The Sainsbury Laboratory, the John Innes Centre and 21 other institutes are joining forces in a major global effort to monitor plant pathogens. Led by CIMMYT, the initiative aims to strengthen wheat productivity in food-insecure areas of East Africa and South Asia.
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In Ethiopia, regional government representatives endorsed in October 2023 the National Framework on Climate Services (NFCS), a tool designed to guide the establishment and delivery of climate services in key sectors: water and energy, agriculture, health, disaster risk management, and environmental protection.
This endorsement by regional state representatives marks an important step towards the implementation at regional and zonal levels of the NFCS, which was adopted at the national level in 2020.
The adoption of the Framework concluded a two-day workshop organized by the Ethiopian Meteorological Institute in partnership with CIMMYT through the AICCRA project, which aims to scale climate-smart agriculture and climate information services for the benefit of millions of small-scale farmers in Ethiopia. The workshop was also attended by ministers, state ministers and heads of federal offices from the sectors affected by climate change.
Responding and adapting to climate change requires that all affected sectors cooperate and collaborate, stressed Fetene Teshome, General Manager of the Ethiopian Meteorological Institute, in his opening remarks. Experts and regional and local representatives should come together to establish a system that can gather quality information and disseminate it to its users, he added.
“We can’t tackle climate change easily, so we have to find ways to live with it and use it to our benefit,” said Habtamu Itefa, minister of water and energy. He urged the workshop participants to approach the NFCS as a system designed to outlive governments and called them to play an essential role in its implementation in their respective regions, zones, districts and kebeles (sub-districts).
“Climate services will bring meaningful changes in agriculture”
Among the sectors most affected by climate change, agriculture accounts for about 40% of the GDP and employs more than 80% of the population, making it the backbone of the Ethiopian economy. It is thus crucial to address climate change impacts on the sector.
CIMMYT Senior Scientist, Kindie Tesfaye, explained how the AICCRA project works to enhance access to climate information services and validated climate-smart agriculture technologies in six African countries, including Ethiopia. As a stakeholder of the project, CIMMYT is training farmers, development agents, and local agricultural experts, and other agricultural value chain actors on the use of climate advisory services in collaboration with LERSHA, a digital platform providing farmers with contextualized weather forecast, inputs, mechanization and financial advisory services.
“We consider climate as a major problem for the country’s agricultural activities because the sector is heavily dependent on rain-fed production system and we believe that implementing this national framework on climate services will bring meaningful changes to the sector enabling it to manage climate risks successfully,” said Kindie Tesfaye.
The AICCRA project supported strengthening the function of the NFCS coordination team for multi- stakeholder engagement, supporting the endorsement of the framework and providing training on resource mobilization for its implementation. The project is also building capacity at different levels, promoting climate smart agriculture.
Productive in-depth discussions
Prior to the NFCS endorsement, participants shared inputs from their respective regions and sectors, providing inputs to the framework. Delegates mostly discussed capacity building needs, information delivery channels, synergetic cooperation among government institutions and mobilization of resources for implementation.
On the second day of the workshop, four different papers were presented on a seasonal climate update for the 2023 Bega season (October to December), on the impacts outlook for the upcoming Bega season, on the national state of the climate, and on climate risk management in agriculture extension.
The plenary discussion that followed was led by Fetene Teshome and offered an opportunity to the participants to raise their concerns on the implementation of the framework in their respective regional states. Many of the participants reflected on how the framework can accommodate the different ecology of various areas and how it can upgrade or replace dysfunctional meteorology infrastructures.
The Climate Risk Curriculum module that was prepared by AICCRA for agricultural extension workers was also launched during the workshop.
CIMMYT scientist Christopher Ochieng Ojiewo, who is responsible for strategic partnerships and seed systems in the dryland crops program, encourages Kenyans to adopt millet and related products. The move is seen as a crucial step in combating rising rates of obesity and improving nutrition in the country.
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Climate change poses a significant challenge to agricultural production and food security worldwide. “Rising temperatures, shifting weather patterns and more frequent extreme events have already demonstrated their effects on local, regional and global agricultural systems”, says Kevin Pixley, Dryland Crops Program director and Wheat Program director a.i. at CIMMYT. “As such, crop varieties that can withstand climate-related stresses and are suitable for cultivation in innovative cropping systems will be crucial to maximizing risk avoidance, productivity and profitability under climate-changed environments.”
In a new study published in Molecular Plant, scientists from CIMMYT, Alliance of Bioversity International and CIAT, the International Institute of Tropical Agriculture (IITA) and national agricultural research programs in Burkina Faso, Ethiopia, Nigeria, Tanzania and Uganda to predict novel traits that might be essential for future varieties of popular crops. Having surveyed nearly 600 agricultural scientists and stakeholders, they identify likely agronomic changes in future cropping systems seeking sustainability, intensification, resilience and productivity under climate change, as well as associated essential and desirable traits, especially those that are not currently prioritized in crop improvement programs.
Focusing on six crops which hold vital importance for African food security and CIMMYT and CGIAR’s mission—maize, sorghum, pearl millet, groundnut, cowpea and common bean—the authors review opportunities for improving future prioritized traits, as well as those they consider ‘blind spots’ among the experts surveyed.
Predicting future essential traits
The results of the study speak to the need for considering cropping systems as central to climate change resilience strategy, as well as the need to reconsider the crop variety traits that will eventually become essential.
Overall, experts who participated in the survey prioritized several future-essential traits that are not already targeted in current breeding programs — mainly water use efficiency in pearl millet, groundnut, and cowpea; adaptation to cropping systems for pearl millet and maize; and suitability for mechanization in groundnut. The survey confirmed that many traits that are already prioritized in current breeding programs will remain essential, which is unsurprising and consistent with other recent findings. While smarter and faster breeding for currently important traits is essential, the authors suggest that failure to anticipate and breed for changing needs and opportunities for novel characteristics in future varieties would be a big mistake, compromising farmers’ resilience, improved livelihood opportunities, and food security in the face of changing climate.
Importantly, the authors explain, the predicted future-essential traits include innovative breeding targets that must be prioritized. They point to examples such as improved performance in inter- or relay-crop systems, lower nighttime respiration, improved stover quality, or optimized rhizosphere microbiome, which has benefits for nitrogen, phosphorous and water use efficiency.
The authors emphasize that the greatest challenge to developing crop varieties to win the race between climate change and food security might be innovativeness in defining and boldness to breed for the traits of tomorrow. With this in mind, they outline some of the cutting-edge tools and approaches that can be used to discover, validate and incorporate novel genetic diversity from exotic germplasm into breeding populations with unprecedented precision and speed.
Read the full study: Redesigning crop varieties to win the race between climate change and food security
The Livestock Production Systems in Zimbabwe (LIPS-Zim) project implemented by CIMMYT and various research institutions in partnership with the government expects to increase incomes and ensure food security for more than 50,000 rural Zimbabweans.
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Awais Rasheed has established a high-throughput KASP molecular breeding platform and made outstanding contributions to promoting China-Pakistan cooperation. He has discovered and validated 90 KASP markers available for wheat breeding, accounting for 60 percent of similar markers internationally, which are widely used in China and 15 other countries.
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Reiterating the commitment to leading agriculture innovation across Africa, Bram Govaerts, director general of the International Maize and Wheat Improvement Center (CIMMYT), took part in the 8th Africa Agribusiness and Science Week (AASW8), June 5-8, 2023, in Durban, South Africa.
The theme of the AASW8 was linking science, innovation, and agribusiness for resilient food systems.
CGIAR System Board Chair Lindiwe Sibanda called for increased research and innovation to achieve an impact at scale and benefit African farmers at the opening ceremony.
Govaerts moderated a partner panel discussion regarding opportunities to strengthen the collaboration between One CGIAR and African research stakeholders.
Organizations represented on the panel included leaders from Technologies for African Agricultural Transformation, Total Landcare, Lupiya, Chitetezo Farmer Federation, and Green Sahel.
The African Development Bank, the African Union Commission, the Forum for Agricultural Research in Africa, and CGIAR also launched the Action Plan for the Abidjan II Communiqué that aims to build Africa’s resilience to future shocks by bolstering agricultural research and innovation systems to give farmers access to the science and technologies that they need to thrive.
“African countries must systematically review what is needed for the transformation of agrifood systems taking into consideration the present and future needs, and significantly increase investment in agricultural research and development,” said Govaerts.
Local and regional agribusiness is an essential industry playing a significant role in Africa’s prospects for economic growth and ensuring food security of its citizens. Still, challenges include regional harmonization of crop variety releases, surveillance of transboundary pests, and the growing threats of climate change.
“CIMMYT is dedicated to collaborating with local stakeholders to facilitate policies at the national, regional, and continental levels to promote proactive and eco-friendly management of transboundary plant health threats,” said Govaerts.
In a world where more than 800 million women, men, and children still go hungry, the International Maize and Wheat Improvement Center (CIMMYT) offers proven science and formidable partnerships to help achieve the recently stated ambitions of prosperous nations for global food security and nutrition.
Meeting in Hiroshima, Japan, the weekend of 19 May 2023, the grouping of seven wealthy nations known as the G7 released a public statement recognizing that the world faces the highest risk of famine in a generation and the need of working together to build more resilient, sustainable, and inclusive agriculture and food systems.
“Realizing resilient global food security and nutrition for all is our shared goal for a better future for each human being,” reaffirmed the leaders of Japan, Australia, Brazil, Canada, Comoros, the Cook Islands, France, Germany, India, Indonesia, Italy, the Republic of Korea, the United Kingdom, the United States of America, Vietnam, and the European Union, in a joint statement.
The six-page statement lays out detailed actions, policy goals, and partnerships to respond to the immediate food security crisis, in which more than 250 million persons in 58 countries need emergency food assistance, as well as preparing for and preventing future crises.
Research with impacts for marginalized, small-scale farmers
Recognizing the key role of applied research to boost food production while addressing climate shocks, the leaders advocated promoting climate-smart agriculture, including “…agro-ecological, nature-based solutions and ecosystem based approaches and other innovative approaches as appropriate, drawing on the knowledge and evidence base developed by the FAO, IFAD and CGIAR.”
Established in 1971, CGIAR is a global partnership dedicated to reducing poverty, enhancing food and nutrition security, and improving natural resources. A founding member and leader in CGIAR, CIMMYT is responsible for major impacts in the productivity of two key food crops, according to Bram Govaerts, director general of CIMMYT.
“Maize and wheat together sustain billions of people worldwide, providing around a fifth of humanity’s nutritional protein and carbohydrates, generating nearly $50 billion in trade each year, and covering 400 million hectares of land — that’s approximately one quarter of the world’s farmland,” said Govaerts. “We stand ready to support G7 efforts.”
“Fully half of the maize and wheat varieties grown in low- and middle-income countries carry CIMMYT breeding contributions,” Govaerts explained. “This and our research on more productive and efficient farming methods for those crops generate approximately $3.5-4 billion each year in enhanced benefits to farmers and consumers.”
As part of its decades-long cropping systems research, CIMMYT has studied and promoted conservation agriculture, a soil- and water-saving approach involving reduced tillage, keeping a cover of crop residues, and growing multiple crops together or in rotations. This approach has become highly relevant for farmers in places such as South Asia, where rising temperatures and fresh water scarcities threaten more than 13 million hectares of crop production. As part of its “cropping systems” approach, CIMMYT has diversified its expertise to groundnut, pigeon pea, chickpea, pearl millet and sorghum, with a strong focus on nutrition and resilience, while maintaining the Center’s foundational work in seed production and seed marketing systems.
The G7 statement cites the importance of dryland cereal and legume crops in settings such as sub-Saharan Africa and South Asia, and CIMMYT has undertaken initiatives to improve the livelihoods of small-scale producers and consumers of sorghum, groundnut, cowpea, common beans, and millets. Among other things, the work generates and shares data on the performance and the availability of seed of improved varieties of those crops.
CIMMYT is co-leading the CGIAR initiative Digital Innovation, which is working across 13 countries in Africa, Asia, and Latin America to improve the quality of information systems and strengthen local capacities to realize the potential of digital technologies, thereby boosting small-scale farmers’ adoption of better practices, their incomes, and their resilience to climate shocks, while reducing the gender gap and managing food system risks.
Partner connections and funding power success
These impacts would not have been possible without CIMMYT’s longstanding, effective relationships with hundreds of public and private partners worldwide, a number of which are mentioned in the G7 statement, as well as the global reach of the jointly-generated, freely-shared knowledge from those collaborations, according to Govaerts.
“A 2022 study in Nature Scientific Reports showed that the Center’s climate science, associated with some 90% of its research, appears on academic and research platforms as well as in social media and government and international organization websites across the Global North and South, contributing to the decolonization of science and the democratization of scientific debates,” he said.
CIMMYT partnerships with and support for private seed producers and dealers have helped fuel the adoption and spread of drought tolerant maize varieties in Africa. A 2021 study shows that, during 1995-2015, nearly 60% of all maize varieties released in 18 African countries came from research by CIMMYT or the International Institute of Tropical Agriculture (IITA), bringing yearly benefits as high as $1.05 billion and gaining mention in a blog by Bill Gates.
Regarding support for CIMMYT’s work from prosperous nations, including several G7 members, the Center receives generous investments on the order of $170 million each year from diverse funders including the Bill & Melinda Gates Foundation, the US Agency for International Development (USAID), Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ) GmbH, the government of Mexico, and CGIAR.
In sub-Saharan Africa, 85% of the population couldn’t afford an energy- and nutrient-sufficient diet. In the 12 most afflicted countries, World Bank data shows 9 out of 10 people struggle to afford a nutritious meal.
Climate change aggravates risk to make food even more unaffordable and crops more susceptible to crop pests and diseases.
CIMMYT maize research guides startups and nonprofits across Africa to act and put pressure on public and private actors to avert food insecurity and regional instability.
Through decades-long Asian and global partnerships, the International Maize and Wheat Improvement Center (CIMMYT) is refining and spreading a suite of resource-conserving, climate-smart innovations for highly diverse maize- and wheat-based cropping systems, including more precise and efficient use of water and fertilizer, as well as conservation agriculture, which blends reduced or zero-tillage, use of crop residues or mulches as soil covers, and more diverse intercrops and rotations.
“Zero-tillage and residue management for cereals — that is, sowing the seed directly into unplowed soils and residues from the preceding rice crop — has been adopted on a significant area in the transact of Indo-Gangetic Plain, with positive impacts on crop yields, profitability, and resource-use efficiencies,” said Tek Sapkota, senior scientist in agricultural systems/climate change, CIMMYT.
The paper “Conservation agriculture for sustainable intensification in South Asia,” published in the science journal Nature Sustainability reported that, compared to the conventional practice, conservation agriculture resulted overall in a 4.6% higher grain yield, a 14.6% improvement in water use efficiency, and a 25.6% greater net economic return. The net economic return was 40.5% higher for full conservation agriculture but, given the benefits of partial adoption of the practices, rigid adherence to an “all or nothing” approach to spread conservation agriculture in South Asia does not seem warranted.
Conservation agriculture also offers several ecosystem services. In the study data, global warming potential was reduced by as much as 33.5% in rice-wheat systems, values that are consistent with other research. Moreover, conservation agriculture-based practices provide an economically feasible alternative to burning rice residues, a serious public health threat in northwestern India given the roughly 23 million tons of residues that are burned each year in the region.
“More widespread adoption of zero-tillage in India has been made possible with the development of next-generation tractor-drawn implements that allow direct seeding into heavy residues, as well as business models whereby implement owners contract out with neighboring farmers to sow their crops and provide other services,” said Sapkota. “National governments in South Asia are actively promoting conservation agriculture to address residue burning and other farming sustainability problems.”
Fitting conservation agriculture to maize farming in Mexico
Efforts to adapt conservation agriculture and promote its adoption by farmers operating highly-diverse, mostly rainfed maize-based cropping systems in Mexico have had mixed results. A recent study assessed soil health in 20 trials in starting between 1991 and 2016 in agro-ecologies ranging from handplanted traditional systems to intensive irrigated systems, contrasting conservation agriculture effects with those of local conventional practices, which commonly involve tillage, residue removal, and continuous maize production.
As reported in the 2021 paper “Effects of conservation agriculture on physicochemical soil health in 20 maize-based trials in different agro-ecological regions across Mexico,” published in the science journal Land Degradation and Development, conservation agriculture increased maize yields at most sites by 0.85 tons per hectare, on average. Organic matter and nitrates were higher in topsoils under conservation agriculture and soil aggregate stability was greater, meaning the soil more effectively moved air and water to plant roots. For other soil health parameters, such as nutrient content, pH, or compaction, most values were determined more by local soil type than by crop management.
“Given the significant variation across agro-ecologies, local adaptive trials are important to assess the effects of conservation agriculture on soil health and fit it to local conditions,” said Simon Fonteyne, a CIMMYT cropping systems agronomist and first author of the paper.
Emissions control
Several recent studies have assessed the costs and potential of various sustainable intensification technologies for reducing greenhouse gas emissions in India, Bangladesh and Mexico. Their findings can help inform national policies on food security, economic development and environment, including those relating to the Paris Agreement.
In the 2019 study “Cost-effective opportunities for climate change mitigation in Indian agriculture,” published in the journal Science of the Total Environment, CIMMYT and partners found that estimated total emissions from Indian agriculture were 481 tons of CO2 equivalent (MtCO2e) in 2012, with crops contributing over 40% and livestock nearly 60%. Under a business-as-usual scenario, agricultural greenhouse gas emissions in India would be 515 MtCO2e by 2030. This annual emissions could be reduced by 85.5 MtCO2e through adoption of mitigation practices and about 80% of that reduction could be achieved through measures that would actually save money and, in many cases, could be implemented with current technology. The efficient use of fertilizer, zero-tillage, and rice-water management could deliver more than 50% of the technical abatement potential.
“Realization of this mitigation potential will depend largely on the extent adoption by farmers,” said Sapkota, who was lead author of the study. “Large-scale adoption of apparently win-win options is not happening, so the government of India will need to apply appropriate policy measures and incentives, consistent with its food security and emission reduction goals.
A similar study in Bangladesh, reported in the 2021 paper “Quantifying opportunities for greenhouse gas emissions mitigation using big data from smallholder crop and livestock farmers across Bangladesh,” published in the journal Science of the Total Environment, found greenhouse gas emissions from agriculture in Bangladesh of 76.8 MtCO2e for 2014–15. Yearly emissions by 2030 under a business-as-usual approach would approximate 86.9 MtCO2e and, by 2050, about 100 MtCO2e. Adoption of realistic, climate-smart crop and livestock management options to reduce emissions offer mitigation opportunities of 9.51 MtCO2e per year by 2030 and 14.21 MtCO2e by 2050. As much as 75% of this potential can be achieved through cost-saving options that benefit smallholder farmers. As is the case for India, realization of this potential largely depends on the degree to which supportive policies and measures can encourage farmer adoption.
A similar rapid assessment of costs for to mitigate greenhouse gas emissions from crops, livestock, and forestry in Mexico found a national mitigation potential of 87.9 MtCO2eq per year, fully 72.3 MtCO2eq from livestock. As reported in the 2022 paper, “Quantification of economically feasible mitigation potential from agriculture, forestry and other land uses in Mexico,” published in the science journal Carbon Management, implementing mitigation potential on Mexican cropland could bring net benefits, compared to livestock and forestry options, which involve net costs. In the 2021 paper “Reduced Water Use in Barley and Maize Production Through Conservation Agriculture and Drip Irrigation” a reduction of emissions caused by lower fuel use in conservation agriculture of 192 kg CO2 ha−1 was measured in farmers fields, as well as an increase in soil carbon and a reduction in water use.
Scientists at the International Maize and Wheat Improvement Center (CIMMYT) are helping to scale up wheat production and productivity in Malawi.
The political conflict between Russia and Ukraine has disrupted food supply chains globally and Malawi’s wheat supply has been adversely affected. As a response, Pyxus Trading, the biggest agribusiness private company in Malawi, has endeavored to partner with CIMMYT to accelerate the growth of wheat production in the country.
At a recent visit by CIMMYT’s Director General Bram Govaerts, the executive management of Pyxus provided detailed updates of how CIMMYT has facilitated access to 100 improved wheat varieties now undergoing trials in Malawi. The visit was part of the Accelerated Innovation Delivery Initiative (AID-I), a new project funded by the United States of Agency for International Development (USAID).
Attending the Pyxus field visit was United States Department of State Special Envoy for Global Food Security Cary Fowler, Dina Esposito, Assistant to the Administrator at USAID Bureau of Resilience and Food Security, and other USAID staff.
Speaking at a field tour this January at the Pyxus farm headquarters, Commercial Manager John Gait expressed the importance of achieving self-sufficiency in countries like Malawi.
“It’s become very apparent with the global supply chain disruptions of wheat and related commodities that countries like Malawi should rise to a level of self-sufficiency for strategic commodities such as wheat,” Gait said. “Through the help of CIMMYT, we managed to obtain materials for 100 varieties which we have put under trial. Our objective is to select varieties that are most adapted to our agroecology and provide us with satisfactory yields and grain quality sufficient for our processing ambitions.”
CIMMYT Sustainable Agrifood Systems (SAS) Director Sieg Snapp affirmed CIMMYT’s support for private sector companies like Pyxus.
“When they told me they were searching for high performing genetic materials I told them about the Global Wheat Program and how such material could easily be obtained from our headquarters in Mexico,” Snapp said. “I immediately facilitated linkages between Pyxus and CIMMYT headquarters which saw the quick delivery of the varieties. Considering that it was quite recent, I am impressed to see that the trials are already so well established.”
Achieving global food security will require cooperation and collaboration between partners from different sectors. One of CIMMYT’s strategic thrusts is to encourage public-private partnerships where national governments can leverage on the competencies and capabilities of the private sector.
“We aim to be catalytic in all our functions. We believe we have a critical role in ensuring that countries like Malawi have access to the best genetics to ensure that they meet their food requirements. I am happy Pyxus identified us a strategic partner to work with in their wheat program, and through working hand in hand with the government and other key players, the quest to achieve food self-sufficiency can have a shortened pipeline,” Govaerts said.
In addition to witnessing the wheat trials, Govaerts received a tour of the entire Pyxus operations which included the groundnut and forestry operations. Pyxus staff each took turns explaining the various business models the company was employing to contribute to Malawi’s export earnings and food security.
As a commitment to help Malawi realise increased wheat production, CIMMYT will be closely following the Pyxus trials and providing technical support to ensure that the best varieties adopted are rapidly scaled.
Goal 17 of the United Nations’ Sustainable Development Goals calls to “Strengthen the means of implementation and revitalize the global partnership for sustainable development”. The International Maize and Wheat Improvement Center (CIMMYT) answered this call to action by recently hosting a collaborative dinner to strengthen ties between the Center, the private sector and government partners in Malawi.
Hosted by CIMMYT Director General Bram Govaerts, the dinner followed a visit by US Special Envoy for Global Food Security Cary Fowler, Dina Esposito, Assistant to the Administrator, USAID Bureau of Resilience and Food Security and other USAID staff to discuss and witness the new Accelerated Innovation for Delivery Initiative (AID-I) in action.
“The challenges of today do not require a single sector approach but a pluralistic one in which partners from the private, public sectors agree to work hand in hand with science for impact organizations like CIMMYT and other CGIAR centers,” said Govaerts in his keynote address at the event. “I am very grateful for your support and your presence today is a testimony or our harmonious solidarity and spirit of collaboration in addressing food and nutrition security.”
The meeting was attended by seed industry players, agricultural input distributors, food processors and Government representatives including Director of Agriculture Research Services Grace Kaudzu, who expressed her appreciation for the gathering.
“As government, our role is to create an enabling environment for the private sector to thrive and progressive development partners are always welcome. Such gatherings enable us to hear the needs of colleagues and partners from other sectors to create this environment,” she said.
Malawi has established an ambitious roadmap where legume exports and maize production are to be significantly scaled up. The AID-I project dovetails with this roadmap as it focuses on strengthening maize and legume seed systems and addressing systemic constraints in both value chains.
The dinner further facilitated private sector players to meet various CIMMYT specialists ranging from seed system experts, soil scientists, breeders and plant physiologists. According to Peter Setimela, a seed system specialist at CIMMYT, such meetings are critical as they enable a diversity of partners to know what the other has to offer.
“CIMMYT has a lot of expertise which these private sector partners can take advantage of,” Setimela said.
The AID-I project seeks to scale up existing and high potential innovations, technologies and business models as opposed to initiating new ones. This only makes sense considering that the implementation period is only two years and scaling up existing innovations give greater prospects for success.
CIMMYT Regional Representative Moses Siambi labelled the event a success citing the huge turnout of the partners.
“The effectiveness of our interventions is dependent on the strength of the relationships we have with our partners. Such a massive attendance is indicative of cordial relations between CIMMYT and the private sector in conjunction with the government,” Siambi said.
Govaerts closed the event by stressing that through harnessing the potential of convening power, the future is bright regardless of the reality of climate change and geopolitical conflicts.
On March 2, the China-Pakistan Joint Wheat Molecular Breeding International Lab (“Joint Lab”) was launched, funded by the Science and Technology Partnership Program, Ministry of Science and Technology of China, with the joint support from China‘s Ministry of Agriculture and Rural Affairs, National Agriculture Research Center of Pakistan and the International Maize and Wheat Improvement Center (CIMMYT).
The joint lab aims to develop new varieties with high yield and resistance to disease, enhancing breeding capacity and wheat production in Pakistan, where wheat is the largest food crop.
Read the original article: China, Pakistan launched joint wheat breeding lab
The best results in combating pests and diseases exacerbated by climate change and protecting agricultural food systems originate from strategic partnerships between national governments and international research organizations. Such a synergy between Zimbabwe’s Department of Research and Specialist Services (DRSS) and the International Maize and Wheat Improvement Center (CIMMYT) was recognized for its effectiveness at an event hosted by Zimbabwe Plant Quarantine Services on January 9, 2023.
“The mandate of ensuring that Zimbabwe is protected from plant diseases and invasive pests is one which cannot be attained by government alone, but together with partners such as CIMMYT,” said Dumisani Kutywayo, Chief Director of DRSS.
Dagne Wegary Gissa, CIMMYT senior scientist in maize breeding, presented Kutywayo with the latest advanced PCR testing kits for detecting maize lethal necrosis. “We are committed to ensuring that we support Zimbabwe with improved maize and wheat varieties but also with rapid disease detection,” said Gissa.
Kutywayo and senior directors were given a tour of the plant quarantine services station, where they observed where all introduced maize seed is quarantined and tested before being incorporated into the local seed systems. Tanyaradzwa Sengwe, a seed health and quality expert, summarized the quarantine procedures and explained how the day-to-day operations between the two institutes are being implemented. This involves the management of imported seed, protocols of seed management and biosafety measures for the quarantine facility.
Expanding partnerships
Zimbabwe can now accelerate its crop improvement programs, Gissa indicated, because CIMMYT has provided the government access to doubled haploid (DH) technology. This technology significantly shortens the breeding cycle from seven years to approximately 3-4 years. DH technology has become an integral part of many commercial maize breeding programs, as DH lines offer several economic, logistic and genetic benefits over conventional inbred lines. Further, new advances in DH technology continue to improve the efficiency of DH line development and fuel its increased adoption in breeding programs worldwide.
CIMMYT-Zimbabwe has facilitated access for Zimbabwe’s maize breeding program to a CIMMYT DH facility in Kenya. Busiso Mavankeni, the head of the Crop Breeding Institute, related how it was very expensive for governments of developing countries to keep up with the latest breeding technology trends and so collaborating with CIMMYT is helping Zimbabwe. “Having access to the DH facility has been a great boon to our breeding program,” said Mavankeni.
CIMMYT and Zimbabwe are also engaged in capacity building exercises; involving training sessions across a variety of food system frameworks. Nhamo Mudada, Head of Plant Quarantine Services, acknowledged the multiple trainings ranging from disease identification and prevention systems to entomology related concepts. “Our technical capabilities have increased significantly, and we strongly attribute this to CIMMYT’s knowledge sharing mandate,” Mudada said.
“This sustainability is enabled by ensuring that our systems can screen genetic materials coming into the country and detect diseases which may be foreign to the agroecological region. CIMMYT has, over the years, supported the government not only from a financial perspective but also from a technical capacity perspective.
“Having reliable partners such as CIMMYT who generously invest in government priorities helps our country to be well positioned against threats to our food security,” said Kutywayo, “The key for creating and maintaining sustainable innovation is for development partners like CIMMYT to work within existing national frameworks,” said Kutywayo. “As the adverse effects of climate change intensify, such strategic partnerships are the only way to establish appropriate responses.”
“Our goal is to serve as critical partners for Zimbabwe’s agrifood programs. We have dedicated ourselves to be a long-term partners and will provide as much support as we can to ensure Zimbabwe’s food security,” Gissa said.
At the 2023 Dryland Legumes and Cereals Review and Planning Meeting, Bram Govaerts, Director General of the International Maize and Wheat Improvement Center (CIMMYT), explained why African smallholder farmer families are most impacted by food shortages and high food prices.
“The world is in the middle of a food crisis, driven by the supply chain disruptions during and post-Covid, climate change with increased storms, temperatures, and drought, and the Russia-Ukraine crisis, leading to a shortage of fertilizers for food crop production, which have all led to the high cost of food,” said Govaerts, highlighting that smallholders are dealing with multiple challenges at once.
He continued by describing how the aforementioned challenges to food security are worsening poverty for vulnerable people in Africa, especially smallholder farmers.
However, harnessing the continent’s potential for food production could help to alleviate poverty and food insecurity. Govaerts cited examples of where smallholder farmers have returned to producing nutritious indigenous crops such as millet, sorghum, guinea corn, groundnut, cowpeas and chickpeas, which are reaping tremendous results.
Through investments in crops, farming practices, and agricultural technologies, the potential for food production in Africa can have a huge impact on hunger and poverty.
Read the original article: African smallholder farmers hit hard by global food shortage: expert