CIMMYT training courses play a critical role in helping international researchers meet national food security and resource conservation goals. By sharing knowledge to build communities of agricultural knowledge in less developed countries, CIMMYT empowers researchers to aid farmers. In turn, these farmers help ensure sustainable food security. In contrast to formal academic training in plant breeding and agronomy, CIMMYT training activities are hands-on and highly specialized. Trainees from Africa, Asia and Latin America benefit from the data assembled and handled in a global research program. Alumni of CIMMYT courses often become a significant force for agricultural change in their countries.
Haiti has the lowest maize yields in Latin America and the Caribbean, and around half of the population is undernourished. Five hurricanes in the past decade and a magnitude 7.0 earthquake in 2010 have only exacerbated these issues. In 2017, CIMMYT sent 150 tons of new and improved maize seed to the Caribbean nation to jump-start its maize seed sector, improve food security and decrease malnutrition. It was the largest seed shipment to any country in CIMMYT’s history.
In this episode, CIMMYT’s Seed Systems Lead for Africa and Latin America, Arturo Silva Hinojosa, discusses why CIMMYT sent this seed and organized trainings, how they overcame major roadblocks, and what’s in store for the future.
Learn more about the project by reading “Seeds of Hope” from the CIMMYT 2017 Annual Report.
How to scale? This question frequently comes up as projects look to expand and replicate results. In order to sustain enduring impacts for projects after their lifetime, agricultural programs are turning to scaling strategies. These strategies look beyond the numbers that are reached within a project and include sustainability and transformation beyond the project context. Methods and tools exist that help anticipate realistic and responsible scaling pathways.
The Scaling team at the International Maize and Wheat Improvement Center (CIMMYT), led by Lennart Woltering, drives the initiative to incorporate scaling principles into existing and developing projects to maximize impact.
Maria Boa recently joined the team as Scaling Coordinator. Last year Boa and Woltering participated in regional meetings on scaling in Morocco, Tunisia and Vietnam, which highlighted the need for better dissemination of information on how to approach scaling, in addition to its benefits.
Participants of the Tunisia workshop collaborate on a group exercise.
According to Boa, one of the key messages highlighted throughout these events was that in order for scaling to take hold and be integrated into projects, “…there needs to be a shift in mindset to accept that change is complex and that most projects only address a fraction of the problem.” This is essential in using scaling to effectively support long-term results.
At a workshop in Tunisia organized by ICARDA, IFAD and CIMMYT in November 2018, many participants expressed interest in scaling strategy tools, but were puzzled on how to integrate them into their specific projects. Many determined that they were stuck developing scaling strategies in an outdated framework, or one that strictly focused on using technological innovations. One participant admitted that she was skeptical of scaling perspectives because many did not lie in her field of expertise.
The November 2018 CCAFS SEA Conference on Scaling in Vietnam provided a platform for the sharing and learning of experiences in the scaling world. Some of the key messages from the event included the importance of scaling agricultural innovations taking place in complex systems of agricultural transformation, and the necessity of joint cooperation from all involved stakeholders and their openness to taking on challenges as a way to support sustainable system change.
According to Boa, scaling is a process that heavily relies on strategic collaboration for lasting impact. “Projects often don’t take into account how they’re a part of a larger chain of potential change,” she says.
Already recognized as a sustainable leader within scaling, CIMMYT is looking to strengthen scaling efforts in order to foster a more enduring impact within CIMMYT projects and beyond.
Lennart Woltering presents at the CCAFS SEA Conference in Vietnam.
Currently, the Scaling team at CIMMYT is conducting research on the “science of scaling” as it continues to function as a “help desk,” providing support integrating scaling principles in proposals and projects. Its primary role is to consider a project’s scaling needs and guide the development of an informed strategy to leverage efforts and resources. Boa hopes that by integrating responsible scaling approaches early on, projects can better balance the trade-offs associated with change.
Success in scaling is measured by a project’s enduring impact. However, stakeholders need more experience and capacity to see programs through to their end and be willing to monitor them beyond that lifespan. CIMMYT is developing and collecting the tools to support stakeholders with these specific capacities.
Developing a scaling strategy can also bring additional benefits: a discussion about scaling opens the door for raising awareness and fostering actions among different stakeholders towards system change and sustainable impact.
Nominations are now open for the 2019 MAIZE Youth Innovators Awards – Africa! These awards are part of the efforts that the CGIAR Research Program on Maize (MAIZE) is undertaking to promote youth participation in maize-based agri-food systems. These awards recognize the contributions of young women and men below 35 years of age who are implementing innovations in African maize-based agri-food systems, including research for development, seed systems, agribusiness, and sustainable intensification.
Young people are the key to ensuring a food-secure future and agricultural sustainability. However, rural youth face many challenges related to unemployment, underemployment and poverty. According to the Food and Agriculture Organization (FAO) of the United Nations, facilitating young people’s participation in agriculture has the potential to drive widespread rural poverty reduction among young people and adults alike. In Africa, where over 300 million smallholder-farming families grow and consume maize as a staple crop, the human population stands at 1.2 billion people, 60 percent of whom are below the age of 25.
The MAIZE Youth Innovators Awards aim to identify young innovators who can serve to inspire other young people to get involved in maize-based agri-food systems. Part of the vision is to create a global network of young innovators in maize-based systems from around the world.
Award recipients will be invited to attend the annual Stress Tolerant Maize for Africa (STMA) project meeting in Lusaka, Zambia, from May 7 to May 9, where they will receive their awards and will be given the opportunity to present their work. The project meeting and award ceremony will also allow these young innovators to network and exchange experiences with MAIZE researchers and partners. Award recipients may also get the opportunity to collaborate with MAIZE and its partner scientists in Africa on implementing or furthering their innovations.
MAIZE invites young innovators to apply and CGIAR researchers and partners to nominate eligible applicants for any of the following three categories:
Researcher: Maize research for development (in any discipline)
Farmer: Maize farming systems in Africa
Change agent: Maize value chains (i.e., extension agents, input and service suppliers, transformation agents, etc.)
We ask nominators/applicants to take into account the following criteria and related questions:
Novelty and innovative spirit: To which specific novel findings or innovation(s) has this young person contributed? (in any of the three categories mentioned above)
Present or potential impact: What is the present or potential benefit or impact of the innovation(s) in maize-based agri-food systems?
Applications should be submitted online through this form by March 15, 2019.
Key dates:
Opening date for nominations: January 21, 2019
Closing date for nominations: March 15, 2019 (Please note: Nominations received after the closing date will not be considered)
Notification of winners: March 22, 2019
Information documents:
A PDF version of this Call for Nominees is available here.
Nomination/Application Guidelines can be found here.
The Application Form can be found here and is also available on the MAIZE and YPARD websites.
This story, part of a series on the international agricultural research projects of recipients of the Crawford Fund’s International Agricultural Student Award, was originally posted on the Crawford Fund blog.
Researcher Tamaya Peressini performs disease evaluations 10 days post infection at CIMMYT’s glasshouse facilities.
In 2018, Tamaya Peressini, from the Queensland Alliance for Agriculture and Food Innovation (QAAFI), a research institute of the University of Queensland (UQ), travelled to CIMMYT in Mexico as part of her Honours thesis research, focused on a disease called tan spot in wheat.
Tan spot is caused by the pathogen Pyrenophora triciti-repentis (Ptr) and her project aimed to evaluate the resistance of tan spot in wheat to global races to this pathogen.
“The germplasm I’m studying for my thesis carries what is known as adult plant resistance (or APR) to tan spot, which has demonstrated to be a durable source of resistance in other wheat pathosystems such as powdery mildew,” Peressini said.
Symptoms of tan spot on wheat plants.
Tan spot is prevalent worldwide, and in Australia causes the most yield loss out of the foliar wheat diseases. In Australia, there is only one identified pathogen race that is prevalent, called Ptr Race 1. For Ptr Race 1, the susceptibility gene Tsn1 in wheat is the main factor that results in successful infection in Ptr strains that carry Toxin A. However, globally it is a more difficult problem, as there are seven other pathogen races that consist of different combinations of necrotrophic toxins. Hence, developing cultivars that are multi-race resistant to Ptr presents a significant challenge to breeders, as multiple resistant genes would be required for resistance to other pathogens.
“At CIMMYT, I evaluated the durability of APR I identified in plant material in Australia by inoculating with a local strain of Ptr and also with a pathogen that shares ToxA: Staganospora nodorum,” Peressini explained.
“The benefit of studying this at CIMMYT was that I had access to different strains of the pathogen which carry different virulence factors of disease, I was exposed to international agricultural research and, importantly, I was able to create research collaborations that would allow the APR detected in this population to have the potential to reach developing countries to assist in developing durably resistant wheat cultivars for worldwide deployment.”
Recent work in Dr Lee Hickey’s laboratory in Queensland has identified several landraces from the Vavilov wheat collection that exhibited a novel resistance to tan spot known as adult plant resistance (APR). APR has proven to be a durable and broad-spectrum source of resistance in wheat crops, namely with the Lr34 gene which confers resistance to powdery mildew and leaf stem rust of wheat.
“My research is focused on evaluating this type of resistance and identifying whether it is resistant to multiple pathogen species and other races of Ptr. This is important to the Queensland region, as the northern wheat belt is significantly affected by tan spot disease. Introducing durable resistance genes to varieties in this region would be an effective pre-breeding strategy because it would help develop crop varieties that would have enhanced resistance to tan spot should more strains reach Australia. Furthermore, it may provide durable resistance to other necrotrophic pathogens of wheat,” Peressini said.
The plant material Peressini studied in her honors thesis was a recombinant inbred line (RIL) population, with the parental lines being the APR landrace — carries Tsn1 — and the susceptible Australian cultivar Banks — also carries Tsn1. To evaluate the durability of resistance in this population to other strains of Ptr, this material along with the parental lines of the population and additional land races from the Vavilov wheat collection were sent to CIMMYT for Tamaya to perform a disease assay.
“At CIMMYT I evaluated the durability of APR identified in plant material in Australia by inoculating with a local strain of Ptr and also with a pathogen that shares ToxA: Staganospora nodorum. After infection, my plant material was kept in 100 per cent humidity for 24 hours (12 hours light and 12 hours dark) and then transferred back to regular glasshouse conditions. At 10 days post infection I evaluated the resistance in the plant material.”
From the evaluation, the APR RIL line demonstrated significant resistance compared to the rest of the Australian plant material against both pathogens. The results are highly promising, as they demonstrate the durability of the APR for both pre-breeding and multi-pathogen resistance breeding. Furthermore, this plant material is now available for experimental purposes at CIMMYT, where further trials can validate how durable the resistance is to other necrotrophic pathogens and also be deployed worldwide and be tested against even more strains of Ptr.
“During my visit at CIMMYT I was able to immerse myself in the Spanish language and take part in professional seminars, tours, lab work and field work around the site. A highlight for me was learning to prepare and perform toxin infiltrations for an experiment comparing the virulence of different strains of spot blotch,” Peressini said.
During her stay in Mexico, Peressini had a chance to visit the pyramids of Teotihuacán and other cultural landmarks.
“I also formed valuable friendships and research partnerships from every corner of the globe and had valuable exposure to the important research underway at CIMMT and insight to the issues that are affecting maize and wheat growers globally. Of course, there was also the chance to travel on weekends, where I was able to experience the lively Mexican culture and historical sites – another fantastic highlight to the trip!”
“I would like to thank CIMMYT and Dr Pawan Singh for hosting me and giving the opportunity to learn, grow and experience the fantastic research that is performed at CIMMYT and opportunities to experience parts of Mexico. The researchers and lab technicians were all so friendly and accommodating. I would also like to thank my supervisor Dr Lee Hickey for introducing this project collaboration with CIMMYT. Lastly, I would like to thank the Crawford Fund Queensland Committee for funding this visit; not only was I able to immerse myself in world class plant pathology research, I have been given valuable exposure to international agricultural research that will give my research career a boost in the right direction,” Peressini concluded.
Group photo during the IMIC-Africa inception workshop in Harare, Zimbabwe, in May 2018. (Photo: CIMMYT)
Maize is the most important staple food crop in sub-Saharan Africa, providing food security and a source of income to more than 200 million households. Nonetheless, maize yields in this region rank among the lowest worldwide.
The International Maize and Wheat Improvement Center (CIMMYT) launched the International Maize Improvement Consortium for Africa (IMIC-Africa) in May 2018, to better engage with a committed set of partners from the public and private sector, and to achieve enhanced maize yields in Africa.
Members of IMIC-Africa share a vision: meeting the challenges of maize production by scaling out and fully exploiting the potential of improved climate-resilient and stress-tolerant varieties in sub-Saharan Africa.
Cultivated on over 35 million hectares of typically rainfed land across sub-Saharan Africa, maize is subject to the vagaries of climate, suffering occasional to frequent drought stress. Other regional challenges include poor soil quality, characterized by nitrogen deficiency, and the ongoing threat of transboundary pathogens and pests, such as the voracious fall armyworm. In addition, farmers generally have inadequate access to improved seed that could help them achieve higher yields.
Although the challenges are complex, the effective use of improved, climate-resilient and multiple-stress-tolerant maize varieties has achieved tangible results in this region. Elite drought-tolerant (DT) maize hybrids developed by CIMMYT have demonstrated at least 25-30 percent grain yield advantage over non-DT maize varieties in sub-Saharan Africa under drought stress. CIMMYT has also derived elite heat-tolerant maize hybrids for sub-Saharan Africa, and during the recent outbreak of maize lethal necrosis (MLN), the rapid development and deployment of elite MLN-resistant hybrids was instrumental in the containment of this threat to eastern Africa.
Modelled on its successful counterpart initiatives in Asia (IMIC-Asia) and Latin America (IMIC-LatAm), there is hope that IMIC-Africa will follow a similar pattern of success.
The consortium is comprised of a diverse array of member institutions, including seed companies, national programs and foundations.
Its key objective is to enhance members’ capacity for germplasm development in their own breeding programs through provision of early generation or advanced maize lines. The subsequent multi-location testing of elite pre-commercial maize hybrids throughout sub-Saharan Africa by members will serve to identify products that can advance to commercialization and deployment.
“IMIC-Africa has a growing membership aimed at formalizing the sharing of maize lines under development with public and private maize breeding programs,” said CIMMYT scientist and Africa regional representative Stephen Mugo. “The consortium will also support a vibrant germplasm testing network, offer opportunities for training and cross learning among members, and grant access to other special services offered by CIMMYT including MLN testing, doubled haploid development and molecular quality assurance/quality control.”
The work of the consortium will ultimately benefit the farming community through the targeted development of maize varieties that express traits jointly identified and prioritized by consortium members and that are specifically adapted to the suite of agro-ecologies in sub-Saharan Africa. Traits of relevance include tolerance to abiotic stresses, disease and insect-pest resistance and higher yielding hybrids.
“IMIC-Africa will contribute to food security in Africa by broadening access to and use of stress-tolerant improved maize germplasm as well as strengthening maize breeding programs, thus improving farmers’ access to improved maize varieties,” Mugo explained.
Membership of IMIC-Africa is open to all organized and registered private commercial seed companies, corporations, and organized and registered public agencies or organizations involved in maize crop research and improvement, hybrid seed production or maize seed marketing.
For further information about membership and eligibility, please contact B.M. Prasanna, Director of CIMMYT’s Global Maize Program and the CGIAR Research Program on Maize: b.m.prasanna@cgiar.org.
Kristie Drucza (left) and Rahma Adam (right) had a chance to share CIMMYT’s gender work with the former president of Mauritius, Ameenah Gurib-Fakim, at AWARD’s tenth anniversary event in Nairobi. (Photo: Joshua Masinde/CIMMYT)
The International Maize and Wheat Improvement Center’s (CIMMYT) gender team joined African Women in Agricultural Research and Development (AWARD) to celebrate its ten years of empowering women with essential skills and knowledge.
The AWARD program advocates for a more gender-responsive agricultural research ecosystem. This is key in driving a more sustainable and inclusive agricultural growth in Africa.
The tenth anniversary event took place in Nairobi on November 29, 2018. Rahma Adam, Gender and Development Scientist, and Kristie Drucza, Gender and Social Inclusion Researcher, showcased the work that CIMMYT’s gender team has done on maize and wheat-based farming systems, not just in Africa, but globally.
“Our participation at AWARD’s anniversary celebrations was not an end in itself, but rather relevant for other organizations within and outside the CGIAR system to learn from CIMMYT’s gender strategic and inclusive research work and draw lessons from it,” Adam said. “We especially appreciate the work done by AWARD, including the leadership trainings offered to promising young women at academic and research institutions, and at international organizations across Africa and beyond.”
Several researchers at CIMMYT have participated in AWARD’s initiatives, both getting mentorship or training and mentoring fellow scientists, thereby nurturing the next crop of researchers and leaders in agriculture.
“These courses are useful in helping one to strike a balance between being a good researcher and a good leader at the workplace and beyond,” Adam said.
Drucza commented on the leadership training she participated in: “They provide opportunities for leaders (some of whom are heads of research institutes across Africa) to understand common leadership challenges women face, engage in thought-provoking conversations and create lasting networks, among other issues.”
CIMMYT researchers Kristie Drucza (left) and Rahma Adam (second from left) showcased CIMMYT’s gender work at AWARD’s tenth anniversary event in Nairobi. (Photo: Joshua Masinde/CIMMYT)
In 2018, Drucza, mentored a gender unit director at the Ethiopian Institute for Agricultural Research (EIAR). “As part of the AWARD program, my mentee attended a leadership development course as well as a scientific writing course. This improved her confidence and skills as a researcher and leader,” Drucza said.
As a beneficiary of the AWARD mentorship program in 2014-2015, Pauline Muindi, a research associate at CIMMYT’s gender unit, honed her communication and public speaking skills, which have proved useful for her work.
“These skills have enabled me to train several seed companies in eastern and southern Africa on the integration of gender in the seed value chains as well as gender integration in the workplace,” she said. Her mentor was a previous AWARD fellow. The program also helped her set realistic yet attainable goals for her career growth. “At CIMMYT, I have an opportunity to learn and gain new experiences, while at the same time build sustainable networks that are important in my professional life.”
The keynote speaker was Ameenah Gurib-Fakim, former president of Mauritius. “Women have a special power to be advocates for themselves and each other. We must become aware of that power and unleash it. Ultimately, it will be for we women to open the doors so that others may live and prosper,” Gurib-Fakim concluded.
Visiting researcher Fazleen Abdul Fatah is studying the growing importance of maize and wheat in emerging economies.
Fazleen Abdul Fatah credits a number of factors for her interest in agricultural research, from a childhood spent in a small town in one of Malaysia’s main rice farming areas, where the neighborhood revolved around agriculture, to supporting lecturers and professors who encouraged her interests during her undergraduate studies. “My experiences as an intern in the Philippines and visiting commercial farms in Germany and Japan as a student also shaped my motivation to work in sustainable agriculture and rural development, and ultimately I’d like to be able to influence food and agriculture policy,” she says.
Now a senior lecturer in the Faculty of Plantation and Agrotechnology at Universiti Teknologi MARA (UITM) in Malaysia, where she specializes in agricultural economics, trade and policy. For the past three months she has been based at the global headquarters of the International Maize and Wheat Improvement Center (CIMMYT) in Mexico, where she is conducting research into food consumption patterns.
Having previously completed an internship with the International Rice Research Institute (IRRI) in the Philippines, Abdul Fatah was keen to gain more experience within the CGIAR system. After graduating from the University of Gottingen, Germany, with a PhD in Agriculture Trade Policy, her interest in the growing importance of maize and wheat in emerging economies prompted her to apply for a research opportunity at CIMMYT.
“I’m very interested in understanding how current shifts in food consumption patterns might affect the consumption of cereals in Indonesia and Malaysia.” Her previous research focused on the shift to cereals from food items such as meat, fish, or vegetables, but Abdul Fatah notes that few studies document shifts between cereals. “Rice is typically the main staple food crop for Malaysians,” she explains, “but changes in diets, incomes, and urbanization mean that people are shifting towards maize and wheat. What I’ve found more striking from my research is that in some areas people are actually consuming more wheat than rice, which means there are going to be some interesting decisions for policy makers to consider in the near future, especially in terms of import strategies.”
Abdul Fatah presented her initial research findings at CIMMYT, where she updated colleagues on her efforts to analyze consumption patterns for major cereals in 11 developing countries in Africa and Asia using government household surveys and World Bank datasets. She hopes to continue this line of research once she returns to UITM and is currently working on a paper based on case studies from Indonesia and Malaysia.
In 2018, our editors continued to cover exciting news and events related to maize and wheat science around the world. Altogether, we published more than 200 stories.
It is impossible to capture all of the places and topics we reported on, but here are some highlights and our favorite stories of the year.
Thank you for being a loyal reader of CIMMYT’s news and features. We are already working on new stories and platforms for 2019. Stay tuned!
In response to the spread of the fall armyworm across Africa, CIMMYT and its partners published a technical guide for integrated pest management. Produced by international experts, it offers details on the best management practices to help smallholder farmers effectively and safely control the pest while simultaneously protecting people, animals and the environment.
This year we launched our new podcast, Cobs & Spikes, where you can listen to stories from the field, interviews and explainers.
The most popular episode so far was about blue maize, a distinctive feature of Mexico’s food culture. Valued for its rich flavor and texture, it is also catching the attention of some food processing companies and high-end culinary markets. CIMMYT researchers are helping Mexican farmers tap into two emerging markets that could boost incomes while conserving culture and biodiversity.
A review of scientific studies on cereal grains and health showed that gluten- or wheat-free diets are not inherently healthier for the general populace and may actually put individuals at risk of dietary deficiencies.
Based on a compilation of 12 reports, eating whole grains is actually beneficial for brain health and associated with reduced risk of diverse types of cancer, coronary disease, diabetes, hypertension, obesity and overall mortality.
Mechanized agricultural services have traditionally only been used by large-scale farmers who could afford them, but small and medium-sized machines are fast becoming affordable options for family farmers through the advent of service providers. An increasing number of young people across eastern and southern Africa are creating a stable living as entrepreneurs, providing agricultural mechanization services.
CIMMYT is offering training courses to promote mechanization in Ethiopia, Kenya, Tanzania and Zimbabwe. Trainings equip entrepreneurs with essential business skills and knowledge, tailored to rural environments, so they can support farmers with appropriate mechanization services that sustainably intensify their production.
After receiving training from CIMMYT, this group of young men started a small business offering mechanized agricultural services to smallholder farmers near their town in rural Zimbabwe. (Photo: Matthew O’Leary/CIMMYT)
In a scientific breakthrough, the International Wheat Genome Sequencing Consortium presented an annotated reference genome with a detailed analysis of gene content among subgenomes and the structural organization for all the chromosomes. The research was published on Science.
Over 46 percent of children under five in Guatemala suffer from chronic malnutrition. More than 40 percent of Guatemala’s rural population is deficient in zinc, an essential micronutrient that plays a crucial role in pre-natal and post-natal development and is key to maintaining a healthy immune system.
CIMMYT is working with partners HarvestPlus and Semilla Nueva to reduce malnutrition and zinc deficiency in the country, through the development and deployment of Guatemala’s first biofortified zinc-enriched maize.
CIMMYT was present at the African Green Revolution Forum in Kigali, Rwanda. Leaders discussed practical ways to transform policy declarations into impact on the ground, at a time when farmers are facing the challenge of climate change and the threat of emerging pests and diseases.
On the occasion of this event, CIMMYT’s Director General, Martin Kropff, and the Regional Representative for Africa, Stephen Mugo, authored an op-ed on agricultural innovation in Africa, published by Thomson Reuters (in English) and Jeune Afrique (in French).
The director general of CIMMYT, Martin Kropff, was the keynote speaker of the AGRF 2018 round-table discussion “Quality Means Quantity – Seed Processing Technology and Production Approaches for Agricultural Benefit.” (Photo: CIMMYT)
More than 280 delegates from 20 countries gathered in Ludhiana, in the Indian state of Punjab, for the 13th Asian Maize Conference and Expert Consultation on Maize for Food, Feed, Nutrition and Environmental Security.
Technical sessions and panel discussions covered topics such as novel tools and strategies for increasing genetic gains, stress-resilient maize, sustainable intensification of maize-based cropping systems, specialty maize, processing and value addition, and nutritionally enriched maize for Asia.
Conference participants pose for a group photo at the field visit site during the 13th Asian Maize Conference. (Photo: Manjit Singh/Punjab Agricultural University)
An international team of scientists applied genome-wide association analysis for the first time to study the genetics that underlie grain zinc concentrations in wheat.
Analyzing zinc concentrations in the grain of 330 bread wheat lines across diverse environments in India and Mexico, the researchers uncovered 39 new molecular markers associated with the trait, as well as two wheat genome segments that carry important genes for zinc uptake, translocation, and storage in wheat.
The reported work by wheat scientists paves the way for expanded use of wild grass species, such as Aegilops tauschii (also known as goat grass; pictured here) as sources of new genes for higher grain zinc in wheat. (Photo: Rocio Quiroz/CIMMYT)
A study in Ethiopia found that wheat grown in areas closer to the forest had more nutrients, like zinc and protein. Soils in these areas are rich in organic matter — about 1% higher — due to decomposing trees and plants, as well as manure of livestock grazed in the forest.
Increasing organic matter by 1 percent was associated with an increase in zinc equivalent to meet the daily needs of 0.2 additional people per hectare and an increase in protein equivalent to meeting the daily needs of 0.1 additional people per hectare. These modest increases in soil organic matter contribute a small, but important, increase in nutrients found in wheat.
Although these nutrient increases are not enough to address hidden hunger on their own, they reveal how healthy soils are an additional tool — alongside diet diversity and the biofortification of food — to fight malnutrition.
In 2018 we published our latest annual report, highlighting CIMMYT’s global work and collaboration with partners. It features infographics and case studies from Bangladesh, Ethiopia, Haiti, Mexico and Pakistan.
It is a good way to understand how CIMMYT’s science improves livelihoods around the world.
You can read the web version or the PDF of the report, or watch the video summary below.
NAIROBI, Kenya (CIMMYT) — When maize lethal necrosis (MLN) was first reported in Bomet County, Kenya, in September 2011 and spread rapidly to several countries in eastern Africa, agricultural experts feared this emerging maize disease would severely impact regional food security. However, a strong partnership across eight countries between maize research, plant health organizations and the private seed sector has, so far, managed to contain this devastating viral disease, which can wipe out entire maize fields. As another emerging pest, the fall armyworm, is making headlines in Africa, African countries could learn a lot from the initiatives to combat MLN on how to rapidly respond to emerging crop pests and diseases.
On November 19-20, 2018, the International Maize and Wheat Improvement Center (CIMMYT), national research and plant protection agencies and seed companies met in Nairobi to review the third year’s progress of the MLN Diagnostics and Management Project, supported by USAID. All participants agreed that preventing any spread of the disease into southern Africa was a great success.
“The fact that we all responded rapidly and productively to this crisis serves as a testament of the success of our collective efforts,” said CIMMYT’s Global Maize Program Director, B.M. Prasanna, while addressing delegates from Ethiopia, Kenya, Malawi, Rwanda, Tanzania, Uganda, Zambia and Zimbabwe. “That no new country has reported the MLN outbreak since Ethiopia last reported it in the 2014-2015 period, and that we have managed to keep it at bay from southern Africa and west Africa is no mean feat. It would have been a major food security disaster if the disease had spread throughout sub-Saharan Africa.”
However, the MLN Community of Practice warned that risks of severe outbreaks remain, with new cases of MLN reported during the MLN 2018 survey in several parts of Uganda.
Delegates from Rwanda discuss the country’s workplan at the 3-year MLN project review. (Photo: Joshua Masinde/CIMMYT)
Rapid response to a food security threat
MLN is caused by the combination of the maize chlorotic mottle virus (MCMV) and other common cereal viruses mostly from the potyviridae family — a set of viruses that encompasses over 30 percent of known plant viruses — like the sugarcane mosaic virus (SCMV). This viral disease can result in up to 100 percent yield loss and has devastated the incomes and food security situation of many smallholder farmers in the region.
CIMMYT, in collaboration with national agricultural research institutions, national plant protection agencies and seed sector partners, developed a multi-layered response system including real-time intensive surveillance, screening, and fast-tracking of the MLN resistance breeding program. Thanks to the MLN Screening Facility in Naivasha, Kenya, maize breeders rapidly discovered that most popular maize varieties were susceptible, which could expose poor farmers to the risk of losing their entire maize crops.
Using its global collection of maize lines and numerous crop improvement innovations, CIMMYT was able to develop and release at least 15 MLN-resistant maize varieties in just 2 to 3 years.
One important step was to understand how the disease spread. Epidemiologists quickly pointed out the necessity to work with the seed companies and farmers, as the virus could be transmitted through seeds. The project helped put in place the protocols for seed firms to adhere to for their products to be MLN-free. Affordable and simple seed treatment procedures yielded promising results. The project also created awareness on better farming methods for effective disease control.
National Plant Protection Organizations were mobilized to create intensive awareness. They were also equipped and trained on low-cost innovative field diagnostic tools like MLN immunostrips and the deployment of GPS-based mobile surveillance and reporting systems.
“For the first time, Rwanda was able to conduct a comprehensive survey on MLN in farmers’ fields, commercial seed fields and at agro-dealers. We are glad that through MLN management and awareness programs within the project, MLN incidences have declined,” said Fidele Nizeyimana, maize breeder and pathologist at the Rwanda Agricultural Board (RAB) and the MLN Surveillance team lead in Rwanda.
“Equally important is that the commercial seed sector took the responsibility of testing their seed production fields, made sure that seed exchange is done in a responsible manner and implemented voluntary monitoring and surveillance within their fields,” remarked Francis Mwatuni, MLN project manager at CIMMYT.
“I am happy that Malawi has maintained its MLN-free status as per the intensive MLN surveillance activities we conducted in the country over the last three years,” noted Johnny Masangwa, senior research officer and MLN Surveillance team lead in Malawi. “We are now able to monitor both seed and grain movement through our borders for MLN traces, courtesy of the lab equipment, reagents and training on laboratory analysis we received through the project”.
B.M. Prasanna, director of the CGIAR Research Program on Maize (MAIZE), discusses what the CGIAR offers in rapid response preparedness to newly emerging pests, diseases and crises.
The maize sector should remain vigilant
Daniel Bomet, maize breeder at Uganda’s National Agricultural Research Organization (NARO), warned that with new infections reported in the northern parts of his country, the maize sector needs to remain alert to the threat of MLN. “We need to step up MLN awareness and management programs, and require seed companies to follow the right procedures to produce MLN-free seeds to arrest this trend,” he said.
Tanzania Seed Association Executive Director, Bob Shuma, also warned that MLN could be spreading to the southern highlands of the country as the virus was detected in some seed shipments from three seed companies operating in that region. A comprehensive MLN survey in Tanzania will hopefully soon give an idea of the countrywide status of the disease in the country.
Conference speakers and participants noted that inefficient regulatory processes in maize seed variety release and deployment still stand in the way of rapid release of MLN resistant varieties to farmers across the region.
“How quickly we scale up and deploy the elite MLN-resistant and stress-tolerant varieties to the farmer is the next most important phase of the project,” Prasanna said.
The Kenya Plant Health Inspectorate Service (KEPHIS) General Manager, Phytosanitary Services, Isaac Macharia, said that with the support of the USAID Feed the Future program, the government agency has set up a team dedicated to assisting seed companies doing seed multiplication to fast-track the release of the MLN-resistant varieties to the market. Some Kenyan seed companies announced they will market MLN-resistant varieties for the next cropping season in March 2019.
As the project enters its last year, the MLN Community of Practice looks to ensure the fully functional pest surveillance and management system it has put in place is sustainable beyond the project’s life.
CIMMYT researchers Dave Hodson (left) and Francis Mwatuni (center) discuss MLN issues with another delegate during the 3-year MLN project review workshop. (Photo: Joshua Masinde/CIMMYT)
Agricultural extension materials on best management practices for rice (left) and cauliflower, developed by CIMMYT as part of the NSAF project.
KATHMANDU, Nepal (CIMMYT) — Maintenance and enhancement of soil fertility are vital for food security and environmental sustainability. However, a baseline survey conducted through the Nepal Seed and Fertilizer (NSAF) project shows that 95 percent of farmers have poor agronomic literacy. Most of them have little or no knowledge of proper seed and soil management practices, and do not apply fertilizer appropriately. Many farmers are also unaware of micronutrients and their specific role in crop production, so they spray micronutrient solutions as advised by agrovets. While quality seed and mineral fertilizer use are necessary to improve crop yields, use alone is not sufficient to maximize efficiency — how to use these tools is equally, if not more, important.
All these challenges indicate a need to educate farmers and help them adopt good agronomic practices that will maximize crop production and productivity.
As part of the NSAF project, the International Maize and Wheat Improvement Center (CIMMYT) has developed locally appropriate agricultural extension materials to disseminate best management practices for maize, wheat and other crops. The government of Nepal has endorsed the project’s best management practices for rice, maize, wheat, tomato, cauliflower and onion.
These extension materials have information on integrated soil fertility management: a set of agricultural practices that integrates improved seed, mineral fertilizer use and soil organic matter management, all adapted to local conditions to improve agricultural productivity. They also serve to share information on the 4 Rs of fertilizer management stewardship: right source, right rate, right time and right placement.
CIMMYT and NSAF project partners are delivering these innovative extension materials to agrovets, cooperatives, extension agencies, development organizations and other intermediaries. They then use them to provide training to farmers in their working areas.
Training packages include pictorial aids, games, informative handouts, group activities, field guides, demonstrations, field visits and other physical learning tools. All the materials have been developed following an “active learning” framework. Training topics include the principles of integrated soil fertility management, soil pH and liming, crop-specific fertilizer application rates, planting methods, fertilizer splitting, methods of fertilizer placement, seed and fertilizer quality, handling considerations and postharvest practices.
“Training of extension workers and farmers on agricultural and plant nutrient related topics leads to an improvement in agronomic practices by farmers. Farmers that are trained and educated in best agronomic practices tend to realize high yields,” said Ramananda Gupta, Agronomist and Extension Specialist at the International Fertilizer Development Center (IFDC). CIMMYT is partnering with IFDC to implement the activities of the NSAF project related to fertilizer, including agricultural extension programs, policy support and market development.
All training materials have been field-tested with farmers, agro-dealers, government extension specialists and cooperatives. The training content has been reviewed by the Nepal Agricultural Research Center and Department of Agriculture. “The content of the best management practice materials are essential knowledge and skills farmers need to sustainably intensify production. Adoption of best management practices will significantly contribute in developing the rice sector as well as other related crops,” commented Ram Baran Yadaw, Rice Coordinator at the National Rice Research Program.
The NSAF project team is piloting the dissemination of improved technologies, skills and extension materials to farmers through local governments and private companies, using different tools and methods. The extension materials on best management practices will be publicly available, so improved seed and soil fertility technologies can be more accessible to farmers.
CIMMYT is also partnering with Viamo to adapt all the materials into an SMS and Interactive Voice Response (IVR) system to further scale up the program in the country, potentially reaching 12 million mobile phone subscribers.
The Nepal Seed and Fertilizer (NSAF) project promotes the use of improved seeds and integrated soil fertility management technologies along with effective and efficient extension programs across 21 “Zone of Influence” districts and in five earthquake-affected districts. The project is funded by the United States Agency for International Development (USAID), as part of the Feed the Future initiative. The project is led by International Maize and Wheat Improvement Center (CIMMYT), in collaboration with Nepal’s Ministry of Agricultural Development and partners including the International Fertilizer Development Center (IFDC) and the Center for Environment and Agricultural Research, Extension and Development (CEAPRED).
Five scientists from the CIMMYT community have been recognized with the Highly Cited Researcher award for 2018 for the influence of their research among their scientific peers.
The list, developed by Clarivate Analytics, recognizes exceptional research performance demonstrated by production of multiple papers that rank in the top 1 percent by citations for field and year, according to the Web of Science citation indexing service.
The honorees include:
Julio Huerta: CIMMYT-seconded INIFAP wheat breeder and rust geneticist;
Ravi Singh: CIMMYT Distinguished Scientist and Head of Bread Wheat Improvement; and
Sybil Herrera-Foessel: Former CIMMYT Global Wheat Program rust pathologist.
It is a significant honor to be part of this list, as it indicates that their peers have consistently acknowledged the influence of their research contributions in their publications and citations.
“This is a tremendous achievement and is a very good indicator for the relevance and quality of [their] publications,” said Hans Braun, director of CIMMYT’s Global Wheat Program and the CGIAR Research Program on Wheat (WHEAT).
NEW DELHI (CIMMYT) — The new Soil Intelligence System (SIS) for India will help the states of Andhra Pradesh, Bihar and Odisha rationalize the costs of generating high-quality soil data and build accessible geospatial information systems based on advanced geostatistics. The SIS initiative will rely on prediction rather than direct measurements to develop comprehensive soil information at scale. The resulting data systems will embrace FAIR access principles — findable, accessible, interoperable, and reproducible — to support better decision-making in agriculture.
SIS is a $2.5 million investment funded by the Bill & Melinda Gates Foundation. This initiative is led by the International Maize and Wheat Improvement Center (CIMMYT), in collaboration with numerous partners including the International Food Policy Research Institute (IFPRI), World Soil Information (ISRIC), the Andhra Pradesh Space Applications Center (APSAC), and the state governments and state agriculture universities of Andhra Pradesh and Bihar. The initiative runs from September 2018 through February 2021.
“SIS will make important contributions towards leveraging soil information for decision-making in Indian agriculture by devising new soil health management recommendations,” explained Andrew McDonald, CIMMYT’s Regional Team Leader for Sustainable Intensification and Project Leader for the Cereal Systems Initiative for South Asia (CSISA). Researchers and scientists will combine mapping outputs with crop response and landscape reconnaissance data through machine-learning analytics to derive precise agronomy decisions at scale.
Farmers will be the primary beneficiaries of this initiative, as they will get more reliable soil health management recommendations to increase yields and profits. SIS will also be useful to state partners, extension and agricultural development institutions, the private sector and other stakeholders who rely on high-quality soil information. Through SIS, scientists and researchers will have an opportunity to receive training in modern soil analytics.
The SIS initiative aims to facilitate multi-institutional alliances for soil health management and the application of big data analytics to real-world problems. These alliances will be instrumental for initiating broader discussions at the state and national levels about the importance of robust data systems, data integration and the types of progressive access policies related to ‘agronomy at scale’ that can bring India closer to the Sustainable Development Goals.
CIMMYT scientist Shishpal Poonia places a soil sample on the Tracer instrument for soil spectroscopy analysis.
Better soil analysis
Spectroscopy enables precise soil analysis and can help scientists identify appropriate preventive and rehabilitative soil management interventions. The technology is also significantly faster and more cost-effective than wide-scale wet chemistry-based soil analysis.
As part of the CSISA project, led by CIMMYT and funded by the Bill & Melinda Gates Foundation, two new soil spectroscopy labs were recently set up in Andhra Pradesh and Bihar, in collaboration with the state departments of agriculture. One lab is now operating at the Regional Agricultural Research Station (RARS) in Tirupati, Andhra Pradesh; and the other one at Bihar Agricultural University (BAU Sabour), in Bhagalpur, Bihar.
“The support from CIMMYT through the Gates Foundation will contribute directly to bringing down the cost of providing quality soil health data and agronomic advisory services to farmers in the long run,” said K.V. Naga Madhuri, Principal Scientist for Soil Science at Acharya N. G. Ranga Agricultural University. “We will also be able to generate precise digital soil maps for land use planning. The greatest advantage is to enable future applications like drones to use multi-spectral imagery and analyze rapidly large areas and discern changes in soil characteristics in a fast and reliable manner.”
Under the SIS initiative, soil spectroscopy results will be validated with existing gold standard wet chemistry methods. They will also be integrated with production practice data collected from the ground level, through new statistical tools.
K.V. Naga Madhuri, Principal Scientist for Soil Science at Acharya N. G. Ranga Agricultural University (front), explains soil spectra during the opening of the soil spectroscopy lab at the Regional Agricultural Research Station in Tirupati, Andhra Pradesh.
Precise predictive models
Drawing information from a limited number of soil observations from a sample dataset, digital soil mapping (DSM) uses (geo)statistical models to predict the soil type or property for locations where no samples have been taken.
“These ‘unsampled locations’ are typically arranged on a regular grid,” explained Balwinder Singh, CIMMYT scientist and Simulation Modeler, “so DSM produces gridded — raster — soil maps at a specific spatial resolution — grid cell or pixel size — with a spatial prediction made for each individual grid cell.”
“Adopting DSM methods, combined with intelligent sampling design, could reduce the strain on the soil testing system in terms of logistics, quality control and costs,” noted Amit Srivastava, a geospatial scientist at CIMMYT. “Improving digital soil mapping practices can also help create the infrastructure for a soil intelligence system that can drive decision-making at scale.”
In partnership with state government agencies and the Bill & Melinda Gates Foundation, CIMMYT will continue to support the expansion of digital soil mapping and soil analysis capacity in India. The CSISA project and the SIS initiative are helping to deliver soil fertility recommendations to farmers, an important step towards the sustainable intensification of agriculture in South Asia.
For more details, contact Balwinder Singh, Cropping System Simulation Modeler, CIMMYT at Balwinder.SINGH@cgiar.org.
An example of digital soil mapping (DSM), showing pH levels of soil in the state of Bihar. (Map: Amit Kumar Srivastava/CIMMYT)
Hosneara Bibi (top-right) shows her zero-tillage wheat crop. (Photo: SSCOP)
Hosneara Bibi is a farmer in the village of West Ghughumari, in the Cooch Behar district of West Bengal, India. She began her journey as an agricultural entrepreneur two years ago, when members of the nonprofit Satmile Satish Club o Pathagar (SSCOP), a CIMMYT partner, first came to her village.
Their visit was part of CIMMYT’s Sustainable and Resilient Farming Systems Intensification (SRFSI) project. This project aims to reduce poverty in the Eastern Gangetic Plains of Bangladesh, India and Nepal by making smallholder agriculture more productive, profitable and sustainable while safeguarding the environment and involving women.
In the context of the SRFSI project and in collaboration with Godrej Agrovet, Bibi and her self-help group received training on conservation agriculture practices for sustainable intensification. Self-help groups are small associations, usually of women, that work together to overcome common obstacles. With support from SSCOP, Bibi’s fellow group members learned about a variety of improved agricultural practices, including zero tillage, which improves soil nutrient levels and water efficiency. This support helped them to increase their crop yields while promoting sustainability.
Hosneara Bibi works at the rice seedling enterprise she and her fellow self-help group members started. (Photo: SSCOP)
After adopting the improved practices, Bibi increased her wheat yield by 50 percent. This positive experience encouraged her to implement mechanically transplanted rice technology. Bibi and her self-help group have since started a rice seedling enterprise and they offer their mechanically transplanted rice services to other farmers. This has become a profitable agri-enterprise for the group.
Bibi has been able to expand her farm and now cultivates wheat, rice and jute. She has also adopted digital technologies in her farming practice and now uses a mobile app to aid in pest management for her rice crop, designed by Uttar Banga Krishi Viswavidyalaya.
Because of her higher yields and the profitability of the self-help group’s rice seedling enterprise, Bibi has successfully increased and diversified her income. Her proudest moment was when she was able to buy a motorbike for her husband.
Members of the SRFSI team consider Hosneara Bibi a role model for other farmers and entrepreneurs in her community.
Hosneara Bibi (center, in pink) poses for a photograph with other members of her self-help group, SSCOP representatives and Sagarika Bose, Deputy General Manager of Corporate Social Responsibility for Godrej Agrovet. (Photo: SSCOP)
EL BATAN, Mexico (CIMMYT) — Mexico’s most prestigious scientific association has welcomed Matthew Reynolds among its regular members after accepting the nomination presented by fellow member, Alfonso Larqué Saavedra from the Yucatan Scientific Research Center.
The Mexican Academy of Sciences is an independent and not-for-profit association formed by acknowledged scientists working in both Mexican and international organizations. Its main objective is to offer expert advice to address the most pressing issues and challenges confronting Mexico’s government and civil society.
“I am deeply honoured to be recognized by the Academy,” Reynolds said. “Mexico has a proud tradition of scientific achievements including those of its pre-Hispanic civilizations, and not least in crop science. It is my hope that I can continue to contribute to Mexican agriculture and capacity building, especially in helping to buffer the effects of climate change. I am also very grateful for my long association with Professor Larqué Saavedra with whom I jointly supervised my first Mexican graduate student at Colpos and who nominated me for this position.”
CIMMYT scientist Matthew Reynolds has been appointed a member of the Mexican Academy of Science.
Reynolds is a Wheat Physiologist at International Maize and Wheat Improvement Center (CIMMYT). His leadership of the Wheat component of the MasAgro project strengthened his nomination to the Academy. In this capacity, he has overseen the publication of 32 peer-reviewed articles in scientific journals that account for the progress achieved in the development of new high-yielding and resilient wheat varieties for Mexico and for other wheat-growing regions in the developing world.
Since 2011, MasAgro Trigo has characterized 71 thousand wheat lines in field trials designed to test yield potential under severe stress caused by heat and drought conditions. As a result, Reynolds and his team have formed the Wheat Yield Collaboration Yield Trial and the Stress Adaptive Traits Yield Nursery, two panels of elite lines that yield more grain in high temperatures and under limited water supply. Mexico’s agricultural research system INIFAP has recently incorporated 42 elite lines from these nurseries into its wheat-breeding program.
Reynolds has also mentored 12 Mexican students who have undertaken postgraduate studies under the supervision of renowned wheat scientists in American, Australian, British, Chilean and Spanish universities. Eight students have already achieved a PhD degree in different areas of wheat research. This new generation of scientists will further contribute to promote science and research in Mexico, one of the Academy’s main objectives.
As part of their education, students worldwide learn about the formidable challenges their generation faces, including food shortages, climate change, and degrading soil health. Mentors and educators can either overwhelm them with reality or motivate them by real stories and showing them that they have a role to play. Every year the World Food Prize lives out the latter by introducing high school students to global food issues at the annual Borlaug Dialogue, giving them an opportunity to interact with “change agents” who address food security issues. The World Food Prize offers some students an opportunity to intern at an international research center through the Borlaug-Ruan International Internship program.
Tessa Mahmoudi
Plant Microbiologist Tessa Mahmoudi, a 2012 World Food Prize’s Borlaug-Ruan summer intern, says her experience working with CIMMYT researchers in Turkey when she was 16 years old profoundly changed her career and her life.
“For a summer I was welcomed to Turkey not as a child, but as a scientist,” says Mahmoudi, who grew up on a farm in southeast Minnesota, USA. “My hosts, Dr. Abdelfattah A. Dababat and Dr. Gül Erginbas-Orakci, who study soil-borne pathogens and the impact those organisms have on food supplies, showed me their challenges and, most importantly, their dedication.”
Mahmoudi explains she still finds the statistics regarding the global food insecurity to be daunting but saw CIMMYT researchers making real progress. “This helped me realize that I had a role to play and an opportunity to make positive impact.”
Among other things, Mahmoudi learned what it meant to be a plant pathologist and the value of that work. “I began to ask scientific questions that mattered,” she says. “And I went back home motivated to study — not just to get good grades, but to solve real problems.”
She says her outlook on the world dramatically broadened. “I realized we all live in unique realities, sheltered by climatic conditions that strongly influence our world views.”
According to Mahmoudi, her internship at CIMMYT empowered her to get out of her comfort zone and get involved in food security issues. She joined the “hunger fighters” at the University of Minnesota while pursuing a bachelor’s in Plant Science. “I was the president of the Project Food Security Club which focuses on bring awareness of global hunger issues and encouraging involvement in solutions.” She also did research on stem rust under Matthew Rouse, winner of the World Food Prize 2018 Norman Borlaug Award for Field Research and Application.
Pursuing a master’s in plant pathology at Texas A&M University under the supervision of Betsy Pierson, she studied the effects of plant-microbe interactions on drought tolerance and, specifically, how plant-microbe symbiosis influences root architecture and wheat’s ability to recover after suffering water stress.
Tessa Mahmoudi, plant microbiologist and 2012 World Food Prize Borlaug-Ruan summer intern, credits the mentorship of CIMMYT researchers in Turkey with changing her outlook on the potential of science to improve food security and health. (Photo: University of Minnesota)
Currently, Mahmoudi is involved in international development and teaching. As a horticulture lecturer at Blinn College in Texas, she engages students in the innovative use of plants to improve food security and global health.
Mahmoudi incorporates interactive learning activities in her class (see her website, https://reachingroots.org/). Her vision is to increase access to plant science education and encourage innovation in agriculture.
“As a teacher and mentor, I am committed to helping students broaden their exposure to real problems because I know how much that influenced me,” Mahmoudi says. “Our world has many challenges, but great teams and projects are making progress, such as the work by CIMMYT teams around the world. We all have a role to play and an idea that we can make a reality to improve global health.”
As an example, Mahmoudi is working with the non-profit Clean Challenge on a project to improve the waste system in Haiti. The initiative links with local teams in Haiti to develop a holistic system for handling trash, including composting organic waste to empower small holder farmers to improve their soil health and food security.
“Without my mentors, I would not have had the opportunity to be involved in these high impact initiatives. Wherever you are in your career make sure you are being mentored and also mentoring. I highly encourage students to find mentors and get involved in today’s greatest challenge, increasing food security.”
In addition to thanking the CIMMYT scientists who inspired her, Mahmoudi is deeply grateful for those who made her summer internship possible. “This would include the World Food Prize Foundation and especially Lisa Fleming, Ambassador Kenneth M. Quinn, the Ruan Family,” she says. “Your commitment to this high-impact, experiential learning opportunity has had lasting impact on my life.”
