The crop is the focus of the Borlaug Summit on Wheat for Food Security, an event CIMMYT is hosting in March to celebrate what would have been the 100th birthday of Dr. Norman Borlaug. Topics of the summit range from the history of wheat, to the work of Dr. Borlaug, to climate change and world grain policy.
Here are a few things you might not know about wheat and wheat research. Take a look and then test your knowledge by taking our wheat quiz!
A partnership launched on 3 February by the U.S. Agency for International Development (USAID) Feed the Future Partnering for Innovation and led by the African Agricultural Technology Foundation (AATF) will help CIMMYT and other partners to fight a parasitic plant affecting maize production.
Known locally as âwitchweed,â the parasitic plant Striga spp. casts no spells but uses needle-like tendrils to suck nutrients from maize roots. The weed is prevalent in Nyanza and Western Provinces of Kenya, where it grows on some 200,000 hectares and causes crop damage worth an estimated US$ 80 million per year. Photo: CIMMYT
The three-year, performancebased grant of US$ 3 million is the largest grant awarded by Feed the Future Partnering for Innovation to date, according to an AATF press release. Feed the Future Partnering for Innovation supports projects increasing the productivity of smallholder farmers while AATF promotes sustainable agricultural technology for smallholder farmers in Sub-Saharan Africa.
The funding will help improve maize production in east Africa by âupscaling the commercialization of StrigAwayTM â an herbicidetolerant seed and treatment that controls the infestation of Striga â a parasitic weed that often results in total crop loss and even abandonment of arable land,â the press release said. Striga â commonly known as witchweed â can cause 20 to 80 percent crop loss in maize and affects 1.4 million hectares in Kenya, Tanzania and Uganda, according to the release.
CIMMYT helped develop the StrigAwayTM technology package along with partners including the Weizmann Institute of Science in Israel. An herbicide-tolerant maize variety is coated with an herbicide that kills Striga when the seed is sown and sprouts.
Other partners, including the agrochemical company BASF and six local seed companies, will promote the project in the three target countries. The project aims to create 4,000 demonstration plots and sell 1,000 metric tons of seed to 20,000 smallholder farmers. Partners will also offer technical support on how to use the seed and launch campaigns and promotion of StrigAwayTM.
A tool developed by CIMMYT and the International Plant Nutrition Institute (IPNI) offering site-specific nutrient management (SSNM) advice to help farmers achieve higher yields more efficiently recently won an innovation award.
Nutrient ExpertTM decision support tools received the best innovation award in the information and communications technology category at the Bihar Innovation Forum II, which recognizes innovations to improve rural livelihoods in India. These tools were in development by CIMMYT and IPNI for five years and were launched in June 2013.
In South Asia, 90 percent of smallholder farmers do not have access to soil testing. The computer-based support tools aim to provide them with simple advice on how to get the most from fertilizer inputs. An IPNI study funded by the CGIAR Research Program on Maize (MAIZE CRP) Competitive Grant Initiative (CGI) found that farming practices and the resources available to farmers vary hugely in east India.
The cutting-edge value of Nutrient ExpertTM is that it offers specific information at the farm level, where it can provide the greatest benefits. Nutrient ExpertTM is especially relevant because it was developed through dialogue and participation with stakeholders, which also raises awareness and eventual adoption by users.
It is now used by the Indian National Agricultural Research System and is a key intervention used by the CRP on Climate Change, Agriculture and Food Security (CCAFS) in its Climate Smart Villages. The Nutrient ExpertTM approach is also being applied to maize and wheat in other areas of Southeast Asia, China, Kenya and Zimbabwe.
CIMMYTâs Wellhausen-Anderson Gene Bank sent its fifth shipment of seed to the Svalbard Global Seed Vault in Norway last week for safeguarding.
Thirty-four boxes containing about 420 kilograms of seed left from CIMMYTâs El BatĂĄn headquarters on 7 February for the vault, which is deeply embedded in the frozen mountains of Svalbard. Isolated on the Norwegian Island of Spitsbergen, halfway between mainland Norway and the North Pole, the Global Seed Vault is keeping the genetic diversity of the worldâs crops safe for future generations by storing duplicates of seeds from gene banks across the globe.
Tom Payne (left), Denise Costich and Miguel Ăngel LĂłpez help load the seed shipment from the CIMMYT Germplasm Bank, on its way to the Svalbard Global Seed Vault in Norway. Photo: Xochiquetzal Fonseca/CIMMYT
CIMMYT sent 1,946 accessions of maize and 5,964 of wheat accessions to add to that collection. Over the past several years, CIMMYT has sent 123,057 accessions of maize and wheat, which is essential for protecting valuable genetic diversity. CIMMYT is working with the Norwegian government and the Global Crop Diversity Trust, who manage the Global Seed Vault, to keep maize and wheat seed safe against a global catastrophe.
CIMMYT will continue to send backups of regenerated seed to Svalbard each year until its entire maize and wheat collection is represented in the vault, according to Denise Costich, head of the Maize Germplasm Bank. âOur goal is to have 100 percent of our collection backed up at Svalbard by 2021,â she said. âWe continually compile a list of accessions that still need to be backed up; these are new introductions or new regenerations of accessions with low seed count or low germination.â
With more than 27,000 accessions of maize and 130,000 of wheat, CIMMYTâs gene bank is a treasure chest of genetic resources for two of the planetâs most important crops. Nonetheless, the Wellhausen-Anderson Gene Bank does not just help insure against seed loss â CIMMYT actively makes use of these collections, distributing seed, free of charge, to more than 700 partner organizations in almost every country across the globe.
In addition, through the Seeds of Discovery (SeeD) project, CIMMYT scientists are unleashing the genetic potential of thousands of landraces and improving understanding of traits utilized in current varieties. It is providing scientists and breeders worldwide with new building blocks to develop climate-smart varieties for resource-poor farmers that will safeguard valuable natural resources and provide affordable and more nutritious food to current and future generations.
CIMMYT will celebrate the 100th anniversary of the birth of Dr. Norman Borlaug with the Borlaug Summit on Wheat for Food Security from 25 to 28 March. Weâre recognizing his legacy and considering its future with an event held where some of Borlaugâs most important work first began â Ciudad ObregĂłn, Sonora, Mexico.
Ciudad ObregĂłn is deeply embedded in the history of Dr. Borlaug and CIMMYT and continues to be shaped by the wheat research taking place there. It has been referred to as âThe Town That Wheat Built.â
October 2014 will mark 70 years since Dr. Borlaug first came to Mexico as part of a Mexico-Rockefeller Foundation program. His work started in Ciudad ObregĂłn, in northwest Mexicoâs Yaqui Valley. He worked closely with the farmers in the area, a relationship CIMMYT maintains today.
When Dr. Borlaug started his research in Mexico, 60 percent of the countryâs wheat was imported. He wrote in a preface to Wheat Breeding at CIMMYT: Commemorating 50 Years of Research in Mexico for Global Wheat Improvement, âUnfortunately, inexperience in breeding for disease resistance by those left in charge led to disastrous stem rust epidemics in 1939-41 that essentially wiped out the whole crop. This was the environment in which I found myself when I arrived to establish a wheat breeding program in Sonora.â
Facing stem rust epidemics, Dr. Borlaug started shuttle breeding to expedite wheat improvement and utilized different locations to grow two generations of wheat in one year. By 1956, Mexico was self-sufficient in food production. Borlaugâs subsequent world travels inspired him to bring young scientists to Mexico for intensive plant breeding courses and send them back to their home countries with wheat samples.
Dr. Borlaug often said the Yaqui Valley was where he most felt at home. His memory lives on in ObregĂłn â one of the cityâs main streets is named after him and, in March 2010, the CIMMYT research station was renamed Campo Experimental Norman E. Borlaug. This center continues to be a hub of wheat research and training.
The Borlaug Summit on Wheat for Food Security will recognize the work done at Ciudad ObregĂłn and the impact it had worldwide. The summit will also start new conversations about wheatâs role in food security and what Dr. Borlaug might have done today.
Members of the wheat physiology group pose with a blimp used for aerial remote sensing.
Since Maria Tattaris began working at CIMMYT two years ago, the blimp used by the wheat physiology group in Ciudad ObregĂłn, Mexico, went from sitting in a box to being a main component of the groupâs aerial remote sensing platform.
Maria Tattaris and Ph.D. student Jared Crain place a camera on the blimp in Ciudad ObregĂłn, Mexico. Photos: Courtesy of the wheat physiology group.
Tattaris brought her background in mathematics and experience using remote sensing to study forest fires to contribute to this developing field at CIMMYT. Remote sensing allows researchers to obtain information about an area without physical contact. In terms of crops, remote sensing can be used to observe plant characteristics and dynamics over time and is particularly useful when applied to large areas that are inaccessible or may be otherwise difficult to monitor.
A London native, Tattaris didnât have much experience with crops before coming to CIMMYT. Nonetheless, her positionâs focus on research-based field work struck her interest. âIt had everything I was looking for,â she said. She went straight to Ciudad ObregĂłn and began research using the helium-filled blimp, which is tethered and floats as high as 70 meters above the fields to help analyze the physiological properties of wheat.
In addition to the blimp, the team uses an unmanned aerial vehicle (UAV). This small, remotecontrolled remote helicopter has a thermal camera and multispectral camera attached to it. Images taken by the cameras can identify healthy versus stressed plants, Tattaris said. The resolution of the images can be as high as 4 centimeters â meaning each pixel is 4 meters on the ground â and hundreds of plots can be measured in one take. The airborne remote sensing platform has the potential to be applied as a tool to select the best performing lines.
Images taken by the cameras attached to this unmanned aerial vehicles (UAV) can identify healthy versus stressed plants.
Tattaris spends several months of the year in Ciudad ObregĂłn, where sheâs in the field researching as early as 5 a.m. or showing her work to visitors. In El BatĂĄn, she focuses on data analysis.
Remote sensing is being used across CIMMYT and was recently the focus of a conference organized in Mexico City. The technology can be used to increase efficiency, allow researchers to screen larger trials and reduce error.
Dan Jeffers (second from the left) attends a meeting in the Great Hall of China. Source: CCTV13
A CIMMYT maize breeder participated in a prestigious meeting of foreign experts in China that garnered national news coverage. Dan Jeffers, who is based at the Yunnan Academy of Agricultural Sciences in southern China, attended the State Administration of Foreign Experts Affairs (SAFEA) meeting on 21 January in Beijing.
SAFEA established a forum for foreign experts working in the country to provide recommendations that further Chinaâs development goals. John Thornton, director of the China Center of the Brookings Institution, proposed the idea two years ago.
Seventy foreign experts attended a consultancy and advisory commission meeting. The meeting was followed by a symposium and dinner hosted by Chinaâs Premier Li Keqiang honoring the Chinese Spring Festival. During the symposium, he thanked the foreign experts for their efforts and encouraged them to put forth recommendations to benefit Chinaâs development.
The meeting made the front page of the China Daily newspaper on 22 January as the lead article and was featured in other news sources.
CIMMYT made strides in Kenya this month in training seed company teams who ensure that CIMMYTâs improved germplasm reaches farmers. CIMMYTâs seed systems team contributed to strengthening this partnership with the Kenya Seed Company (KSC) and Western Seed Company (WSC). At the companiesâ request, CIMMYT organized and facilitated a seed business management course for their staff.
Thirty-two participants from KSC and three participants from WS (including a total of seven women) participated in the course. CIMMYT Seed System specialists James Gethi, John MacRobert and Mosisa Worku Regasa delivered the seed training course in Kitale, western Kenya, during 21-23 January. The course covered identification of improved maize varieties, maintenance of parental lines, planning seed production, field management in seed production, basic issues in quality seed production, seed storage, warehouse management, promotion, marketing and sales strategies.
Photo: Courtesy of Mosisa Worku Regasa/CIMMYT
Each trainee was given a CD containing course material and a copy of Seed Business Management in Africa, written by John MacRobert, CIMMYT seed systems team leader. Francis Mwaura, KSC marketing director and Karsten Wichmann, a manager from WS, thanked CIMMYT for the course content, its practical application to the maize seed business and for helping to build the capacity of their staff. Both companies contributed to the cost of the training by sponsoring their staff membersâ participation. KSC Production Manager Hosea K. Sirma also thanked CIMMYT and urged participants to apply the knowledge they gained to deliver highquality seed to farmers.
By Tek Sapkota, Promil Kapoor and M.L. Jat, CIMMYT/CCAFSÂ
The eastern Indo-Gangetic Plain in South Asia is one of the worldâs most vulnerable regions to climate change. As part of propoor climate change mitigation work â which focuses on poverty reduction â under the CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS), CIMMYT is actively working on adaptation, risk management and quantifying the mitigation potential of traditional and resilient management practices in smallholder systems in the region.
Participants gather in Bihar, India. Photo: Manish Kumar/CIMMYT
CIMMYT, in close collaboration with Indiaâs national agricultural research system, manages extensive research on the quantification of climate change mitigation potential for precision-conservation agriculture-based cereal systems in South Asia. CIMMYT scientists and collaborators are working on the quantification of greenhouse gases (GHGs) under different scenarios and gathered for a twoday social learning workshop on standardizing related protocols. Attendees from CIMMYT and the Borlaug Institute for South Asia (BISA), along with participants from the International Water Management Institute (IWMI), Indian Agricultural Research Institute (IARI), the national research system and two students from the Climate Food and Farming Network (CLIFF), gathered in Pusa, Samastipur, Bihar, during 15-16 January.
Participants shared experiences on GHG mitigation under contrasting production systems and ecologies and took stock of ongoing mitigation work at the Delhi, Karnal and Pusa sites. The event provided an opportunity to discuss different approaches for GHG quantification approaches. Quantification suitable for smallholder production systems in developing countries were presented by Tek Sapkota, CIMMYT mitigation agronomist. Scientists from Karnal, New Delhi and Pusa presented the current status of GHG measurement work and work plans for 2014. The results from these regional laboratories will be used for larger-scale studies, spanning all levels, from plot to landscape.
As part of its ongoing mitigation work, CIMMYT is measuring GHG emissions in six agronomic trials representing various cropping, tillage, residue and nutrient management systems in Karnal, New Delhi and Pusa, three different agro-ecologies of the Indo- Gangetic Plain. CIMMYT actively collaborates with universities, national research institutes and international organizations like BISA on its mitigation work and capacity building, including developing a new generation of researchers. Attendees also discussed the importance of setting professional and personal goals and priorities, effective time management, effective communication and delegating tasks. They shared perceptions and ideas on mitigation activities and what changes are necessary to strengthen mitigation work. CIMMYT-CCAFS South Asia Coordinator M.L. Jat emphasized the need to move beyond plot level to quantify mitigation potential at the landscape, regional and national levels. Attendees also discussed and agreed to use tools ranging from measurement to estimation.
The meeting concluded with the development of a 2014 roadmap for mitigation activities. Participants also visited the BISA farm and CCAFS climate-smart villages (CSVs) in the Vaishali district of Bihar to learn smallholdersâ perceptions about climate change.
A new, open-source book on agricultural machinery in Bangladesh is now available online. Made in Bangladesh: Scale-appropriate machinery for agricultural resource conservation was written by authors from CIMMYT and the Bangladesh Agricultural Research Institute. The book was a product of the USAID-funded Cereal Systems Initiative for South Asia â Mechanical and Irrigation (CSISA-MI) and CSISA Bangladesh projects, as well as the EU-funded Agriculture, Nutrition and Extension Project (ANEP) and the Australian Centre for International Agricultural Research-funded Rice-Maize Project.
The book details the functions and designs of smallscale agricultural machinery used in conjunction with two-wheel tractors (2WTs). 2WTs are used extensively in Bangladesh and several other countries, and the small-scale implements extend the usefulness of the 2WTs. Most implements are compatible with conservation agriculture-based management practices while the bookâs technical drawings allow manufacturers and engineers to reproduce and improve upon the original designs. The PDF version of the book, which is found here in the CIMMYT repository, is open access and can be downloaded and shared. The book will soon be translated and released in Bangla. For more information, contact Tim Krupnik, CIMMYT cropping systems agronomist, at t.krupnik@cgiar.org.
Remote sensing experts, breeders, agronomists and policymakers discussed turning their research and experiences into tools to benefit farmers and increase food production while safeguarding the environment during CIMMYTâs workshop âRemote Sensing: Beyond Imagesâ from 14-15 December 2013.
The “Sky Walkerâ advances phenotyping in Zimbabwe. Photo: J.L. Araus, University of Barcelona/CIMMYT
The event was sponsored by the Bill & Melinda Gates Foundation (BMGF), the Mexican Secretariat of Agriculture, Livestock, Rural Development, Fisheries and Food (SAGARPA) and the Sustainable Modernization of Traditional Agriculture (MasAgro) as well as the CGIAR Research Program on Maize and the Cereal Systems Initiative for South Asia (CSISA).
Remote sensing devices make it possible to observe the dynamics of anything from single plants up to entire landscapes and continents as they change over time by capturing radiation from across the entire electromagnetic spectrum. For example, images taken by cameras in the thermal-to-visible end of the spectrum can reveal a broad range of plant characteristics, such as biomass, water use and photosynthesis efficiency, disease spread and nutrient content. Radar or light radar (LiDAR) imaging can be used to create detailed imaging of plant physical structure from the canopy down to the roots. When mounted on an unmanned aerial vehicle (UAV), these sensors can rapidly survey much greater areas of land than is possible from the ground, particularly in inaccessible areas. It is hoped that such research will complement highthroughput phenotyping, opening the way for plant breeders to design larger and more efficient crop improvement experiments.
For agronomy research, remote sensing can provide new information about weather, crop performance, resource use and the improved genetic traits sought by crop breeders. It may also help global agriculture meet the challenge of achieving more with fewer resources and include more farmers in innovation. If methods can be found to share and connect this data, farmers will also benefit from greater transparency and more informed policymaking.
Opening the workshop, Thomas Lumpkin, CIMMYT director general, reminded participants of the urgency of meeting the growing demand for staple crops while overcoming crop diseases, resource scarcity and climate change-induced stresses. The advance of technologies and data processing tools allows researchers to see the potential contribution of remote sensing. âFor thirty years, the remote sensing community has been on the cusp of doing something wonderful, and now we believe it can,â said Stanley Wood, senior program officer for BMGF. âWhat excites us is the amount of energy and enthusiasm and the knowledge that their work is important.â Several presentations showcased how remote sensing can be used to benefit smallholder farmers. For example, the Drought Tolerant Maize for Africa (DTMA) project is looking at using rainfall data to target its interventions for the greatest impact.
In March, CIMMYT will celebrate the life and legacy of Dr. Norman E. Borlaug with the Borlaug Summit on Wheat for Food Security.  By uniting some of the brightest minds in agriculture and food security, we will commemorate the 100th anniversary of Borlaugâs birth. The event will take place in Ciudad ObregĂłn, Mexico, where some of his most important work began.
CIMMYTâs Mike Listman takes a look at Borlaugâs life and how he helped shape CIMMYT into what it is today:
This year, the world will commemorate the extraordinary legacy of Dr. Norman E. Borlaug, the late agronomist, advocate for food security and Nobel Peace Laureate who died in 2009. During his long and distinguished career Borlaug worked with thousands of people around the world and numerous organizations; many will observe the 100th anniversary of Borlaugâs birth on 25 March. CIMMYT will also celebrate the 70th anniversary of the beginning of Borlaugâs work in Mexico for the organization that later became CIMMYT and which placed him on the path to the Nobel Peace Prize.
As part of a special Mexico-Rockefeller Foundation program in the 1940s-50s to raise Mexicoâs farm productivity, Borlaug led the development and spread of high-yielding, disease-resistant wheat varieties and better farming practices. During the 1960s-70s, those innovations brought Mexico wheat self-sufficiency and South Asia a productivity explosion and subsequently, freedom from famine. This in turn helped fuel the widespread adoption by developing world farmers of improved seed and farming practices in a movement called the Green Revolution.
Those successes and Borlaugâs model â field-based, farmer-focused research, training of a global cadre of young agronomists and a pragmatic, apolitical approach â caught the imagination of the media and policymakers and led to the creation of a consortium of international agricultural research centers. Dr. Borlaugâs ideals and fierce drive are strongly reflected at CIMMYT, the direct successor of the Mexico-Rockefeller Foundation program. Borlaug served as a principal scientist and research leader at CIMMYT from the centerâs launch in 1966 until his formal retirement in 1979, and from then on as a senior consultant in residence for several months each year until his death in 2009.
At CIMMYT, Borlaug helped craft a wheat breeding program unparalleled in global partnerships and impacts. Improved, CIMMYT-derived wheat is sown on more than 60 million hectares in developing countries â over 70 percent of the area planted with modern wheat varieties in those nations. These improved wheat varieties are responsible for bigger harvests that bring  added benefits to farmers of at least US$ 500 million annually.1 With the supply of that much more grain, for many years and in much of the world food prices fell and food security rose. For example, the price paid for wheat by consumers in India dropped by about 2 percent each year during 1970-95, benefiting both the rural and urban poor.2
Norman Borlaug (fourth right) in the field showing a plot of Sonora-64, one of the semi-dwarf, high-yield, disease-resistant varieties that was key to the Green Revolution, to a group of young international trainees, at what is now CIMMYT’s CENEB station (Campo Experimental Norman E. Borlaug, or The Norman E. Borlaug Experiment Station), near Ciudad ObregĂłn, Sonora, northern Mexico.Photo credit: CIMMYT.
As stated in a 1999 Atlantic Monthly article: âNorman Borlaug has already saved more lives than any other person who ever livedâŠBorlaug is responsible for the fact that throughout the post-war era, except in Sub-Saharan Africa, global food production has expanded faster than the human population, averting the mass starvations that were widely predicted.â3 Although a trained scientist, Borlaug was down-to-earth and preferred practical action to pure academia. He famously admonished understudies that ââŠyou canât eat research papers.â Despite this, his research at CIMMYT and its predecessor program featured both scientific rigor and real innovation. His big ideas include a worldwide wheat varietal testing and distribution network involving hundreds of partners, the practice of âshuttle breedingâ â successive selection of breeding lines at two or three locations of separated latitudes that expedites breeding and broadens the breeding linesâ adaptation, careful attention by breeders to disease resistance and milling and baking quality, close ties to farmer groups and valuing improved cropping systems on a par with high-yielding seed.
October 2014 also marks 70 years from when Borlaug first arrived in Mexico to join the Mexico-Rockefeller Foundation program. Borlaug was hard at work on a CIMMYT research station in Central Mexico in 1970 when his wife came to inform him that he would receive the Nobel Prize for the Green Revolution successes. His dedication was so complete that when she shouted the news to him across an irrigation canal he simply absorbed the information and then went back to work.
1.     This is in 2005 US$; see http://apps.cimmyt.org/english/docs/ impacts/impwheat_02.pdf; in addition to the benefits cited for increased yield per se, a 2006 study estimated the annual benefits to farmers from improved yield stability through use of CIMMYT-derived wheat varieties at more than $140 million.
2.     http://journals.cambridge.org/download.php?file=%2FAGS%2FAGS144_06%2FS0021859606006459a.pdf&code=19f5c00a27f8982c83c2e95bce65491e
3.    Easterbrooke, G. 1999. âForgotten benefactor of humanity.â Atlantic Monthly, January.
Nepali scientists learned about developing heat stress-resistant maize during a training event organized by Nepalâs National Maize Research Program (NMRP) and CIMMYT on 16 January at the NMRP in Rampur, Chitwan, Nepal. The event was part of the Heat Tolerant Maize for Asia (HTMA) project supported by USAID under the Feed the Future initiative.
Participants record heat-stress phenotyping data in the field. Photo: Courtesy of NMRP
Nearly 30 participants attended the training, including maize breeders, agronomists and field technicians from the NMRP, the Regional Agricultural Research Station (RARS) in Nepalgunj and the Agricultural Research Station (ARS) in Surkhet. Keshab Babu Koirala, NMRP coordinator, gave an overview of maize research in the country and emphasized the effects of climate change on national production. Koirala noted the importance of developing stress-resilient maize varieties and hybrids for sustainable maize growth.
P.H. Zaidi, maize physiologist and project leader of HTMA, gave lectures on developing heat stress-resilient maize hybrids, including maize phenology and physiology, how maize responds to heat stress, technical details of precision phenotyping, selection criteria for heat stress breeding and development of heat-tolerant hybrids. Zaidi used a bilingual interaction model to encourage participation in both English and Hindi in the presentations and discussions.
In the afternoon, participants visited HTMA maize trials at the NMRP experimental farm, where participants were divided into groups to score the performance of more than 900 hybrids planted there. Participants were excited to see new, promising hybrids. Attendees also had the opportunity to interact with Zaidi, Koirala and each other. âIt is exciting to see quite a few very promising hybrids from the HTMA project, which are well-adapted in Tarai, Nepal,â said Tara Bahadur Ghimire, chief of ARS in Surkhet, Nepal. âIf we select only 10 percent of the hybrids planted here, we will have a choice of about 100 to take forward. These hybrids will help us in switching from open-pollinated varieties to hybrids to boost maize production in our country and enhance its food security.â
After the field visit, participants gave feedback on the training and handson exercises. In the training, the scientists and field technicians learned key aspects of abiotic stress breeding and developing heat stress-tolerant maize. In his closing remarks, Koirala thanked USAID and CIMMYT for supporting NMRP in capacity building. âThis is an excellent approach, which benefitted many scientists in one go rather than inviting a few to CIMMYT-India,â he said. âThis needs to be replicated again in the near future so that scientists from maize research stations â other than those that are participating in the HTMA project â can get this opportunity.â
Farmers spoke of their success with new quality protein maize (QPM) varieties to senior officials from the Canadian embassy in Ethiopia during recent visits to CIMMYT-Ethiopia sites. The visits focused on the status of the Nutritious Maize for Ethiopia project (NuME), which is funded by Canadaâs Department of Foreign Affairs, Trade and Development (DFTAD). NuME aims to reduce malnutrition and promote food security in Ethiopia through the adoption of QPM, whose grain contains almost twice the lysine and tryptophan as non-QPM maize grain.
Abebech Assefa leads a discussion after the field day and collects feedback from farmers, project partner representatives and government officials. (Photo by Adefris Teklewold/CIMMYT)
Jennifer Bloom, DFATDâs NuME project team leader and the second secretary (development) at the Embassy of Canada, and Abebech Assefa, the embassyâs team leader for Food Security and Agricultural Growth, visited farmers and learned about their feelings toward the adoption and promotion of QPM. The farmers also discussed their perspectives on the opportunities and constraints of project implementation with the Canadian representatives. Assefa, accompanied by three other embassy staff members, participated in a field day in the Meskan District of the Southern Nations, Nationalities and Peopleâs Region of Ethiopia.
During the field day, the visiting delegation observed the performance of two QPM hybrid varieties, BHQY-545 and AMH-760Q, adapted to the area. Farmers carrying out the field demonstrations shared their reactions to the newly-introduced QPM varieties. Farmer Genet Assefa noted that her plots have showed impressive results with the QPM varieties she planted compared to other plots in the area. âAll the proper agronomic activities were employed on my plot based on advice from experts,â she said, adding that âQPM should be promoted and made accessible to all farmers so that we can all ensure food and nutritional security and increase our incomes.â
Jennifer Bloom compares food prepared from QPM varieties with food prepared from conventional varieties.
Abebech Assefa led a discussion after the field day and showed appreciation for the farmers who participated in the field demonstrations. She said she was grateful for their willingness to test new QPM varieties on their farm plots and to experience the benefits of QPM in improving food and nutritional security in Ethiopia. Bloom visited several demonstration sites and tested QPM food products during a field day organized in Bure District, Amhara Regional State. She requested the farmersâ opinions about QPM technology. The majority responded that they were satisfied and specifically asked for the seed of BHQY-545 to be made available to everyone in need. Farmers said they favor BHQY-545 because it provides up to four or five cobs and matures early, and they value the BHQ-760 variety for its long cobs.
The farmers said their âmost critical concernâ regarding the adoption of QPM varieties was that abundant quantities of the quality seed be available at the right time. Local administration and bureau of agriculture officials, who accompanied the DFTAD delegation, expressed their commitment to providing the seed. Bloom ended her visit by thanking the officials for attending the field demonstrations and the farmers for their participation and courage in discussing the advantages of QPM varieties and their concerns about them.
One of the most important aspects of planning the Borlaug Summit on Wheat for Food Security is remembering Norman Borlaug. We’ve received photos and stories from individuals and institutions as they register for the event. Some people only met Dr. Borlaug once while others worked with him for years, but they all share memories of his kindness and impact. You can read and see all of the submissions here; a few of our favorites to date are found below (some submissions are edited for clarity):
“I will help you”
âDr. Borlaugâs visit to China in 1974 with U.S. delegates started the collaboration between China and CIMMYT ⊠I met him in November of 1990 when I started as a postdoctoral fellow in the CIMMYT Global Wheat Program. We lived in the same block of the visiting scientist building and met very often in the cafeteria in the evening. I traveled with Borlaug a few times and facilitated his visits to China many times.
Photo submitted by Zhonghu He
What I learned from him is to respect people and work hard. Never, ever, hurt other peopleâs dignity or pride, and never be arrogant. Always say, ‘I will help you!’ … As said by , CIMMYT Director General Dr. Tom Lumpkin, the best way to commemorate Borlaug is to work hard and do your best job.ââ Dr. Zhonghu He
Respected by everyone
âI met Norman Borlaug during a 2008 field day. I remember that he was happy to meet someone from Morocco and told me that he had visited Morocco many years ago and kept a good souvenir from his visit.
Photo submitted by Rhrib Keltoum
While attending the Borlaug workshops and listening to his success stories from the scientific and farmer communities, I understood that he was a great man loved and respected by everyone throughout the world and that he left a very good impression on all the people he met and countries he visited. He is the real father of the Green Revolution. I would have liked to have met him earlier. I would have, for sure, learned a lot from him.â â Dr. Rhrib Keltoum
Memories Unforgotten
Photo submitted by Ignacio Solis
“In 2003, one group of farmers from the Cooperatives of Andalusia (southern Spain), owners of the seed company Agrovegetal, visited El BatĂĄn and Ciudad ObregĂłn to get to know CIMMYT. We met Dr. Borlaug in Texcoco, and he agreed to travel with us to Sonora to explain the wheat breeding program to us.
I will never forget those days, his personality and his enthusiastic way of teaching. We took a picture with durum wheat YAVAROS 79, the most widely grown variety in Spain, even 25 years after its release.” âDr. Ignacio Solis, Director, Agrovegetal
