in the top 1% by citations for field and publication year in the Web of Science citation index.
Called a “who’s who” of influential researchers, the list draws on data and analysis performed by bibliometric experts and data scientists at the Institute for Scientific Information at Clarivate, the company which publishes the list.
This year, the three CIMMYT scientists listed are:
Bram Govaerts (left), Nicole Birrell (second from left) and Martin Kropff (right) stand for a group photo with José Francisco Gutiérrez Michel (second from right), Secretary of Agri-Food and Rural Development of Mexico’s Guanajuato state.
Today the Board of Trustees of the International Maize and Wheat Improvement Center (CIMMYT) announced leadership changes.
The Board approved the appointment of Martin Kropff, current Director General of CIMMYT, as Global Director of Resilient Agrifood Systems of CGIAR. He will play a critical role in enabling an effective transition to the new structure of CGIAR and implementing the CGIAR 2030 Research and Innovation Strategy. In this role, Kropff will be hosted by the CGIAR System Management Organization and will be based in Montpellier, France.
“We congratulate Dr. Kropff on his new position. We are convinced that he will bring to CGIAR the same excellence in science, innovation and effective management that he brought to CIMMYT,” said Board of Trustees Outgoing Chair Nicole Birrell, who completes her term in October this year.
“Through my tenure as CIMMYT Director General, we built a strong and committed team. I am sure that — with the support of the Management Committee, the Executive Committee, the Board, and the three CGIAR Science Group directors — the work of CIMMYT will find a good place in CGIAR,” said Martin Kropff.
New Director General ad interim
Effective July 1, 2021, in accordance with CIMMYT’s Constitution, the Board of Trustees appointed Bram Govaerts as CIMMYT’s Director General ad interim.
Govaerts has been part of the CIMMYT family since 2007. He is Chief Operating Officer and Deputy Director General for Research (Sustainable Production Systems and Integrated Programs) ad interim. He is also the director of CIMMYT’s Integrated Development Program.
Govaerts is renowned for pioneering, implementing and inspiring transformational changes for farmers and consumers in meeting sustainable development challenges. He brings together multi-disciplinary science and development teams to integrate sustainable, multi-stakeholder and sector strategies that generate innovation and change in agri-food systems.
“On behalf of the full Board, we want to thank Dr. Govaerts for his leadership and willingness to ensure that the Center, our research and our operations continue to run smoothly to serve our mandate and mission, as well as the broader One CGIAR vision,” said Board of Trustees Incoming Chair Margaret Bath.
“The world needs CIMMYT and our mission now more than ever, to respond to the challenges that are ahead. We are ready to take up this role, as CIMMYT has done ever since Norman Borlaug and his talented team started their work in the service of the poorest. Let us continue celebrating his legacy by generating further impact through our science,” Govaerts said.
Drone view of CIMMYT’s experimental station in Toluca, State of Mexico, Mexico. A valley located at 2,630 meters above sea level with a cool and humid climate is the ideal location for selecting wheat materials resistant to foliar diseases, such as wheat rusts. Most of the trials done here are for wheat and triticale, but also include a couple maize plots. (Photo: Alfonso Cortés/CIMMYT)
The International Maize and Wheat Improvement Center (CIMMYT) will rename one of its most historic and successful wheat experimental stations in honor of Sanjaya Rajaram, a former Wheat Program director, distinguished scientist and World Food Prize laureate.
Rajaram, one of the most successful and influential wheat breeders ever, passed away in Mexico on February 17, 2021. The wheat experimental station managed by CIMMYT in Toluca, Mexico, will be renamed “Centro Experimental Sanjaya Rajaram” in his honor.
Rajaram joined CIMMYT in 1969, working alongside Nobel Prize Laureate and scientist Norman Borlaug in Mexico. Recognizing his talent and initiative, Borlaug appointed Rajaram as head of CIMMYT’s wheat breeding program when he was 29 years old. His career accomplishments include overseeing the development of more than 480 high-yielding, disease-resistant wheat varieties, which are sown today on 58 million hectares in 51 countries.
Norman Borlaug (right) in the field with Sanjaya Rajaram, his successor as head of CIMMYT’s wheat program. (Photo: Gene Hettel/CIMMYT)
The wheat experimental station is located on the outskirts of Mexico’s fifth largest city, Toluca, about 60 kilometers southwest of Mexico City. It is a key testing location in the shuttle breeding process that Borlaug developed in the 1960s in his quest for high-yielding wheat to avert global famine — a breeding process that successfully continues to this day. It is also the site where Borlaug famously received news of his 1970 Nobel Peace Prize win.
“Dr. Rajaram was a world-renowned wheat breeder and scientist and a true hunger fighter. In 2014, he was recognized with one of the highest honors in agriculture, the World Food Prize, in acknowledgement for improving the lives of hundreds of millions of people through his work on high-yielding and disease-resistant wheat varieties grown on more than 58 million hectares throughout the world,” said CIMMYT Director General Martin Kropff. “He was an inspiring and cherished presence at CIMMYT for 40 years. His loss is felt by all of us and I am delighted to be able to honor him this way.”
“It is only fitting that a wheat experimental station crucial to Borlaug’s pioneering work be named for Dr. Rajaram, who followed in his footsteps,” said CIMMYT Chief Operating Officer, Deputy Director General for Research, and Integrated Development Program Director Bram Govaerts.
A virtual event to remember Rajaram and officially dedicate the Toluca station in his honor is tentatively planned for May.
Denise E. Costich, the recently retired head of the Maize Collection at the Germplasm Bank of the International Maize and Wheat Improvement Center (CIMMYT), sometimes likes to include a Woody Allen quote in her presentations.
“I have no idea what I’m doing,” declares the text over a photo of a befuddled-looking Allen. “But incompetence never stopped me from plunging in with enthusiasm.”
This is perhaps Costich’s tongue-in-cheek way of acknowledging the unusual trajectory that led her to the Germplasm Bank and her zeal for new and interesting challenges. But it is in no way an accurate reflection of the skill, knowledge and humane managerial style she brought to the job.
“CIMMYT requires individuals with a broad set of experiences,” says Tom Payne, head of the Wheat Collection at CIMMYT’s Germplasm Bank. Though she was not trained as a crop scientist, and despite having never worked in a genebank before, Costich’s rich set of professional and life experiences made her an ideal person for the job.
From Ithaca and back again
Born and raised in Westbury, NY, Costich spent much of her childhood on a tree nursery. Her grandfather was the manager, her father became the sales director and eventually her sister also went into the horticulture business. While her experiences on the nursery contributed to an early interest in plants and ecology, the business aspect of the nursery eluded her. “I just can’t sell things. I’m terrible,” Costich says. “But I really do like to study them.”
This studiousness took her to Cornell University in Ithaca, NY, where she initially declared as a wildlife biology major. Her notion of what it meant to “study things” was influenced by her early heroes, primatologists and field biologists Dian Fossey and Jane Goodall. It involved travel. Fieldwork in faraway places. So, when the opportunity arose at the end of her sophomore year to travel to Kenya with Friends World College, Costich didn’t hesitate.
Costich eventually spent four years in Kenya, studying baboons. When she finally returned to Ithaca, she knew two things. Fieldwork was absolutely her thing, and she wanted to pursue a doctorate.
A chance conversation with her housemates in her last semester led to a post-graduation fieldwork stint in the Brazilian Amazon under the supervision of the legendary tropical and conservation biologist, Thomas Lovejoy. But instead of a dissertation topic, she stumbled across a parasite, a case of leishmaniasis and the realization that the rainforest was not the work environment for her.
Unexpected influences and outcomes continued to mark Costich’s career throughout her graduate studies at the University of Iowa. She found her plant not in the field, but while reading a dusty review paper as an exchange student at the University of Wisconsin. Her study of Ecballium elaterium (a wild species in the Cucurbitaceae, or squash, family) did not take her back to the tropics — where most of her peers were working and where she expected to be headed as a grad student — but rather to Spain where, incidentally, she first learned Spanish.
Several years after defending, Costich landed a tenure-track position in the Biology Department at The College of New Jersey. She continued to publish on Ecballium elaterium. Her career appeared to be settling into a predictable, recognizable academic trajectory — one with no obvious intersection with CIMMYT.
Then Costich saw an ad in the Ecological Society of America bulletin for a managing editor position for all of the Society’s journals. Her husband, a fellow biology Ph.D., had been working as an academic journal editor for several years. When Costich saw the ad she immediately drove over to her husband’s office. “I slapped the thing on his desk and said, ‘Here’s your job!’” she recalls.
Costich was right. Soon after, she was on her way back to Ithaca — where the Society’s offices were located — with a family that now included three children. While it was the right move for her family, it came at the cost of her budding academic career. In Ithaca, she soon found herself stuck in the role of itinerant postdoc.
Denise Costich in Spain in 1986, doing fieldwork on Ecballium elaterium with her daughter Mara.
An amazing turn of events
Costich admits that, especially the beginning, the return to Ithaca was tough, even depressing. Her recollections of these years can sound a bit like a game of musical chairs played with research laboratories. As one post-doc or research project wound down, she’d find herself scanning the campus for her next perch. She became very adept at it. “In ten years, I never missed a paycheck,” Costich says.
The turn of the millennium found Costich scanning the horizon yet again. As the days wound down at her latest post, a maize geneticist moved into the lab next door. What started as hallway jokes about Costich jumping ship and joining the maize lab soon turned into an interview, then a job offer.
The job introduced her to nearly everyone at Cornell working in maize genetics. Costich soon found herself managing the Buckler Lab’s work on maize population genetics. Meanwhile, she dabbled in side projects on Tripsacum, a perennial grass genus that is closely related to maize, and managed a major project on switchgrass. At the end of her postdoc, Buckler set to work trying to create a permanent position for her. Once again, Costich’s trajectory was beginning to take a stable, predictable form.
Then CIMMYT scientist Sarah Hearne showed up. “I’d heard through the grapevine — or maybe through the corn field — that the position of manager of the Maize Collection of CIMMYT’s Germplasm Bank was open… and that they were having a hard time trying to find a person for the position,” Costich recalls. She had met Hearne previously and personally knew and had worked with Suketoshi Taba, the pioneering longtime director of the germplasm bank. Naturally the topic emerged as she and Hearne caught up in Ithaca.
Hearne admitted that the search hadn’t yet been successful. “But I know the perfect person for the job,” she added.
“Yeah, who’s that?” Costich asked, not getting the setup.
Denise Costich, the maize collection manager at CIMMYT’s Maize and Wheat Germplasm Bank, shows one of the genebank’s more than 28,000 accessions of maize. (Photo: Luis Salazar/Crop Trust)
A stranger in a strangely familiar land
Costich was not a little surprised by the suggestion. She had never worked at a germplasm bank before. She was finally finding some stability at Cornell.
At the same time, her early dreams of exploring new places through her work, especially the tropics, beckoned. Her youngest son was nearly college-aged. Against the advice of some who had watched her work so hard to establish herself at Cornell, she took the plunge.
By the time she reached the CIMMYT campus in Texcoco, Costich had crisscrossed a good part of the globe, picking up Spanish here, management skills there, a deep knowledge of maize and its biological and cultural evolution yonder. During this life journey, she developed a deep humanism that is all her own.
It all seemed like happenstance, perhaps, until she reached Mexico and — suddenly, counterintuitively — found herself in the field she was perfectly adapted for. “It turned out that being a germplasm bank manager was the perfect job for me, and I didn’t even know it!” Costich says. “I ended up using everything I learned in my entire career.”
That isn’t to say that it was easy, especially at first. Taba, her predecessor, had occupied the post for decades, was a trained crop scientist, and had grown the bank from a regionally-focused collection with 12,000 accessions to the preeminent maize germplasm bank globally with 28,000 accessions, a state-of-the-art storage facility, and a slew of pioneering practices.
Not only had Taba left enormous shoes to fill, during his tenure — as is common in the expansionary phase of many projects — it had been difficult for the bank to keep a full accounting and understanding of all the new material that had been added. According to germplasm bank coordinator Cristian Zavala, by the time Costich joined CIMMYT “we knew very little about the material in our vaults.”
“Taba was primarily a breeder,” Costich says. “I actually think this oscillation between a focus on breeding and a focus on conservation and curation is good for the bank.”
Visiting a newly-built community seed reserve in Chanchimil, Todos Santos Cuchumatanes, Huehuetenango, Guatemala, in 2016. From left to right: Mario Fuentes (collaborator), a member of the community seed reserve staff, Denise Costich, Carolina Camacho (CIMMYT), Miriam Yaneth Ramos (Buena Milpa) and Esvin López (local collaborator).
Visiting one of the oldest community seed reserves in the region, Quilinco, Huehuetenango, Guatemala, in 2016. From left to right: Pedro Bello (UC Davis), Esvin López (local collaborator), Denise Costich, José Luis Galicia (Buena Milpa), Ariel Rivers (CIMMYT) and Miriam Yaneth Ramos (Buena Milpa).
Costich with the winners of the Second Harvest Fair and Largest Mature Ear of Jala Maize Contest in Coapa, in Mexico’s Nayarit state.
Costich (left) measures ears of corn for the Second Harvest Fair and Largest Mature Ear of Jala Maize Contest in Coapa, in Mexico’s Nayarit state in 2019.
Costich (center) shares some comments from the stage at the Second Harvest Fair and Largest Mature Ear of Jala Maize Contest in Coapa, in Mexico’s Nayarit state. To her left is Angel Perez, a participating farmer from La Cofradía, and to her right, Rafael Mier, Director of the Fundación Tortillas de Maíz Mexicana.
A bank for farmers
However, according to Zavala, because of the limited knowledge of much material they were working with, many in the bank’s rank-and-file didn’t fully understand the importance of their work. Morale was mixed. Moreover, despite an assumption that her new job would see her working closely with local smallholders, Costich found that the institution was poorly known by everyday farmers in its host country. Where it was known, associate scientist on innovation and social inclusion, Carolina Camacho, notes, there was an assumption that CIMMYT only worked with hybrid varieties of maize and not the native landraces many smallholders in Mexico depend on.
These became the principal axes of Costich’s work at the bank: curation of backlogged material, staff development, and community outreach.
Thus, when Costich realized that records were being kept in a combination of paper and rudimentary digital formats, she sent Zavala, a promising young research assistant at the time, to an internship at the USDA’s Maize Germplasm Bank Collection in Ames, Iowa, to workshops at CGIAR germplasm banks in Colombia (CIAT) and Ethiopia (ILRI), and to meetings on specialized topics in Germany and Portugal.
Zavala had never left the country before, spoke little English, and remembers being “rebellious” at work. “I needed more responsibility,” he says. “Dr. Denise saw that and helped me grow.” Upon returning from an early trip, Zavala helped implement up-to-date traceability and data management processes, including migrating the genebank’s data onto the USDA’s GRIN-Global platform.
But as Payne points out, Costich’s tenure was never about simple bean — or, in this case, grain — counting. “She sees a more human aspect of the importance of the collections,” he says. The main tasks she set for the bank came to be subsumed into the overarching goal of a fuller understanding of the contents of the bank’s vaults, one that encompassed both their biological and sociocultural importance.
When Costich came across a collection of maize landraces from Morelos state assembled by Ángel Kato in the mid 1960s that conserved the name of the farmer who had donated each sample, she worked with Camacho and graduate student Denisse McLean-Rodriguez to design a study involving the donor families and their communities. McLean-Rodriguez, Camacho and Costich set out to compare the effects of ex-situ versus in-situ landrace conservation in both genetic and socioeconomic terms.
Similarly, when a colleague at INIFAP invited Costich to be a judge at a yearly contest for largest ear of Jala landrace maize in Mexico’s Nayarit state, they soon began discussing how they could contribute more than just their participation as judges to the community. Starting in 2016 Costich was a co-lead on a study of the landrace’s genetic diversity as well as an initiative to rematriate Jala seeds conserved at CIMMYT for over 60 years.
Costich and members of the Maize Collection team hosting Pedro Bello from UC Davis (center, glasses) at the CIMMYT Germplasm Bank in Texcoco, Mexico, for a workshop on seed longevity and conservation techniques.
A genebank is not an island
Genebanks are bulwarks against genetic erosion. But, as Camacho explains, this mission can be understood in both very narrow and very broad senses. The narrow sense focuses on genetic processes per se: the loss of alleles. The broad sense includes the loss of cultural practices and knowledge built and sustained around the cultivation of a given landrace. Through the initiatives the bank has undertaken during her tenure, Costich has tried to demonstrate, both scientifically and in practice, how germplasm collections such as CIMMYT’s can complement, reinforce, and be enriched by the work of smallholders — de facto germplasm conservators in their own right — while contributing to the difficult task of combating genetic erosion in the broad sense.
One gets the sense that in Costich’s view this isn’t about a one-way process of big institutions “helping” smallholders. Rather it’s about collaboration among all the participants in an interdependent web of conservation. As she argued at her recent exit seminar, Costich views germplasm banks as one link in a chain of food security backups that begins at the farm level.
Indeed, Costich’s most recent initiative demonstrated how innovations intended for one link in the chain can travel upwards and find applications at bigger institutions.
Costich recently led an initiative with community seed banks in the Cuchumatanes mountain range of Guatemala to study the use of DryChain technology in post-harvest storage of maize. This experiment showed the enormous benefits that incorporating such technologies could yield for energy-insecure or low-tech family and community seed reserves.
Ultimately, however, the study led to a second experiment at CIMMYT’s tropical-climate station at Agua Fría in Mexico. With advice from collaborators at UC Davis and an industry partner (Dry Chain America), the seed conditioning team retrofitted an old drying cabinet at the station to dry maize without using heat, but rather by forcing air to circulate through sacks of drying beads. Under the direction of Filippo Guzzon, a postdoc and seed biologist working with Costich, the long-term viability of seeds dried using the accelerated technique versus traditional, slower techniques was tested. The study showed no loss in long-term viability using the accelerated drying technique.
Denise Costich, CIMMYT director general Martin Kropff, and the Maize Collection team confer certificates of participation to two visiting interns, Jiang Li (to the left of Kropff), a doctoral student from CAAS, Beijing, China, and Afeez Saka Opeyemi (to the right of Costich), a staff member of the IITA Germplasm Bank in Nigeria.
Costich and the Maize Collection team at the 2018 CIMMYT Christmas party. Filippo Guzzon, seated to the right of Costich, had just been offered a postdoc with the team.
Costich and the Maize Collection team at the 2018 CIMMYT Christmas party.
A very busy retirement
At her exit seminar, Costich was presented a plaque in appreciation of her service at CIMMYT by Kevin Pixley, director of the genetic resources program. Terence Molnar, maize breeder with the Genetic Resources Team, has succeeded Costich as the Maize Germplasm Bank Head.
For some of her close colleagues, however, Costich’s departure is not the end of the road. “This is not a forever goodbye,” Guzzon says. “I will continue to be in touch with my cuatita,” says Camacho, who has also left CIMMYT.
For her part, Costich echoes that this is not a forever goodbye at all. Not to her friends and colleagues, and certainly not to her work. At a socially-distanced, maize-based farewell lunch Costich held just days before her departure, she was still busy weaving social connections and furthering collaborations among maize fanatics of all stripes — from chefs and designers to scientists and policy advocates.
She is already considering taking a part time position at her old lab at Cornell and a return to Tripsacum research. At the same time, she will be a visiting scientist at Mexico’s National Center for Genetic Resources (CNRG), where officially she will be heading up part of an international switchgrass study. Costich is hoping to leverage her tenure at CIMMYT by getting involved in a push to help improve the Mexican national system for plant genetic resources. Additionally, she has recently accepted an invitation from Seed Savers Exchange to join their board and she is looking forward to volunteering her time and expertise to various seed-saving initiatives within that organization and their many collaborators.
Asked what she’s looking forward to tackling in her retirement that isn’t work related, Costich betrays her deep allegiance to the plant world. “I don’t know,” she says, “I’m thinking of starting a big vegetable garden.”
Cover photo: Denise Costich stands for a photo during the inauguration of the CIMMYT Genebank museum in 2019. (Photo: Alfonso Cortés/CIMMYT)
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.
The President of India, Ram Nath Kovind (left) and the Minister of External Affairs, Subrahmanyam Jaishankar (right) announce the award to Ravi Singh. (Photo: Ministry of External Affairs, India)
Ravi Singh, Distinguished Scientist and Head of Global Wheat Improvement at the International Maize and Wheat Improvement Center (CIMMYT), has received the highest honor conferred by the Government of India to non-resident Indians.
The Pravasi Bharatiya Samman Award recognizes outstanding achievements by non-resident Indians, persons of Indian origin, or organizations or institutions run by them either in India or abroad. Awardees are selected for their support to India’s causes and concerns by a committee led by the Vice President and the Minister of External Affairs of India. The awardees, according to the awards website, “represent the vibrant excellence achieved by our diaspora in various fields.” The online award announcement ceremony took place on January 9, 2021, with India’s President Ram Nath Kovind as a chief guest.
Ravi Singh, whose career at CIMMYT spans 37 years, was recognized for his invaluable contributions to wheat research and the development and training of scientists that have increased food production and nutritional security in Mexico, India and numerous other countries in Africa, Asia and Latin America.
“The award recognizes and values many years of wheat breeding at CIMMYT, where I had the opportunity, privilege and satisfaction to have contributed and made impacts through our invaluable partners in India and many other countries,” Singh said. “By continuously providing superior varieties, we increased wheat production and incomes of millions of smallholder farming families.”
Singh’s nomination cited his contribution to the development, release and cultivation by national partners worldwide of over 550 wheat varieties over the past three decades. These national partners include the Indian Council of Agricultural Research (ICAR) and its affiliated institutions in India. These varieties, sown annually on over 40 million hectares by as many farmers, add over $1 billion annually to farmers’ incomes through increased productivity and built-in disease resistance, thus reducing chemical dependence to a negligible level.
Ravi Singh (left, in striped shirt) shows students how to score the seed of freshly-harvested wheat lines at CIMMYT’s experimental station near Ciudad Obregón, Mexico, during the international Wheat Improvement Course in 2007. (Photo: CIMMYT)
“Great teamwork leads to breakthroughs — and is the only way to achieve a common goal. Dr. Ravi Singh’s work alleviating hunger is a great service to mankind,” said Gyanendra Pratap Singh, director of the ICAR Indian Institute of Wheat and Barley Research (ICAR-IIWBR). “We are proud to have him on our team.”
“This award recognizes Dr. Ravi Singh’s important contribution to CIMMYT wheat breeding, delivering major impacts to wheat production and smallholder livelihoods in India, and around the world,” said Alison Bentley, director of CIMMYT’s Global Wheat Program.
Over his career, Singh has nourished and further expanded an already strong partnership between CIMMYT, ICAR and various agricultural universities in India by developing and sharing each year new, diverse wheat varieties possessing increased grain and straw yields, resistance to diseases such as rusts, spot blotch and blast, climate resilience, and processing and nutritional quality.
Over the past decade, Singh’s team developed about half of the wheat varieties released in India through the ICAR network. These include the country’s first high-yielding biofortified varieties, WB-2 and PBW1-Zn, released in 2017 to benefit India’s zinc-deficient population.
Millions of farmers in India continue to grow CIMMYT wheat varieties or their derivatives developed by Indian institutions, to ensure safe and abundant harvests and better nutrition.
Ravi Singh’s numerous recognitions include membership as a Fellow of the American Association for the Advancement of Science (AAAS), the American Phytopathological Society (APS), the Crop Science Society of America (CSSA), the American Society of Agronomy (ASA) and India’s National Academy of Agricultural Science (NAAS). His awards include the Outstanding CGIAR Scientist Award, the CSSA Crop Science Research Award, the University of Minnesota E.C. Stakman Award, and the China State Council’s Friendship Award, among others. He has been included among the top 1% of highly cited researchers according to Clarivate Analytics-Web of Science every year since 2017. Singh also serves as Adjunct Professor at Cornell University and Kansas State University.
Byrd C. Curtis, director of CIMMYT’s Global Wheat Program from 1982 to 1988. (Photo: CIMMYT)
The International Maize and Wheat Improvement Center (CIMMYT) sadly notes the passing of Byrd C. Curtis, former Director of the Global Wheat Program, on January 7. He was 95 years old and lived in Fort Collins, Colorado, USA, with his wife Eloise Curtis.
From his studies at Oklahoma State University to retiring after a fruitful international career with Colorado State University, Cargill Inc. and CIMMYT, he never got weary of sharing his passion for breeding better, tastier and sturdier wheat to improve peoples’ livelihoods.
He was an innovator at heart and his legacy will live on through Colorado State University’s wheat breeding program and the many wheat varieties he developed. Not only did he start Colorado State University’s wheat breeding program in 1963, but he also ensured that the varieties that were bred by his team reflected the needs of humanity for decades to come, such as the hard, red winter wheat variety named after himself.
Curtis worked at CIMMYT from 1982 and 1988 as Director of the Global Wheat Program. Together with his team, he worked to position CIMMYT as the leading international research-for-development and breeding organization for wheat for years to come.
“Byrd was very keen to build oral communication skills of scientists, which has been very helpful to me,” said Ravi Singh, Head of Global Wheat Improvement at CIMMYT. “He also initiated the Turkey-CIMMYT-ICARDA International Winter Wheat Improvement Partnership’s (IWWIP) winter wheat breeding program and even worked there in Turkey in his final year with CIMMYT to ensure it would take off well.”
Byrd was instrumental and showed tremendous foresight. IWWIP’s establishment in Turkey became first major breeding program within CGIAR that was hosted by a national program. He strongly supported the creation of the Wide Crossing Program. The synthetic wheat varieties developed in this program have had global impact on wheat improvement.
Aside from his remarkable technical legacy, Byrd had a knack for choosing the right people for the job. In the six years as Director of the Global Wheat Program, he hired scientists who held major roles in global wheat improvement: Ravi Singh, Distinguished Scientist and Head of Global Wheat Improvement; Wolfgang Pfeiffer, former leader of spring bread wheat, durum wheat, and triticale crop improvement; and Hans Braun, Director of the Global Wheat Program from 2004 to 2020.
“Byrd not only initiated the winter wheat program,” said former Global Wheat Program Director Hans Braun, who was hired by Byrd in 1983. “He was also director when the tropical wheat program was implemented in Thailand.” This program’s work increased yields up to 1.5 tons per hectare but ultimately did not convince Thai farmers. Nevertheless, Braun said, “One of the oddest experiences I’ve had was to see our winter wheat material from Turkey grown in the Thai jungle!”
After retiring from his professional life in 1991, Curtis and his wife Eloise moved back to Fort Collins, where his career started in the 1960s and where he will be remembered by his townspeople — and fellow athletes and gym-goers — for his determination and active lifestyle.
The CIMMYT community sends its deepest sympathies and wishes for peace to the Curtis family.
Three scientists from the International Maize and Wheat Improvement Center (CIMMYT) have been included in the 
