The importance of biodiversity-friendly agriculture is starting to be recognized more widely. CIMMYT researcher, Frédéric Baudron, co-author a new paper exploring the importance of new strategies for biodiversity-smart agricultural development.
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The International Maize and Wheat Improvement Center (CIMMYT) hosted the first seminar of Catalysts of Change: Women Leaders in Science, on July 4, 2023. This exciting seminar series, which supports womenâs empowerment, features inspiring women leaders who share their expertise and perspectives on todayâs women leadership styles, extending insights into their own leadership journey, and shedding light on the extraordinary impact of women leadership transforming todayâs leadership through their critical roles as catalysts of change.
Moderated by Isabel Peña, this first seminar featured Yvonne Ochoa Rosellini, a distinguished business strategy and finance expert who has advised CEOs of public and private companies in Mexico, the U.S., Argentina, and Spain in a wide range of sectors ranging from finance to biotechnology and agriculture.
CIMMYT Director General Bram Govaerts delivered the opening remarks and set the stage for the interactive TED style seminar seriesâhighlighting the importance of recognizing the benefits of gender, diversity, and inclusion to further economic, social, and political progress for allâcatalyzing the power of women in leadership and decision-making roles as powerful catalysts of change. It is clear that still a lot of work needs to be done to address the problem for women in science organizations as recently described in a Nature Careers Opinion Piece. This seminar series sought to connect people of all genders to be inspired to make a difference through advancing culture change toward greater gender equity, finding common ground in overcoming challenges, lingering gender-based obstacles, and showcasing role models to foster and accelerate women leadersâ transformation as catalysts of change.
Through TED talk style conference, Yvonne, an inspiring woman leader and a catalyst of change, who has attained various accolades throughout her outstanding career, shared engaging insights from her personal leadership journey and elaborated on the incredible experience as a catalyst of change in various industries. âTo be the catalyst of change in our work and personal environments, responding eloquently to life instead of reacting to it. When we cease defining ourselves by what we do and live with ourselves as who we are, both at home and at work, we will live a personal singularity of sorts, only to become the leaders we wish to be. Because when we are true and upstanding to ourselves, others believe, care and ultimately will follow us,â she said. Yvonne emphasized the importance of what it means to be a true catalyst of change and shared reflections and perspectives on driving impactful change in todayâs scientific community and mentoring people in organizations to be those critical catalysts.
Next, Aparna Das, a prominent advocate for gender equality in the scientific community, interviewed Yvonne in a fire-side chat. The intensively engaging session discussed Yvonneâs inspiring experiences of becoming a woman leader in science. Aparna and Yvonne explored the challenges, prejudices, and hurdles faced by women leaders, the expectations that society places upon them, and shared valuable insights into how women leaders today can successfully negotiate work-life challenges while pursuing their career goals.
Following Yvonneâs thoughts, participants on the seminar actively participated in the Q&A session and asked questions about the role of leaders and organizations in providing support and opportunities to young women leaders when transitioning to the future. âBuilding a gender-balanced organization is really opening up to these conversations of career. Companies that have been most successful at getting women to participate are the companies that are thoughtful about not only policies to integrate women [into leadership and decision-making roles] but how we’re supporting people at work and the needs for work-life balance,â said Yvonne. She provided great insights on how these challenges could be overcome to advance women leadersââwho continue to be vastly under-represented in decision making in all spheres: in the workplace, businesses, and communitiesââto positions of greater leadership.
The inspiring first session concluded with a power message from Yvonne addressing the importance of creating the space and time for reflection, learning to effectively advocate for personal goals and needs, and leveraging strengths to tap into the right resources. The time has come for women leaders to remain strategic, to empower themselves, to rise above the challenges and barriers to women leadership, and to push forward in building equitable and thriving work environments by embracing themselves as catalysts of change.
Wrapping up the seminar, CIMMYT Director General Bram Govaerts thanked Yvonne for sharing her inspiring leadership journey as well as her continued dedication to change. âAs we learn by doing, as individuals, as teams, and as organizations, to do the right thing, this conversation really inspired us. With this we also kick off our Catalysts of Change seminar series with over 200 participants and this is just a start. We need to listen and lead by example to allow us to be catalysts of change to resolve tomorrow’s problems todayâ he added. Thus, foregrounding strategic moves in the learning journey to empower organizations such as CIMMYT to support the work of changemakers like Yvonne and Aparna and the communities they impact.
To learn more about Catalysts of Change: Women Leaders in Science, click here to watch the seminar video on our YouTube channel or visit our website.
The jury of international scientist experts evaluated twenty-three research projects spanning nine countries on four continents for the 2023 Composite Flour Innovation Award. Sidhar Bhavani, senior scientist, head of Rust Pathology and Molecular Genetics at the International Maize and Wheat Improvement Center (CIMMYT) enriched the jury of the Awards, aimed to highlight the scientific work around the production and processing of non-wheat flours and their blends with wheat flour.
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Brazil is moving towards self-sufficiency, reducing the need for imports and increasing its participation in the international wheat market. The development of adapted wheat varieties with stable yields disease resistance, and wheat strains from the International Maize and Wheat Improvement Center (CIMMYT) enabled the consolidation and expansion of cereal crops in the country.
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Balancing the application of fertilizers based on the characteristics of soil leads to increased crop productivity, income, and fertilizer use efficiency unlike former âone size fits allâ recommendations, said Bedu Ram Bhushal, Nepalâs Minister of Agriculture and Livestock Development (MoALD) during a press briefing earlier this month in Nepalâs capital Kathmandu.
The site-specific recommendations applicable to maize, wheat, and rice were jointly launched with the Nepal Agricultural Research Council (NARC) and National Soil Science Research Center (NSSRC). They were implemented in collaboration with the Department of Agriculture (DoA) and led by the Nepal Seed and Fertilizer (NSAF) Project at the International Maize and Wheat Improvement Center (CIMMYT).
âI congratulate NARC for this historical work on updating the fertilizer recommendations after 46 years,â Bhushal said. âNow, we should support the large-scale adoption of these new recommendations by farmers for sustainable soil fertility management.â
Earlier recommendations developed by the Agricultural Chemistry and Soil Science Service Section under the Department of Agriculture (DoA) in 1976 did not take into account soil diversity, biophysical conditions, and agronomic management. Nutrients recommended for a particular crop were the same for terai lowlands, hills, and mountains.
In general, soil fertility changes over time due to deployment of continuous intensive cropping systems. The new recommendations consider the indigenous nutrient supply of soils, target yields, and the amount of nutrients removed by crops at harvest.
It took six years for NSSRC of NARC in partnership with NSAF, to update the recommendations through nutrient omission and optimum nutrient rate trials in various locations. By using advanced analytical methods and machine learning tools for extrapolating data across different agroecological zones and domains, they were able to make them site-specific.
Other factors considered, included attainable yield at a particular farm, soil fertility status, agro-climate, crop management practices, and the amount of nutrients to be supplied to fill the gap between crop nutrient removal and soil nutrient supply of nitrogen, phosphorus, and potassium. Micronutrients and organic inputs were also considered.
These recommendations were presented to leading soil scientists and agronomists from NARC and MoALD and were validated at national meetings in July and October 2022.
The new recommendations were included in the DoAâs agriculture extension guidelines in 2023, to achieve potential yield at the farm level and to link with the extension system through the three-tier of governments for its extensive use throughout the country. The new approach is part of CIMMYTâs efforts to support the NARC, MoALD, provincial agriculture ministries, and farmers to build indigenous soil fertility management resources and capabilities and promote locally adapted strategies for long-term resilience by using integrated soil fertility management approaches.
CIMMYT principal scientist Frédéric Baudron has two main research interests: making mechanization appropriate to smallholders and biodiversity conservation.
Wondering how these two intersect, a colleague of Baudron once asked him what the link was between an elephant and a tractor?
Now, in the recent report, âAddressing agricultural labour issues is key to biodiversity-smart farming research,â published in Biological Conservation, Baudron and other contributors have answered that question, examining trade-offs between labor and biodiversity conceptually, as well as in the specific context of Indonesia and Ethiopia.
This research continues work CIMMYT has done on the relationship between agriculture and biodiversity, including Commodity crops in biodiversity-rich production landscapes: Friends or foes? The example of cotton in the Mid Zambezi Valley, Zimbabwe and Sparing or sharing land? Views from agricultural scientists
Innovations in agricultural technology have led to undeniable achievements in reducing the physical labor needed to extract food from fields. Farm mechanization and technologies such as herbicides have increased productivity, but also became on the other hand major threats to biological diversity.
Adopting technologies that improve the productivity of labor benefits farmers in multiple ways, including a reduction of economic poverty, time poverty (i.e., lack of discretionary time, reducing labor drudgery), and child labor. Conversely, technologies that promote biodiversity often increase the burden of labor, leading to limited adoption by farmers. Therefore, there is a need to develop biodiversity-smart agricultural development strategies, which address biodiversity conservation goals and socio-economic goals, specifically raising land and labor productivity. This is especially true in the Global South, where population growth is rapid and much of the worldâs remaining biodiversity is located.
âWithout accounting for labor issues biodiversity conservation efforts will not be successful or sustainable,â said Baudron. âBecause of this, we wanted to examine what biodiversity-smart agriculture might look like from a labor point of view.â
Research has quantified that farming families in Africa who use tractors expended an average of 640 labor hours per hectare in maize cultivation. In contrast, farmers not using tractors spent over 1100 hours for the same yield.
Trade-offs
While that is a clear win for reducing the heavy physical toil of farming, there are potential negative effects on biodiversity. In many countries in the Global North, the rise of tractors and other big machinery has led to larger and more rectangular fields and the removal of farm trees and hedgerows, all of which is associated with lower biodiversity. The same is now happening in parts of the Global South.
âA trade-off implies that one goal can only be achieved at the expense of another goal,â said Baudron. âIt is not always a conscious choice; however, as farmers often adopt labor-saving techniques without considering the effects on biodiversity, simply because they lack options, and sometimes the necessary context.â
In Indonesia, the transition from harvesting rubber to producing palm oil has reduced the amount of physical labor, but biological diversity has decreased. However, innovations such as reducing fertilizer usage to avoid nutrient leaching into soil have been possible without compromising yield, and with the benefit of lower costs to farmers.
In Ethiopia, labor-saving technologies like the use of small-scale combine harvesters have been compatible with high biodiversity.
âI tell my colleagues a two-wheel tractor that allows mechanization with little negative environmental consequence (compatible with a mosaic of small, fragmented fields, with on-farm scattered trees, etc.) contributes to a landscape that works for people and biodiversity, including elephants,â said Baudron.
The Transforming Agrifood Systems in South Asia (TAFSSA) Initiative held its Evaluation and Planning Workshop in Dinajpur, Bangladesh, from June 6 to 8, 2023. The purpose of this interactive workshop was to bring together people from diverse sectors to assess the progress and challenges and adjust future implementation of the Initiativeâs activities, which aim to improve South Asian agrifood systems to promote sustainable and nutritious foods for all. All three government partners participated in the three-day event: the Bangladesh Institute of Research and Training on Applied Nutrition (BIRTAN), Bangladesh Agricultural Research Institute â On-Farm Research Division (BARI-OFRD), and the Bangladesh Wheat and Maize Research Institute (BWMRI).
The primary goal of the first day was to visit the locations of TAFSSAâs experiments and to interact with the farmers hosting the trials while they were taking place. Participants were divided into groups and visited several on-farm sites, viewing the trials and engaging in meaningful discussions with the farmers. These visits provided useful firsthand insights on the problems farmers confront while attempting to diversify their crops and improve their livelihoods. For example, visiting the research platform trial hosted by the BWMRI at its research station in Dinajpur allowed the participants to compare results from a broader set of diversified cropping patterns.
âMore crops mean more money,â said Mohammad Ali, one of the farmers. âI am delighted to produce a variety of crops and witness the increase in my earnings. By cultivating four crops in a single year, I have experienced firsthand the positive impact on my income. Crop diversification has opened doors to new opportunities and has brought greater satisfaction to my farming endeavors.â
During the second day of the workshop, presentations were held to provide an overview of results from the activities TAFSSA implemented during the first seasons of the Initiative, including research platform trials, training sessions on nutrition, and on-farm activities carried out across the divisions of Rangpur and Rajshahi. These presentations emphasized TAFSSA’s progress, obstacles, and preliminary results and were followed by a question-and-answer session to discuss the outcomes and efforts. This interactive workshop promoted information exchange and sparked more debate. Participants underlined the significance of market links between farmers and consumers, emphasizing the need to develop sustainable and lucrative value chains.
Future adjustments and improvements were discussed, which encouraged collaboration and problem-solving as a group. The method was inclusive and participative, ensuring that all opinions were heard and considered. The day ended with a dinner, during which participants were free to network and discuss ideas further with one another.
The third and final day began with a discussion on TAFSSAâs beneficiaries, particularly those involved in altering agrifood systems in South Asia to promote sustainable and healthy diets for all in the region. Participants looked at the gender aspect of the Initiative and whether it was effectively reaching all of its target beneficiaries, including men, women, and other marginalized groups.
The workshop provided a forum for participants to share their experiences, address issues and collaborate together to reform South Asian agrifood systems. The evaluation and planning exercises aimed to create equal access to nutritious diets, boost livelihoods and resilience among farmers, and safeguard land, air and groundwater resources.
âIt’s crucial to acknowledge the lack of technical knowledge among farmers,â said Dr. Mazharul Anwar, from the BARI. âProviding targeted training programs for specific crops like tomato, carrot, sorghum, and others can help bridge this knowledge gap and enhance farmers’ capabilities in achieving better yields and sustainable practices.â
Through its work in South Asia, TAFSSA can contribute to change in the region and continue its objective to develop more sustainable and equitable agrifood systems by obtaining useful information from field trials, interactive visits with farmers, presentations, and conversations. To that end, the workshop has set the stage for the Initiative to achieve its goals thanks to the collaborative efforts and collective passion of all the participants.
On May 26, 2023, representatives from the International Maize and Wheat Improvement Center (CIMMYT) and the Deutsche Gesellschaft fĂŒr Internationale Zusammenarbeit (GIZ) hosted a scaling networking event at CIMMYT headquarters in Texcoco, Mexico. This event marked the culmination of a Scaling Readiness Training organized by the One CGIAR Portfolio Performance Unit (PPU), which included 30 participants from various CGIAR centers working on various One CGIAR Initiatives.
Consequently, the Scaling Networking Event was happy to bring together scaling experts from the CGIAR training together with other experts from GIZ, CIMMYT, and other academic and non-governmental organizations. The participants exchanged learnings, ideas, and methodologies for scaling agricultural innovations. Fortunately, this did not remain just an abstract exercise as the attendees were also eager to explore future joint scaling projects. Because collaboration is one of the most important factors in scaling innovations, the purpose of the event was to establish new collaborative initiatives and partnerships.
GIZ and CIMMYT have a long history of collaboration in Mexico and elsewhere. In Africa, for example, a group of mechanization specialists from CIMMYT recently provided training in this area to strengthen the work of the GIZ Green Innovation Centers for the agricultural and food sectors. In this event, both organizations explained what they meant by scaling and how they have worked on it using tools such as the Scaling Scan. The Scaling Scan is another example of the collaboration between GIZ and CIMMYT (and the Netherlands Development Organization SNV) and is a tool that analyzes bottlenecks and opportunities in scaling and innovation.
Both organizations noted a need to explore a wider space to connect sectors and actors interested in scaling innovations developed by agricultural research. Looking at different scaling approaches, the Scaling Readiness framework was presented as the official scaling practice in One CGIAR. Also, the University of Chapingo and the Universidad Iberoamericana in Mexico showed the tools they are using from analyzing social networks and Geographical Information Systems. They showed the connections with people that scaling requires and the importance of basing scaling assessments on quantitative data.
The Mexican Center for Philanthropy (CEMEFI) and GIZ Mexico also discussed the difficulties that come with deciding what to scale and how to do so responsibly. Given current environmental concerns, GIZ Mexico emphasized the need to scale technologies at the intersection between biodiversity and agriculture. CEMEFI started a dialogue among scaling specialists about how to scale while also taking social factors into account. The major topics that came out of this discussion were the need to engage communities more, spend time with them planning interventions, and examine power relations.
As part of this event, scaling practitioners from three One CGIAR Research Initiatives, of which CIMMYT is a member, presented their scaling reflections. They shared their work and some research questions that are now being investigated in the Digital Initiative, the Latin American âAgriLACâ Initiative, and the Mitigation Plus Initiative. Some of the questions addressed in the event included what criteria should be chosen to select innovations, how to bring different scaling processes together, and finally, how to develop scaling strategies that could be supported by the digital and technological enabling conditions and tools.
Before the event concluded, the participants still had sufficient energy to debate and support the idea of creating a Latin American scaling community of practice to continue exchanging scaling experiences in the region, not only with partners but between scaling researchers and practitioners. The expected result would be to strengthen scaling work so that the most relevant practices to make agri-food systems resilient and sustainable could be adopted, adapted, or transformed to suit each community and its needs in each context.
What then were the final learnings for this event? The importance of scaling with partners; the need to address social inclusion in scaling by understanding power relations; and the sharing of varied scaling experiences and processes. All of this was highlighted at the end of the meeting, which gave closure to the day but an initial drive towards future potential collaborations that were created out of it.
Malnutrition is rampant in Pakistan and the release of bio-fortified wheat varieties with higher zinc content will help the countryâs 9 million hectares of cultivated wheat fields become more productive, climate resilient and disease resistant.
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The recently concluded Sorghum Conference brought together researchers, scientists, and experts from around the world to discuss the potential and challenges associated with this resilient crop. Participants shared their key takeaways, experiences, and insights during the event, shedding light on the importance of sorghum and its potential applications.
The International Maize and Wheat Improvement Center (CIMMYT) demonstrated valuable insights and technological advances in a variety of sessions, helping to shape the future of sorghum cultivation and products. CIMMYT has initiated a crop improvement program, known as the Dryland Crop Program (DCP) focusing on sorghum, millet, chickpea, pigeon pea and groundnuts. The program is establishing a network with stakeholders in 17 countries in Africa to collaboratively create, develop, and implement a crop improvement network. This approach will enable CIMMYT and the network to identify suitable products for specific market segments, establish joint breeding pipelines, conduct germplasm testing, and ultimately release and scale up superior seed varieties, thereby improving the quality and yield of these dryland crops, ensuring food security, and promoting sustainable agricultural practices.
Among the speakers and presenters at the conference were six National Agricultural Research Extension Systems (NARES) partners. They presented their findings, addressing critical topics such as adaptation genetics and genomics, climate and environmental change, sorghum yield optimization techniques, and the development of new sorghum products for human consumption.
These are some of their reflections:
Exploring the diverse applications of sorghum
Henry Nzioka from Kenya Agricultural and Livestock Research (KALRO) focused on the resiliency, adaptability, and versatility of sorghum. He appreciated the presentations that highlighted the resilience of sorghum in harsh environments. His research presentation focused on biological control measures and genetic resistance for managing the striga weed in sorghum. His findings aligned with one of the objectives of the conference, which was to develop climate-aware weed management technologies. Nzioka acknowledged the need to bridge the gap between research and the various actors in the sorghum value chain. In addition, he gained valuable knowledge regarding the application of modeling tools and farmer research networks.
âThe knowledge gained here can contribute to the advancement of sorghum-related industries or research. However, its relevance will be country specific as different countries have different preferences and it may also depend on level of technological advancement of respective countries. Countries can be provided with a basket of options from which they can pick the best bet for advancement.â
The importance of collaboration and the potential of sorghum
Charles Bett of KALRO, commended the high quality of the research papers and posters presented and emphasized the event’s timeliness and extensive use of technology. Bett was motivated by the research methodologies employed by other participants and gained new insights that he intends to incorporate into his own work. He summarized the impact of the conference as the realization of sorghum’s enormous potential for reducing food and nutrition insecurity and boosting household incomes. Bett presented on the evaluation of agricultural mechanization levels in the sorghum value chain, which aligned with the conference’s goal of reducing losses and increasing productivity. His reflections and lessons learned include the necessity of a broader coverage of thematic areas at future conferences and the dissemination of existing sorghum technologies to address productivity limitations. âWhile it is important to continue working on technology development, more efforts should be put on dissemination of existing technologies and address productivity depressing constraints.â
Promoting Sorghum as the future crop
Baba Haoua from INRAN, Niger emphasized the future potential of sorghum. The presentations and discussions inspired him and reinforced his belief that sorghum is destined to become a major player in the global agricultural landscape. Haouaâs own research on dual-purpose sorghum perfectly aligns with the objectives of the conference and he left the event knowledgeable and well-connected, eager to continue his work with vigor.
Promoting agroecological transition and regional research on sorghum
Assitan Daou, from the Institut dâEconomie Rurale (IER) in Mali emphasized the suitability of sorghum as a crop for growing populations in varying climates and the significance of an agroecological transition for adaptation to climate change. His poster presentation centered on sorghum cropping systems under rainfed conditions, which aligned with the conference’s goals of increasing crop productivity, adapting to climate variations, and bolstering the resilience of small-scale farmers. He considers the viability of sorghum production, the breaking of boundaries in the sorghum value chain, and the factors driving future sorghum demand. The exchange with other researchers, as well as the opportunity to improve his communication skills and establish contacts for future collaboration, satisfied Daou’s expectations for the conference. He learned new research techniques, such as crop modeling, and believes the knowledge he gained at the conference will advance sorghum-related industries and research.
Recognizing the resilience and potential of sorghum
Rekiya Abdoulmalik, from the Institute of Agriculture Research (IAR) in Nigeria, presented about the stability evaluation of recently released dwarf sorghum lines, which aligned with the conference’s objective of revealing the genetic potential of sorghum in various environments. The conference motivated her to explore new ideas and directions for her research, particularly regarding the significance of root system architecture for drought resistance. She left the conference with new knowledge and a vision for climate-smart sorghum varieties that can meet food and feed requirements.
Exposing the economic worth of sorghum
Alex Zongo, from the Institut de l’Environnement et des Recherches Agricoles (INERA) / CNRST in Burkina Faso, was inspired by the conference to shift the focus of his research to understanding the value of sorghum for inclusive and sustainable agriculture. He gained a deeper understanding of sorghum’s uses, such as in baking, brewing, and animal feed. Zongo was inspired by the conference to investigate the economic contribution of sorghum and increase stakeholder awareness. âNew knowledge shows that crop association (which mobilizes sorghum to a greater extent) helps to stabilize crop yields through soil fertility management. We therefore need to study its economic contribution.â
Scientists, researchers and stakeholders from around the world gathered at the global sorghum conference from June 5-9, 2023, in Montpellier, France, to discuss the latest developments in sorghum research, innovation, challenges and sustainable practices in the face of climate change.
Participating as a sponsor, the International Maize and Wheat Improvement Center (CIMMYT) demonstrated valuable insights and technological advances in a variety of sessions. Two CIMMYT representatives and six National Agricultural Research Extension Systems (NARES) partners, presented findings, addressing critical topics such as adaptation genetics and genomics, climate and environmental change, sorghum yield optimization techniques and the development of new sorghum products for human consumption.
CIMMYT has initiated a crop improvement program, known as the Dryland Crop Program (DCP), focused on sorghum, millets (pearl and finger millet), chickpea, pigeon pea and groundnut. The program is in the process of establishing a CGIAR-NARES network with stakeholders form 17 countries in Africa to collaboratively create, develop and implement a crop improvement network for these crops in Eastern, Southern, Western and Central Africa. This cooperative approach will enable CIMMYT and the network to identify suitable products for specific market segments, establish joint breeding pipelines, conduct on-farm germplasm testing and ultimately release and scale up superior seed varieties. This will ultimately lead to improving the quality and yield of these dryland crops, ensuring food security and promoting sustainable agricultural practices.
Abhishek Rathore presented âUnderstanding sorghum race level diversity and development of sorghum genomic resources by using deep learning-based variant calling approach,â which examines sorghum’s racial diversity and the creation of genomic resources. Using a deep learning-based variant, researchers identified race-specific genetic signatures and gained a comprehensive understanding of sorghum race structure and domestication processes. These discoveries pave the way for more targeted breeding programs and the identification of single nucleotide polymorphism (SNPs) markers.
Baloua Nebie presented a poster on âCrop improvement network approach to co-develop market required products and strengthen partnersâ capacities in Africa.â He indicated the dryland crops improvement programs are in collaboration with CGIAR-NARES programs, with CIMMYT acting as a facilitator within the network to deliver varieties more quickly and efficiently in response to market demand. The network is comprised of 10 NARES in Western and Central Africa, seven NARES in Eastern and Southern Africa, as well as farmer organizations and seed companies. In addition to their national roles, NARES partners will contribute to regional activities based on their comparative advantages; these roles include co-sharing of regional pipelines development, early to late testing of breeding lines, product release and scaling. Through consultative meetings and program evaluation, these activities will be aligned with the regional and country-specific market segments identified by stakeholders.
Alex Zongo of the Institut de l’Environnement et des Recherches Agricoles (INERA) / CNRST – Burkina Faso, a NARES partner, presented research analyzing the macro-institutional determinants of the adoption of new sorghum/millet varieties. He shed light on the obstacles associated with the adoption of new sorghum/millet varieties. The research uncovered the economic and social incentives that prevent their scaling through a combination of qualitative and quantitative analysis.
With climate change posing a significant threat to global agriculture, NARES partners involved in regional networks have delved into the pressing issues of enhancing sorghum production’s climate resilience. Rekiya Abdoulmalik, from the Institute of Agriculture Research (IAR) in Nigeria, presented a poster on the threats to sorghum cultivation in Nigeria posed by current security issues and potential climate change effects. The study evaluated 14 varieties of dwarf sorghum in multiple locations. The analysis identified stable, high-yielding varieties with the potential to contribute to Nigeria’s food security in the face of shifting environmental conditions.
Other NARES partners presenting posters included Henry Nzioka from Kenya Agricultural and Livestock Research (KALRO), who made a case for the biological control of the striga weed in sorghum. Citing technological advancements, he illustrated how the integration of climate-smart weed management technologies can lead to the control of the weed.
Another presentation by Charles Bett of KALRO focused on mechanization in the sorghum value chain, which revealed that investments in machinery and traction power have a positive and significant effect on sorghum yield. The findings recommend a shift in policy to help farmers afford small-scale machinery and gradually replace ox power with affordable machinery.
Baba Haoua, from INRAN, Niger, highlighted that introducing specific genes into sorghum varieties through conventional breeding will increase their nutritional content and identify promising lines for local farmers, providing a sustainable solution for improving sorghum for both grain and livestock feed applications.
Assitan Daou from the Institut dâEconomie Rurale (IER) in Mali emphasized the suitability of sorghum as a crop for growing populations in varying climates and the significance of an agroecological transition for adaptation to climate change. His poster presentation centered on sorghum cropping systems under rainfed conditions, which aligned with the conference’s goals of increasing crop productivity, adapting to climate variations and bolstering the resilience of small-scale farmers.
The conference, according to Chris Ojiewo, Strategic Partnerships and Seed Systems lead for the Dryland Crops Program at CIMMYT, played a crucial role in sharing the latest sorghum research findings and their outcomes. âThe conference provided an important platform for communicating advances in research and associated outputs and outcomes on sorghum as an important cereal grain contributing to food, nutrition and income securities and overall resilience in agrifood systems especially to smallholder farmers in areas prone to drought stress and more so in the face of changing and variable climates,” said Ojiewo.
CIMMYT also set up an exhibition booth that provided an overview of the various activities undertaken as a part of its dryland crop programs and CGIAR-NARES improvement network. Senior officials of donor organizations consulted CIMMYT staff regarding approaches to dryland crops improvements, key achievements and the possibility of new partnerships.
The next 21st Century Global Sorghum Conference will be hosted by Texas University in Lubbock in September 2026.
Supporting farmers and local communities can better and more quickly preserve the YucatĂĄn peninsulaâs biodiversity in the mid and long term, as well as the agricultural heritage of its Indigenous peoples.
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Kansas is experiencing a record-breaking year for hot, dry, windy (HDW) â the nationâs largest winter wheat producer â hit worse than any other state. CIMMYT researchers act to avert food insecurity as temperatures climb, atmospheric pressure increases â generating faster and longer gusts of wind and unpredictable weather conditions.
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Wheat is critical to millions of households in Pakistan as it serves a dual role as a foundational part of nutritional security and as an important part of the countryâs economy. Pakistanâs goal to achieve self-sufficiency in wheat production is more attainable with the release of 31 wheat varieties since 2021.
These new seeds will help the countryâs 9 million hectares of cultivated wheat fields become more productive, climate resilient, and disease resistantâa welcome development in a region where climate change scenarios threaten sustained wheat production.
The varieties, a selection of 30 bread wheat and 1 durum wheat, 26 of which developed from wheat germplasm provided by the International Maize and Wheat Improvement Center (CIMMYT) were selected after rigorous testing of international nurseries and field trials by partners across Pakistan. During this period, three bread wheat varieties were also developed from local breeding programs and two varieties (one each of durum and bread wheat) were also developed from the germplasm provided by the ICARDA. These efforts are moving Pakistan closer to its goal of improving food and nutrition security through wheat production, as outlined in the Pakistan Vision 2025 and Vision for Agriculture 2030.
Over multiple years and locations, the new varieties have exhibited a yield potential of 5-20% higher than current popular varieties for their respective regions and also feature excellent grain quality and attainable yields of over seven tons per hectare.
The new crop of varieties exhibit impressive resistance to leaf and yellow rusts, compatibility with wheat-rice and wheat-cotton farming systems, and resilience to stressors such as drought and heat.
Battling malnutrition
Malnutrition is rampant in Pakistan and the release of biofortified wheat varieties with higher zinc content will help mitigate its deleterious effects, especially among children and women. Akbar-2019, a biofortified variety released in 2019, is now cultivated on nearly 3.25 million hectares. Farmers like Akbar-2019 because of its 8-10% higher yields, rust resistance, and consumers report its good chapati (an unleavened flatbread) quality.
âIt is gratifying seeing these new varieties resulting from collaborative projects between Pakistani wheat breeding programs and CIMMYT along with funding support from various donors (USAID, Bill & Melinda Gates Foundation, HarvestPlus, and FCDO) and the government of Pakistan,â said Ravi Singh, wheat expert and senior advisor.
Closing the yield gap between research fields and smallholder fields
Releasing a new variety is only the first step in changing the course of Pakistanâs wheat crop. The next step is delivering these new, quality seeds to markets quickly so farmers can realize the benefits as soon as possible.
Increasing evidence suggests the public sector cannot disseminate enough seeds alone; new policies must create an attractive environment for private sector partners and entrepreneurs.
âPakistan has developed a fast-track seed multiplication program which engages both public and private sectors so the new varieties can be provided to seed companies for multiplication and provided to farmers in the shortest time,â said Javed Ahmad, Wheat Research Institute chief scientist.
Strengthening and diversifying seed production of newly released varieties can be done by decentralizing seed marketing and distribution systems and engaging both public and private sector actors. Marketing and training efforts need to be improved for women, who are mostly responsible for household level seed production and seed care.
A concerted effort to disseminate the improved seed is required, along with implementing conservation agriculture based sustainable intensification, to help Pakistanâs journey to self-sufficiency in wheat production.
Sridhar Bhavani of the International Maize and Wheat Improvement Center (CIMMYT) enriched the jury of the 2023 Flour Innovation Award, as a recognized expert in the use of enzymes to improve wheat flour quality, with more than one and a half decades of experience in wheat research.
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