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Location: Asia

As a fast growing region with increasing challenges for smallholder farmers, Asia is a key target region for CIMMYT. CIMMYT’s work stretches from Central Asia to southern China and incorporates system-wide approaches to improve wheat and maize productivity and deliver quality seed to areas with high rates of child malnutrition. Activities involve national and regional local organizations to facilitate greater adoption of new technologies by farmers and benefit from close partnerships with farmer associations and agricultural extension agents.

Scientist urges upgrades to monitor groundwater use for agriculture in low-income countries

Written by Mike Listman on . Posted in News.

Data collector reading data from offline groundwater level logger – one of the three tested monitoring technologies. (Credit: Subash Adhikari/CIMMYT)

Based on a pilot study regarding the feasibility and cost effectiveness of several groundwater monitoring approaches for agriculture in Nepal’s Terai region, a water and food security specialist who led the research has recommended the use of phone-based systems.

Speaking to diverse experts at the recent World Water Week 2022 in Stockholm, Sweden, Anton Urfels, a systems agronomist at the International Maize and Wheat Improvement Center (CIMMYT), said that manual monitoring with phone-based data uploading is relatively low-cost and effective and could be scaled up across the Terai.

“One alternate monitoring approach studied — online data uploading — has substantially lower staff time requirements and technology costs and higher temporal resolution than phone-based monitoring, but does not provide real-time data and entails high technical skills, capital costs, and risks of theft and damage,” said Urfels in his presentation, ‘Upgrading Groundwater Monitoring Networks in Low-Income Countries’.

Urfels and partners also developed a prototype of an open-source groundwater monitoring dashboard to engage stakeholders, help translate raw data into actionable information, and detect water depletion trends.

Water has become a key part of food research and innovation, critical for sustainable and ecological intensification in agriculture, according to the scientist.

“Collecting groundwater data is difficult and the technology for monitoring is unreliable, which impairs effective modeling, decision-making, and learning,” Urfels explained. “Like other countries in the region, Nepal is increasing its agricultural groundwater consumption, particularly through private investment in irrigation wells and pumps that open irrigation to more farmers. This and climate change have altered groundwater recharge rates and availability, but national data on these trends are incomplete.”

An extensive lowland region bordering India and comprising one-fifth of the nation’s territory, the Terai is Nepal’s breadbasket.

Held yearly since 1991, World Water Week attracts a diverse mix of participants from many professions to develop solutions for water-related challenges including poverty, the climate crisis, and biodiversity loss. The 2022 theme was “Seeing the Unseen: The Value of Water”.

“I’d recommend more pilot studies on phone-based groundwater monitoring for other areas of Nepal, such as the Mid-hill districts,” Urfels said. “We also need to fine-tune and expand the system dashboard and build cross-sectoral coordination to recognize and take into account groundwater’s actual economic value.”

Urfels said the Nepal Ministry of Energy, Water Resources and Irrigation has requested the nationwide scale-out of a digital monitoring system, and CIMMYT and Nepal experts will support this, as well as improving the system, which would be freely available for use and development by researchers and agencies outside of Nepal.

The research described was carried out under the Cereal Systems Initiative in South Asia (CSISA), which is funded by USAID and the Bill & Melinda Gates Foundation, and under the CGIAR integrated research initiative, Transforming Agrifood Systems in South Asia (TAFSSA).

CGIAR Initiative: Digital Innovation

Written by Sarah McLaughlin on . Posted in Uncategorized.

Digital innovations can enable an unprecedented transformation of food, land and water systems for greater climate resilience and sustainability. To realize this potential, multidisciplinary expertise across the CGIAR must find solutions to three challenges affecting the Global South: 

  1. The digital divide: digital technologies and infrastructure do not meet people’s needs, especially women and rural populations. More than 600 million people live outside the reach of mobile networks, two-thirds of them in sub-Saharan Africa. 
  2. Weak information systems: available information is inadequate or does not reach those who need it most. More than 300 million small-scale producers lack access to digital climate services. Weak information systems prevent evidence-based policy responses and lead to missed opportunities to reduce poverty and increase economic growth. 
  3. Limited digital capabilities: digital literacy and skill levels across the Global South remain low, particularly for marginalized and food-insecure individuals and groups such as women.

Objective

The Digital Innovation Initiative aims to develop and support digital innovations to stimulate the inclusive, sustainable transformation of food, land and water systems in the areas of investments that policymakers could make to close the digital divide, information delivery systems that allow more people to take action against predicted risks, and ways for partner organizations and marginalized communities to enhance digital capabilities, access resources and opportunities. 

This objective will be achieved through:

  • Generating evidence on impacts of digital innovations and collaborative partnerships to create an enabling environment for digital ecosystems, unlocking local innovators’ access to investments and advanced technologies. 
  • Developing a suite of tools and guidelines to bridge the digital divide, ensuring that gender equality and social inclusion underly the development of digital innovations, research programs and their implementation. 
  • System dynamics modeling to understand complex dynamics in agrifood systems and support natural resource management authorities in equitably allocating water and land resources and managing risks. 
  • Real-time food system monitoring to provide timely and reliable information to stakeholders by applying AI-driven analytics of satellite remote sensing, internet-connected sensors, and other ground-truthed data from multidisciplinary sources. 
  • Strengthening partners’ capacity to collect real-time data, conduct data analytics and make data-driven decisions to enable equitable digital platforms and services.
Researchers take part in Wheat Blast screening and surveillance course in Bangladesh. (Photo: CIMMYT/Tim Krupnik)

Weather data and crop disease simulations can power predictions of wheat blast outbreaks, new study shows

Written by Mike Listman on . Posted in Publications.

Cutting-edge models for crops and crop diseases, boosted by high-resolution climate datasets, could propel the development of early warning systems for wheat blast in Asia, helping to safeguard farmers’ grain supplies and livelihoods from this deadly and mysterious crop disease, according to a recent study by scientists at the International Maize and Wheat Improvement Center (CIMMYT).

Originally from the Americas, wheat blast shocked farmers and experts in 2016 by striking 15,000 hectares of Bangladesh wheat fields, laying waste to a third of the crops. The complex interactions of wheat and the fungus, Magnaporthe oryzae pathotype Triticum (MoT), which causes blast, are not fully understood. Few current wheat varieties carry genetic resistance to it and fungicides only partly control it. Warm temperatures and high humidity favor MoT spore production and spores can fly far on winds and high-altitude currents.

Mean potential wheat blast disease infections (NPI) across Asia, based on disease and crop infection model simulations using air temperature and humidity data from 1980-2019. Black dots represent wheat growing areas with presumably unsuitable climates for wheat blast. The x and y axes indicate longitude and latitude.

“Using a wheat blast infection model with data for Asia air temperatures and humidity during 1980-2019, we found high potential for blast on wheat crops in Bangladesh, Myanmar, and areas of India, whereas the cooler and drier weather in countries such as Afghanistan and Pakistan appear to render their wheat crops as unlikely for MoT establishment,” said Carlo Montes, a CIMMYT agricultural climatologist and first author of the paper, published in the International Journal of Biometeorology. “Our findings and approach are directly relevant for work to strengthen monitoring and forecasting tools for wheat blast and other crop diseases, as well as building farmers’ and agronomists’ disease control capacity.”

Montes emphasized the urgency of those efforts, noting that some 13 million hectares in South Asia are sown to wheat in rotation with rice and nearly all the region’s wheat varieties are susceptible to wheat blast.

Read the full study: Variable climate suitability for wheat blast (Magnaporthe oryzae pathotype Triticum) in Asia: Results from a continental‑scale modeling approach

Cover photo: Researchers take part in a wheat blast screening and surveillance course in Bangladesh. (Photo: CIMMYT/Tim Krupnik)

After the flood

Written by Sarah McLaughlin on . Posted in Publications.

Heavy summer rains have led to severe floods in Pakistan, affecting over 800,000 hectares of land. Rural areas in the southern coastal provinces have been hardest hit with water levels remaining high throughout the Indus River system. This compounds the existing inequalities in livelihoods and represents significant humanitarian as well as agricultural impacts.

Due to flood damage, the estimated direct crop loss by economists stands at around $2.3 billion. Reports indicate that over 32 million people have been displaced by the flooding and urgent humanitarian needs include access to food, water, shelter, and public health.

The International Maize and Wheat Improvement Center (CIMMYT) strongly encourages enhanced investment in ensuring that our agricultural systems can adapt to as well as mitigate climate change impacts. In the current context, the development and distribution of improved wheat seed must be seen as a central pillar of flood response to secure wheat-dependent livelihoods.

No single drop, be it geo-political or climatic, will tip the balance on our global food system. But we must be increasingly aware of the compounding and amplifying effects of each crisis and develop strategies towards more sustainable agri-food systems.

Read the full study: One drop at a time: recent heavy rain has led to flooding in Pakistan, devastating agricultural land, and rural communities

Cover photo: Current areas of cropland and flood-affected crop land in Pakistan. This highlights the significant impacts of the flood waters, particularly on cropland in southern parts of the country. The boundaries shown on this map do not imply official endorsement or acceptance.

Integrated initiative launches in Nepal, India and Bangladesh

Written by Nur-A-Mahajabin Khan on . Posted in News.

TAFSSA inception workshops in Nepal, India and Bangladesh. (Credit: CIMMYT/CGIAR)

CGIAR, in collaboration with government agencies and other relevant stakeholders, held country launches of the Transforming Agrifood Systems in South Asia (TAFSSA) Initiative in three of its four working locations: Nepal, India and Bangladesh.

TAFSSA, which also operates in Pakistan, aims to deliver a coordinated program of research and engagement, transforming evidence into impact through collaboration with public and private partners across the production-to-consumption continuum. The end result will be productive and environmentally sound South Asian agrifood systems that support equitable access to sustainable healthy diets, as well as contributing to improved farmer livelihoods and resilience, while conserving land, air and groundwater resources.

A vision for South Asian agrifood systems

The three country-level launch events provided a platform for CGIAR’S partners to discuss TAFSSA’s five key areas:

  1. Facilitating agrifood system transformation through inclusive learning platforms, public data systems, and collaborations.
  2. Changing agroecosystems and rural economies to increase revenue and sustain diverse food production within environmental constraints.
  3. Improving access to and affordability of sustainably produced healthful foods through evidence and actions across the post-harvest value chain.
  4. Addressing the behavioral and structural factors of sustainable healthy diets
  5. Building resilience and limiting environmental impact.

The three inception events in Nepal, India and Bangladesh also provided a space for open debate on creating partnerships to achieve common goals, through multidisciplinary conversation on each focal area. Breakout sessions were also held according to emphasis area, explaining the initiative and its components clearly and providing opportunities to brainstorm with participants on how to build more stakeholder-responsive activities.

More than 70 participants attended each inception session, both in-person and online, representing government agencies, CGIAR and its research centers working on TAFSSA, international organizations working in the region, academic institutions, and other key stakeholder groups.

Project endorsements

At the launch event in Nepal on June 9, Temina Lalani Shariff, regional director for South Asia at CGIAR, described TAFSSA as a gateway to the rest of CGIAR’s global research efforts. She explained, “More than 100 partners from around the world will exchange their knowledge, skills and expertise through CGIAR’s new platform to work together for agriculture development.”

Purnima Menon, TAFSSA co-lead and senior research fellow with the International Food Policy Research Institute (IFPRI), presented the project in India on June 15. “The research portfolio and engagement plan we’re proposing is really intending to cut across the food system,” said Menon. “We want to engage people in production systems, people in the middle of the value chain, and consumers, to build the research portfolio. The idea is to do so in a way that is interlinked with the five new CGIAR impact areas and that amplifies CGIAR’s research on the ground.”

Introducing TAFSSA in Bangladesh on July 18, Timothy J. Krupnik, Initiative lead and senior agronomist with the International Maize and Wheat Improvement Center (CIMMYT), stated, “The approach we’ve taken while developing this Initiative was to first look at agrifood crisis issues in South Asia. We evaluated key challenges in this region which has world’s highest concentrations of hunger and poverty.” He highlighted climate change, resource constraints and social structural inequalities, all of which will be addressed by TAFSSA through several focus areas.

Shaikh Mohammad Bokhtiar, Chairman of the Bangladesh Agriculture Research Council (BARC) welcomed these ideas at the TAFSSA Bangladesh launch. “If we want to create an intelligent society or nation, if we want sustainability, we must provide nutrition for all,” said Bokhtiar. “In this region, I believe that combining science, technology and innovation in the TAFSSA initiative will deliver good results.”

Shariff also attended the launch in Bangladesh, where she remarked, “We are here to share a common path to work together to confront the challenges. For that, cooperation is the essential component which is common across Nepal, India and Bangladesh.”

At each of the launch events, TAFSSA was announced as a flagship initiative in South Asia by Martin Kropff, managing director of Resilient Agrifood Systems (RAFS) at CGIAR. He expressed confidence that it would be the first regional program to deliver significant development results and acknowledged that the planned collaboration and partnership with national research institutes would ensure TAFSSA’s success.

Kh. Abul Khayer

Written by Sarah McLaughlin on . Posted in Uncategorized.

Kh. Abul Khayer is a machinery development officer with CIMMYT’s Sustainable Agrifood Systems (SAS) program in Bangladesh. He conducts demonstrations, adaptive trials and field days, and coordinates participatory trails on major cereals, vegetables, oilseeds and grain legumes. He collects and reports on data from farmer participatory trials, and assists on monitoring and evaluation of project activities.

For the Cereal Systems Initiative for South Asia (CSISA), Khayer conducts training needs assessments and imparts formal and informal training to partners, farmers and service providers in cooperation with CSISA team members. He analyzes and creates the project scope and milestones.

Khayer interacts with and organizes meetings with various stakeholders and partners to discuss, streamline and aid the implementation of field activities. He facilitates partnerships with a wide range of clientele from public and private sector organizations, including farmers’ groups.

Md. Shariful Islam

Written by Sarah McLaughlin on . Posted in Uncategorized.

Md. Shariful Islam is a Machinery Development officer in the Sustainable Agrifood Systems (SAS) program in Bangladesh.

He has a bachelor’s degree in mechanical engineering from the IUBAT-International University of Business Agriculture and Technology and more than ten years of experience as a mechanical engineer across different industries in Bangladesh. Islam has worked as a senior assistance manager at PEB Steel Alliance Ltd. (PEBSAL) as a mechanical engineer at Quazi Enterprises Limited (QEL) and at Dhaka Tobacco Industries.

Md. Rokonnuzzaman Rokon

Written by Sarah McLaughlin on . Posted in Uncategorized.

Md. Rokonnuzzaman Rokon is a machinery development officer with CIMMYT’s Sustainable Agrifood Systems (SAS) program in Bangladesh. He graduated from Hajee Mohammad Danesh Science and Technology University in 2014 with a degree in agricultural engineering, before completing a masters in irrigation and water management at Bangladesh Agricultural University.

After finishing his masters, Rokon joined Solargao Ltd as an assistant engineer to a solar irrigation project, before becoming a lecturer at the Government Shahid Akbar Ali Science and Technology College. He joined CIMMYT in 2022.

CGIAR Initiative: Sustainable Intensification of Mixed Farming Systems (SI-MFS)

Written by Sarah McLaughlin on . Posted in Uncategorized.

Most agricultural production in the Global South takes place in mixed farming systems, which allow farmers to diversify risk from single crop production, use labor efficiently, access cash and add value to products. Key drivers — climate change, population pressure, urbanization, water scarcity, changing diets, volatile food prices — mean that flexible and accelerated changes in mixed farming systems will be needed to achieve global targets such as the Sustainable Development Goals. Sustainable intensification, or the production of more food on the same piece of land while reducing the negative environmental impact, is a viable avenue.

Two types of hurdles must be overcome to adequately meet the challenge at farming systems level. One hurdle is to ensure efficient coordination, integration and transfer of innovations, information, tools and standardized methodologies. A second hurdle is to integrate multiple biophysical and socio-economic thematic-level outputs and identify strategies that minimize trade-offs and maximize synergies, resulting in multiple impacts at scale.

Objective

This Initiative aims to provide equitable, transformative pathways for improved livelihoods of actors in mixed farming systems through sustainable intensification within target agro-ecologies and socio-economic settings.

Activities

This objective will be achieved through:

  • Analyzing status, trends and future dynamics of mixed farming systems to identify entry points for equitable sustainable intensification, to mitigate negative impacts of change and seize emerging opportunities for livelihoods.
  • Building methods and tools for sustainable intensification of mixed farming systems to support decisions on what kind of sustainable intensification might work where, and for whom, in specific contexts.
  • Participatory co-design of mixed farming systems with evidence-based, validated sustainable intensification innovation packages that are responsive to improving efficiency, equity and resilience, in regions where mixed farming systems dominate the landscape.
  • Advancing and supporting scaling of innovations, through strategic partnerships and building the capacity of relevant actors in scaling approaches — a gender-transformative approach will be central to all innovation and scaling design to enhance equity.
  • Capacity-building for mixed farming system design and analyses, to support long-term impact on university and college students, scientists, extension agents, farmers, private sector, policy makers and development actors.

Outcomes

Proposed 3-year outcomes include:

  1. Smallholder farmers use resource-efficient and climate-smart technologies and practices to enhance their livelihoods, environmental health and biodiversity.
  2. Research and scaling organizations enhance their capabilities to develop and disseminate innovations.
  3. Smallholder farmers implement new practices that mitigate risks associated with extreme climate change and environmental conditions and achieve more resilient livelihoods.
  4. Women are youth are empowered to be more active in decision-making in food, land and water systems.
  5. National and local governments utilize enhanced capacity to assess and apply research evidence and data in policymaking processes.

Why co-creation is vital for sustainable agriculture

Written by Sarah McLaughlin on . Posted in News.

Agricultural mechanization engineer Subash Adhikari adjusts a maize shelling machine on a farmer´s verandah in Rambasti, Kanchanpur, Nepal. (Credit: P. Lowe/CIMMYT)

The adoption of climate-smart agricultural production processes and technologies is a vital strategy in attempts to mitigate the global impacts of climate change without compromising on food security. However, supporting farmers to permanently implement new technologies and approaches requires a deep understanding of their needs, robust training, and effective transfer of knowledge.

At the International Maize and Wheat Improvement Center (CIMMYT), projects across the Global South aim to embed agrifood systems that are sustainable for all.

To share how CIMMYT empowers farmers and develops new technologies, Director General Bram Govaerts attended a panel event hosted by the Business Council for International Understanding (BICU) on September 19. For an audience of foreign government officials, multilaterals, and private sector executives, panelists introduced new perspectives to support global food security efforts and inspire greater collaboration.

Partnership approach

Panelists were asked to explain the technologies that can be unlocked by agricultural financial mechanisms, referencing how research and development is keeping pace with the quick adaptations needed by farmers to address climate change.

Examples from CIMMYT’s participation in the AgriLAC Resiliente CGIAR Initiative, a project for sustainable agricultural development in Latin America and the Caribbean, highlighted the innovative partnerships that are pushing forward research and development in the sector, enabling food systems and actors to act quickly to meet food security needs, mitigate climate hazards, stabilize communities and reduce forced migration.

Scientists are conscious of ensuring that solutions to one challenge are not the cause of new problems elsewhere; co-development is essential to this, ensuring the views of all actors are represented. Using the Integrated Agri-food System Initiative (IASI) methodology, created by CIMMYT in partnership with the Alliance of Bioversity International and the International Center for Tropical Agriculture (CIAT), projects can develop strategies and actions with a significant likelihood of supportive public and private investment that will transform food systems.

Expertise from farmers

Even the best agricultural technology in the world is only effective if it is used. When discussing barriers to the implementation of technology, Govaerts emphasized CIMMYT’s mechanization prototyping, co-creation, and experimentation work that bridges the gap between farmers and scientists and encourages adoption of new methods and tools.

Having farming influencers onboard has proved priceless, as these people co-create prototypes and experiments that demonstrate results and offer assured testimony to reluctant stakeholders.

Innovations can transform livelihoods, giving farmers a way to increase income and provide stability and better opportunities for their families – which is the most appealing reason for adoption.

Training programs are also fundamental, ensuring skills and knowledge around new technologies are freely available to farmers, technicians, and researchers. CIMMYT projects such as MasAgro in Mexico, has trained more than 3,000 producers and 400 technicians in sustainable agriculture, with more than 70,000 producers participating in educational events during the pandemic.

Hunger and climate change – a dual problem?

Conversation also centered on whether the development of new technologies is aiming to confront world hunger and climate change as separate issues, or whether solutions can be suitable for both challenges.

Essential actions to mitigate the food crisis require a global perspective, acknowledging that unexpected crises will always arise. For example, Russia and Ukraine account for 28% of the world’s wheat exports, so high prices are linked to supply chain disruption. More than 2.5 billion people worldwide consume wheat-based products, so the effects of these disruptions could mean significant hunger and potential civil unrest. Nations already in crisis, such as Yemen, Sudan and Ethiopia, may be worse hit, but other countries with high dependency on imports like Egypt are also affected.

Govaerts highlighted the inextricable links between the causes of food insecurity and climate change. He underscored CIMMYT’s holistic approach to overcoming widespread impacts on the global food system, such as the concurrent challenges of COVID-19, climate change and the Ukraine crisis, by co-developing lasting solutions incorporating these three elements:

  • Extensive research on climate change adaptation and mitigation in maize and wheat-based production systems across Africa, Asia, and Latin America.
  • Climate focused research aims to help smallholder farmers adapt to climate shocks and to raise and maintain yields profitably and sustainably by reducing greenhouse gas emissions.
  • Capacity building for stakeholders in the development and application of new technologies.

Many other deep disruptions are on their way. It is time to invest in science, research, innovation, technologies, and start practicing teamwork to allow those investments to translate into a better future for the planet, and for us.

About BICU:

BICU is a leading business-supported non-profit education initiative, established by President Eisenhower of the United States in 1955 for the purpose of facilitating public-private partnerships and high-level business to government dialogue.

Setting a standard: improving field trial data

Written by Sarah McLaughlin on . Posted in Features.

“In Afghanistan, wheat is synonymous with food,” says Rajiv K. Sharma, formerly a senior scientist at the International Maize and Wheat Improvement Center (CIMMYT). Standing at about 250kg per year, the country’s per capita consumption of the crop is among the highest in the world. However, Afghanistan does not have a robust wheat research and development system. The majority of wheat varieties have been introduced from outside the country and the national wheat seed replacement rate is one of the lowest in the world at around 5%.

In a bid to strengthen research and development and boost crop productivity in the country, CIMMYT scientists have collaborated with Michigan State University and USAID to design a new, illustrated manual for wheat researchers, intended to aid them during experiments and facilitate smooth and timely data collection. As applied wheat research requires the monitoring and measurement of both qualitative and quantitative traits by different researchers across multiple locations, consistency of approach is crucial.

As well as providing descriptions of characteristics like glaucousness (the presence or absence of leaf waxes) and advice on measuring leaf area, the manual provides several different scales for determining the extent to which a wheat plant is affected by frost damage, cereal rusts or foliar diseases like Septoria and powdery mildew. Covering everything from leaf angle to chlorophyll content, this resource ensures that scientists throughout Afghanistan are supported to follow the same observation and measurement protocols while recording trial data, ensuring a standardized approach, thus bolstering the country’s wheat research sector and ensuring the data is also aligned to international projects.

The manual has since been distributed to National Agricultural Research System (NARS) researchers and other stakeholders across the country, accompanied by a number of CIMMYT-led trainings on how best to use the resource.

Download the manual here: Wheat Field Trial Data Collection Manual

Cover photo: Researchers check for stand reduction in wheat seedlings in Afghanistan. (Credit: CIMMYT)

Can agriculture bring South Asian countries together?

Written by Richa Sharma Puri on . Posted in Features.

Agriculture is central to South Asian economies, lives and livelihoods. However, the challenges of an increasing population and brisk economic growth are straining the agriculture sector as it struggles to meet the present and future demand for food, nutritional security, and economic development. Not only this, the three Cs – COVID, climate change and conflict – are fueling the growing fragility in food systems across the world.

To address these issues and find potential solutions, the Borlaug Institute for South Asia (BISA) organized a high-level meeting with top agriculture ministry officials from its neighboring countries – Sri Lanka, Nepal, Bangladesh, Bhutan, India and Pakistan – to collaborate and learn from each other.

BISA’s outreach to India’s neighbors in South Asia has already produced results. Data from the BISA farm in Ludhiana, India, on resistance to yellow rust that affects wheat crop has been used in Nepal, Afghanistan, and Pakistan. Genomic prediction evaluation for grain yield and other traits worked on at BISA through the help of the Global Wheat Program of the International Maize and Wheat Improvement Center (CIMMYT) has been extended to Pakistan, Bangladesh, and Nepal since 2020. Regular training is organized for students, scientists and farmers in India on breeding and climate resistant technologies, and BISA scientists organize courses in Nepal on climate-smart technologies.

Read more in Amar Ujala (published in Hindi): Can agriculture bring South Asian countries together?

Cover photo: Tara Miah (50) is a farmer from Rajguru in Rahamanbari union, Barisal, Bangladesh. He used seeder fertilizer drills to plant wheat on his fields. Previously, this was done manually. SFD has resulted in a better harvest for Miah. (Credit: Ranak Martin)

Mohammad Shahidul Islam

Written by Sarah McLaughlin on . Posted in Uncategorized.

Mohammad Shahidul Islam is an agricultural development officer with CIMMYT’s Sustainable Agrifood Systems (SAS) program in Bangladesh.

After graduating in agricultural science, Islam completed a masters in agronomy. He started his professional life with the Palli Karma Sahayak Foundation (PKSF) as a technical officer focusing on poverty reduction, rural service market development, and capacity development.

Islam has been with CIMMYT since 2014 and has a decade worth of experience in agricultural research and development, providing technical and/or management to support the design and implementation of project strategies considering agriculture mechanization, livelihoods, food security, and the empowerment of women. In addition, he has expertise in knowledge management, capacity building, integrated development communications and advocacy to develop and scale-up innovations, using people-centered and community-based development approaches to sustain against climate change penalties that develop their socio-economic condition.

K.M. Zasim Uddin

Written by Sarah McLaughlin on . Posted in Uncategorized.

K.M. Zasim Uddin is an agricultural development officer with CIMMYT’s Sustainable Agrifood Systems (SAS) program in Bangladesh. He has a masters in agronomy from Rajshahi University

He is part of projects including the Cereal Systems Initiative for South Asia (CSISA), Fall Armyworm R4D and Management (FAW), Big data analytics for climate-smart agricultural practices in South Asia (Big Data² CSA), and Climate Services for Resilient Development in South Asia (CSRD). His main responsibilities are research and development on agricultural mechanization for the CSISA Mechanization and Extension Activity (CSISA-MEA). He has participated in versatile training, workshops and conference programs across Asia.

Uddin has worked in different national and international non-government organizations and companies for more than 13 years, including in research and development at Syngenta Bangladesh Limited and on the Borga Chasi Unnayan Program at BRAC. He also worked as an agriculture officer under the Char Livelihood Program, funded by the United Kingdom Department for International Development.

Galvanizing food systems transformation in South Asia

Written by Sarah McLaughlin on . Posted in News.

Solar Powered Irrigation System in Bihar, India. (Credit: Ayush Manik)

In the race to make food production and consumption more sustainable, South Asia is key.

Home to one quarter of humanity — one-fifth of whom are youth — the region has the world’s largest concentration of poverty and malnutrition. While South Asia produces one quarter of the world’s consumed food, its agrifood systems today face formidable poverty reduction, climate change adaptation and mitigation, environmental health, and biodiversity challenges. Significant hurdles remain to secure an adequate and affordable supply of diverse foods necessary for sustainable and healthy diets.

South Asia’s predominantly rice-based farming systems are crucial to food security and political and economic stability, but parts of this region are threatened by unsustainable groundwater withdrawal — the region extracts one-quarter of global groundwater — due to food and energy policy distortions. South Asia’s farmers are both contributors to and victims of climate change and extreme weather that disproportionately affect resource-poor and women farmers.

The region needs food systems that generate profits and incentivize farmers to produce nutritious foods, while also reducing prices for consumers purchasing healthy products by shortening and reducing inefficiencies within value chains. A new CGIAR Research Initiative, Transforming Agrifood Systems in South Asia (TAFSSA), aims to address challenges.

Read the full article: Galvanizing Food Systems Transformation in South Asia