Data has become a key driver of growth and change in today’s world.
There is growing recognition that data is indispensable for effective planning and decision-making in every sector. But the state of digital data in developing countries is far from satisfactory. In Asia, monitoring the Sustainable Development Goals (SDGs) remains a challenge due to a lack of accurate data.
“What you are now about to witness didn’t exist even a few years ago,” begins the first video in a series on zero tillage produced by the International Maize and Wheat Improvement Center (CIMMYT). Zero tillage, an integral part of conservation agriculture-based sustainable intensification, can save farmers time, money and irrigation water.
Through storytelling, the videos demonstrate the process to become a zero till farmer or service provider: from learning how to prepare a field for zero tillage to the safe use of herbicides.
All videos are available in Bengali, Hindi and English.
This videos were produced as part of the Sustainable and Resilient Farming Systems Intensification in the Eastern Gangetic Plains (SRFSI) project, funded by the Australian Centre for International Agricultural Research (ACIAR). The videos were scripted with regional partners and filmed with communities in West Bengal, India.
The agricultural market has been suffering since the government of Nepal imposed a lockdown from March 23, 2020 to limit the spread of COVID-19 in the country. A month after the lockdown, the International Maize and Wheat Improvement Center (CIMMYT) conducted a rapid assessment survey to gauge the extent of disruptions of the lockdown on households from farming communities and agribusinesses.
As part of the Nepal Seed and Fertilizer (NSAF) project, CIMMYT researchers surveyed over 200 key stakeholders by phone from 26 project districts. These included 103 agrovet owners and 105 cooperative managers who regularly interact with farming communities and provide agricultural inputs to farmers. The respondents served more than 300,000 households.
The researchers targeted maize growing communities for the survey since the survey period coincided with the primary maize season.
Seed company staff harvesting maize during the lockdown. (Photo: Darbin Joshi/CIMMYT)
Key insights from the survey
The survey showed that access to maize seed was a major problem that farmers experienced since the majority of agrovets were not open for business and those that were partially open — around 23% — did not have much customer flow due to mobility restrictions during the lockdown.
The stock of hybrid seed was found to be less than open pollinated varieties (OPVs) in most of the domains. Due to restrictions on movement during the entire maize-planting season, many farmers must have planted OPVs or saved seeds.
Access to fertilizers such as urea, DAP and MOP was another major problem for farmers since more than half of the cooperatives and agrovets reported absence of fertilizer stock in their area. The stock of recommended pesticides to control pests such as fall armyworm was reported to be limited or out of stock at the cooperatives and agrovets.
Labor availability and use of agricultural machineries was not seen as a huge problem during the lockdown in the surveyed districts.
It was evident that food has been a priority for all household expenses. More than half of the total households mentioned that they would face food shortages if the lockdown continues beyond a month.
During the survey, around 36% of households specified cash shortages to purchase agricultural inputs, given that a month had already passed since the lockdown began in the country. The majority of the respondents reported that the farm households were managing their cash requirements by borrowing from friends and relatives, local cooperatives or selling household assets such as livestock and agricultural produces.
Most of the households said that they received food rations from local units called Palikas, while a small number of Palikas also provided subsidized seeds and facilitated transport of agricultural produce to market during the lockdown. Meanwhile, the type of support preferred by farming communities to help cope with the COVID-19 disruptions — ranging from food rations, free or subsidized seed, transportation of fertilizers and agricultural produce, and provision of credit — varied across the different domains.
The survey also assessed the effect of lockdown on agribusinesses like agrovets who are major suppliers of seed, and in a few circumstances sell fertilizer to farmers in Nepal. As the lockdown enforced restrictions on movement, farmers could not purchase inputs from agrovets even when the agrovets had some stock available in their area. About 86% of agrovets spoke of the difficulty to obtain supplies from their suppliers due to the blockage of transportation and product unavailability, thereby causing a 50-90% dip in their agribusinesses.
Seed company staff harvesting maize during the lockdown. (Photo: Darbin Joshi/CIMMYT)
Immediate actions to consider
Major takeaways from this survey are as follows:
Currently, food access is a priority and households are spending more money on food. However, as and when the lockdown eases, the need for cash to buy agricultural inputs and services is likely to emerge and may require attention.
Accessing maize seed and fertilizer was a problem in many communities during the maize season. Similarly, a shortage of rice seed, particularly hybrids, can be an issue for farmers unless efforts are made right away.
To help cope with the COVID-19 disruptions, a one-size-fits-all relief package would not be effective for farming communities living in different domains. Major support should be on facilitating transport and distribution of seed and fertilizers, access to food supplies through the local government’s schemes, and provision of soft loans.
Agrovets have an important contribution as the last mile service providers and they were hit hard by the lockdown. Therefore, facilitating agrovet businesses to operate and transport seeds, fertilizers, and pesticides from suppliers to agrovet business points will be essential to restore businesses and deliver agri-inputs to farmers.
The survey findings were presented and shared with the government, private sector, development partner organizations and project staff over a virtual meeting. This report will serve as a resource for the project and various stakeholders to design their COVID-19 response and recovery strategy development and planning.
Nepalese and CIMMYT wheat scientists, working at the Nepal Agricultural Research Council (NARC) and the International Maize and Wheat Improvement Centre (CIMMYT) suspect new races of stripe and leaf rust infected the wheat crop in the Nepal hills and terai in the recent 2020 wheat season. This was reported after detailed survey and surveillance activities of rust diseases in the terai and hill regions were carried out during March and April, before the COVID-19 pandemic forced the cessation of many field activities.
The Asia Regional Resilience to a Changing Climate (ARRCC) program is managed by the UK Met Office, supported by the World Bank and the UK’s Department for International Development (DFID). The four-year program, which started in 2018, aims to strengthen weather forecasting systems across Asia. The program will deliver new technologies and innovative approaches to help vulnerable communities use weather warnings and forecasts to better prepare for climate-related shocks.
Since 2019, as part of ARRCC, CIMMYT has been working with the Met Office and Cambridge University to pilot an early warning system to deliver wheat rust and blast disease predictions directly to farmers’ phones in Bangladesh and Nepal.
The system was first developed in Ethiopia. It uses weather information from the Met Office, the UK’s national meteorological service, along with field and mobile phone surveillance data and disease spread modeling from the University of Cambridge, to construct and deploy a near real-time early warning system.
Phase I: 12-Month Pilot Phase
Around 50,000 smallholder farmers are expected to receive improved disease warnings and appropriate management advisories in the first 12 months as part of a proof-of-concept modeling and pilot advisory extension phase focused on three critical diseases:
Wheat stripe rust in Nepal: extend and test the modelling framework developed in Ethiopia to smallholder farmers in Nepal as proof-of concept;
Wheat stem rust in Bangladesh and Nepal: while stem rust is currently not widely established in South Asia, models indicate that devastating incursion from neighboring regions is likely. This work will prepare for potential incursions of new rust strains in both countries;
Wheat blast in Bangladesh: this disease is now established in Bangladesh. This work will establish the feasibility of adapting the dispersal modelling framework to improve wheat blast predictability and deploy timely preventative management advisories to farmers.
Phase II: Scaling-out wheat rust early warning advisories, introducing wheat blast forecasting and refinement model refinement
Subject to funding approval the second year of the project will lead to validation of the wheat rust early warnings, in which researchers compare predictions with on-the-ground survey results, increasingly supplemented with farmer response on the usefulness of the warnings facilitated by national research and extension partners. Researchers shall continue to introduce and scale-out improved early warning systems for wheat blast. Concomitantly, increasing the reach of the advice to progressively larger numbers of farmers while refining the models in the light of results. We anticipate that with sufficient funding, Phase II activities could reach up to 300,000 more farmers in Nepal and Bangladesh.
Phase III: Demonstrating that climate services can increase farmers’ resilience to crop diseases
As experience is gained and more data is accumulated from validation and scaling-out, researchers will refine and improve the precision of model predictions. They will also place emphasis on efforts to train partners and operationalize efficient communication and advisory dissemination channels using information communication technologies (ICTs) for extension agents and smallholders. Experience from Ethiopia indicates that these activities are essential in achieving ongoing sustainability of early warning systems at scale. Where sufficient investment can be garnered to support the third phase of activities, it is expected that an additional 350,000 farmers will receive disease management warnings and advisories in Nepal and Bangladesh, totaling 1 million farmers over a three-year period.
Objectives
Review the feasibility of building resilience to wheat rust through meteorologically informed early warning systems.
Adapt and implement epidemiological forecasting protocols for wheat blast in South Asia.
Implement processes to institutionalize disease early warning systems in Nepal and Bangladesh.
An early warning system set to deliver wheat disease predictions directly to farmers’ phones is being piloted in Bangladesh and Nepal by interdisciplinary researchers.
Experts in crop disease, meteorology and computer science are crunching data from multiple countries to formulate models that anticipate the spread of the wheat rust and blast diseases in order to warn farmers of likely outbreaks, providing time for pre-emptive measures, said Dave Hodson, a principal scientist with the International Maize and Wheat Improvement Center (CIMMYT) coordinating the pilot project.
Around 50,000 smallholder farmers are expected to receive improved disease warnings and appropriate management advisories through the one-year proof-of-concept project, as part of the UK Aid-funded Asia Regional Resilience to a Changing Climate (ARRCC) program.
Early action is critical to prevent crop diseases becoming endemic. The speed at which wind-dispersed fungal wheat diseases are spreading through Asia poses a constant threat to sustainable wheat production of the 130 million tons produced in the region each year.
“Wheat rust and blast are caused by fungal pathogens, and like many fungi, they spread from plant to plant — and field to field — in tiny particles called spores,” said Hodson. “Disease strain mutations can overcome resistant varieties, leaving farmers few choices but to rely on expensive and environmentally-damaging fungicides to prevent crop loss.”
“The early warning system combines climate data and epidemiology models to predict how spores will spread through the air and identifies environmental conditions where healthy crops are at risk of infection. This allows for more targeted and optimal use of fungicides.”
The system was first developed in Ethiopia. It uses weather information from the Met Office, the UK’s national meteorological service, along with field and mobile phone surveillance data and disease spread modeling from the University of Cambridge, to construct and deploy a near real-time early warning system.
CIMMYT consultant Madan Bhatta conducts field surveys using Open Data Kit (ODK) in the mid-hills of Nepal. (Photo: D. Hodson/CIMMYT)
Initial efforts focused on adapting the wheat stripe and stem rust model from Ethiopia to Bangladesh and Nepal have been successful, with field surveillance data appearing to align with the weather-driven disease early warnings, but further analysis is ongoing, said Hodson.
“In the current wheat season we are in the process of comparing our disease forecasting models with on-the-ground survey results in both countries,” the wheat expert said.
“Next season, after getting validation from national partners, we will pilot getting our predictions to farmers through text-based messaging systems.”
CIMMYT’s strong partnerships with governmental extension systems and farmer associations across South Asia are being utilized to develop efficient pathways to get disease predictions to farmers, said Tim Krupnik, a CIMMYT Senior Scientist based in Bangladesh.
“Partnerships are essential. Working with our colleagues, we can validate and test the deployment of model-derived advisories in real-world extension settings,” Krupnik said. “The forecasting and early warning systems are designed to reduce unnecessary fungicide use, advising it only in the case where outbreaks are expected.”
Local partners are also key for data collection to support and develop future epidemiological modelling, the development of advisory graphics and the dissemination of information, he explained.
The second stage of the project concerns the adaptation of the framework and protocols for wheat blast disease to improve existing wheat blast early warning systems already pioneered in Bangladesh.
Example of weekly stripe rust spore deposition forecast in Nepal. Darker colors represent higher predicted number of spores deposited. The early warning system combines weather information from the Met Office with field and mobile phone surveillance data and disease spread modeling from the University of Cambridge. (Graphic: University of Cambridge and Met Office)
Strong scientific partnership champions diversity to achieve common goals
The meteorological-driven wheat disease warning system is an example of effective international scientific partnership contributing to the UN Sustainable Development Goals, said Sarah Millington, a scientific manager at Atmospheric Dispersion and Air Quality Group with the Met Office.
“Diverse expertise from the Met Office, the University of Cambridge and CIMMYT shows how combined fundamental research in epidemiology and meteorology modelling with field-based disease observation can produce a system that boosts smallholder farmers’ resilience to major agricultural challenges,” she said.
The atmospheric dispersion modeling was originally developed in response to the Chernobyl disaster and since then has evolved to be able to model the dispersion and deposition of a range of particles and gases, including biological particles such as wheat rust spores.
“The framework together with the underpinning technologies are transferable to forecast fungal disease in other regions and can be readily adapted for other wind-dispersed pests and disease of major agricultural crops,” said Christopher Gilligan, head of the Epidemiology and Modelling Group at the University of Cambridge.
Fungal wheat diseases are an increasing threat to farmer livelihoods in Asia
Wheat leaf rust can be spotted on a wheat plant of a highly susceptible variety in Nepal. The symptoms of wheat rust are dusty, reddish-orange to reddish-brown fruiting bodies that appear on the leaf surface. These lesions produce numerous spores, which are spread by wind and splashing water. (Photo: D Hodson/CIMMYT)
While there has been a history of wheat rust disease epidemics in South Asia, new emerging strains and changes to climate pose an increased threat to farmers’ livelihoods. The pathogens that cause rust diseases are continually evolving and changing over time, making them difficult to control.
Stripe rust threatens farmers in Afghanistan, India, Nepal and Pakistan, typically in two out of five seasons, with an estimated 43 million hectares of wheat vulnerable. When weather conditions are conducive and susceptible cultivars are grown, farmers can experience losses exceeding 70%.
Populations of stem rust are building at alarming rates and previously unseen scales in neighboring regions. Stem rust spores can spread across regions on the wind; this also amplifies the threat of incursion into South Asia and the ARRCC program’s target countries, underscoring the very real risk that the disease could reemerge within the subcontinent.
The devastating wheat blast disease, originating in the Americas, suddenly appeared in Bangladesh in 2016, causing wheat crop losses as high as 30% on a large area, and continues to threaten South Asia’s vast wheat lands.
In both cases, quick international responses through CIMMYT, the CGIAR research program on Wheat (WHEAT) and the Borlaug Global Rust Initiative have been able to monitor and characterize the diseases and, especially, to develop and deploy resistant wheat varieties.
The UK aid-funded ARRCC program is led by the Met Office and the World Bank and aims to strengthen weather forecasting systems across Asia. The program is delivering new technologies and innovative approaches to help vulnerable communities use weather warnings and forecasts to better prepare for climate-related shocks.
The early warning system uses data gathered from the online Rust Tracker tool, with additional fieldwork support from the Cereal Systems Initiative for South Asia (CSISA), funded by USAID and the Bill & Melinda Gates Foundation, both coordinated by CIMMYT.
Three years ago, farmers in the country were combatting the threats of a destructive tomato pest, Tuta Absoluta, and are now battling their way to manage the attack of fall armyworm on maize fields across the country. Since the government’s Plant Quarantine and Pest Management Centre (PQPMC) declared the arrival of fall armyworm on August 2019, this pest is reported to have infested almost half the districts of Nepal and continues to spread further.
“I wasn’t able to gather even half the yields I used to get from my maize field following the fall armyworm outbreak last year,” said Pavitra, a farmer from Sindhupalchowk district, Nepal.
The level of incidence and damage varies from place to place, but farmers have reported up to 80% crop loss in extreme cases. In Nepal, the fall armyworm has the potential to cause maize yield losses of 20-25%, which translates to the loss of more than half a million tons of the annual maize production — estimated at around $200 million. If the pest is left unrestrained, its impact will be huge for farmers and the economy.
This calls for a collective effort and broad mobilization to effectively manage fall armyworm and limit its spread across the country. Since the pest was expected to reach Nepal, partners have conducted workshops and community mobilization initiatives.
Experts at the International Maize and Wheat Improvement Center (CIMMYT) have been working with public and private partners before and after the arrival of the invasive pest in Nepal. The shared efforts have focused on creating awareness, disseminating appropriate technologies and management techniques, and strengthening the capacity of communities, institutions and governments.
The Ministry of Agriculture and Livestock Development has established a national taskforce to fight the pest. Most provinces have established similar taskforces that include researchers, agriculture extension agents, farmers and entrepreneur associations.
Training participants examine a fall armyworm on a maize leaf. (Photo: Bandana Pradhan/CIMMYT)
Fall armyworms are found on leaves in a maize field in Nepal. (Photo: Shailaja Thapa/CIMMYT)
A pheromone trap is installed next to a maize field in Nepal. (Photo: Bandana Pradhan/CIMMYT)
Participants in one of the trainings learn how to scout and collect data on fall armyworm in a maize field. (Photo: Bandana Pradhan/CIMMYT)
Training participants imitate the fall armyworm’s white inverted Y mark visible on the front of the head of the larva. (Photo: Bandana Pradhan/CIMMYT)
Gearing up to fight the very hungry caterpillar
In collaboration with national and provincial governments, CIMMYT has trained 426 agricultural professionals, including lead farmers, on how to identify and manage fall armyworm.
In February 2020, CIMMYT partnered with agricultural development directorates in two provinces to train 130 people on how to scout for fall armyworm and recommended solutions, based on integrated pest management principles.
In late 2019, CIMMYT engaged with the public and private sector through training workshops to disseminate proven practices to control the pest.
“Before, I was unable to recognize the pest that had destroyed my maize field. The hands-on training has been very informative,” said Urmila Banjgayu, a lead farmer who participated in one of the trainings. “I am certain to share the knowledge and practices that I learned with other farmers in my locality. They need to know what to do and what not to.”
Through the Nepal Seed and Fertilizer (NSAF) project, CIMMYT staff is working closely with the Ministry of Agriculture and Livestock Development, the Nepal Agricultural Research Council (NARC), the PQPMC, provincial governments, and other USAID-funded projects and development partners in Nepal. Together, they have developed integrated pest management packages, informative factsheets and surveillance guidelines. CIMMYT researchers have shared experiences on pest management, surveillance and scouting techniques from other countries in Asia and Africa. They have also demonstrated digital tools that will help map the spread of the pest and build accurate interpretation for better management.
Outreach workers use an auto-rickshaw equipped with a sound system and infographics to disseminate information about armyworm in Nepal’s Banke district. (Photo: Darbin Joshi/CIMMYT.)
Farmers listen to information about fall armyworm displayed on an auto-rickshaw in Nepal’s Banke district. (Photo: Darbin Joshi/CIMMYT)
Fall armyworm awareness campaign
Farmers must learn how to identify and manage this pest. Bijaya Ghimire, a lead farmer from Kanchanpur district, had heard about fall armyworm from a nearby seed company and a few of his friends. He informed the Agriculture Knowledge Center about the symptoms he observed in his maize field, and verification of the larvae and damage confirmed the presence of fall armyworm. Luckily, Ghimire was able to control the pest before severe damage was done.
CIMMYT researchers collaborated with the Prime Minister Agricultural Modernization Project (PMAMP) to implement outreach campaigns in Banke district. This included a mobile information booth, local dissemination of audio messages, and distribution of posters and fact sheets about fall armyworm. The two-day campaign successfully raised awareness about the pest, reaching more than 1,000 farmers from four villages in maize growing areas.
Researchers also worked with Scientific Animations Without Borders (SAWBO) and adapted an educational video on how to identify and scout for fall armyworm in a field into Nepali. In collaboration with the PQPMC, the video was broadcast 42 times on three local TV channels, to an estimated audience of more than one million viewers in June 2019. The video has also received over 2,000 online views. The animated video is being shown to farmers using mobile phones and displayed on big screens during community events and workshops.
“Seamless collaboration is required among the major stakeholders in the country to collectively fight the pest,” said AbduRahman Beshir, CIMMYT seed systems lead for the NSAF project and member of the national fall armyworm taskforce. “The potential impact of fall armyworm poses a fundamental challenge for smallholder farmers in Nepal. If unattended, it is going to be a food security issue and an equally daunting task to safeguard livelihoods.”
Nepal’s National Seed Vision 2013-2025 identified the critical skills and knowledge gaps in the seed sector, across the value chain. Seed companies often struggle to find skilled human resources in hybrid product development, improved seed production technology and seed business management. One of the reasons is that graduates from agricultural universities might be missing on recent advancements in seed science and technology, required by the seed industry.
Researchers from the International Maize and Wheat Improvement Center (CIMMYT) have been collaborating with Agriculture and Forestry University (AFU) to review and update the existing curriculum on seed science and technology, for both undergraduate and postgraduate students. This work is part of the Nepal Seed and Fertilizer (NSAF) project, funded by the United States Agency for International Development (USAID) through the Feed the Future initiative.
Realizing the need to increase trained human resources in improved seed technologies, CIMMYT researchers held discussions with representatives from the Department of Agronomy at AFU, to begin revising the curriculum on seed science and technology. Developed four years ago, the current curriculum does not encompass emerging developments in the seed industry. These include, for example, research and product development initiated by local private seed companies engaged in hybrid seed production of various crops, who want to be more competitive in the existing market.
Each year, approximately 200 bachelor’s and 10 master’s students graduate from AFU. In collaboration with CIMMYT, the university identified critical areas that need to be included in the existing curriculum and drafted new courses for endorsement by the academic council. AFU also developed short-term certificate and diploma courses in the subject of seed science and technology.
AbduRahman Beshir, CIMMYT, discusses the importance of linking academic courses with the emerging trends of the seed industry. (Photo: Bandana Pradhan/CIMMYT)
Shared knowledge
On November 20, 2019, CIMMYT, AFU and Catholic Relief Services (CRS) organized a consultation workshop with seed stakeholders from the public and private sectors, civil society and academia. Participants discussed emerging needs within Nepal’s seed industry and charted out how higher education can support demand, through a dynamic and responsive program.
Sabry G. Elias, professor at Oregon State University (OSU), discussed recent advances in seed science and technology, and how to improve productivity of smallholder farmers in Nepal. He is supporting the curriculum revision by taking relevant lessons from OSU and adapting them to Nepal’s context. Sabry shared the courses that are to be included in the new program and outlined the importance of linking graduate research with the challenges of the industry. He also stressed the importance of building innovation and the continuous evolution of academic programs.
Sabry Elias, Oregon State University, talks about the importance of critical thinking to bring innovations to the seed sector. (Photo: Bandana Pradhan/CIMMYT)
Professors from AFU, Nepal Polytechnic Institute, Tribhuvan University, and several private colleges introduced the current courses in seed science and technology at their institutions. Santosh Marahatta, head of the Department of Agronomy at AFU, discussed the limitations of the current master’s and doctoral degree programs, and proposed a draft curriculum with integrated courses across the seed value chain. J.P. Dutta, dean of the Faculty of Agriculture at AFU, shared plans to create a curriculum that would reflect advanced practices and experiences in seed science and technology.
Scientists and researchers from Nepal Agricultural Research Council (NARC) presented their activities and suggested key areas to address some of the challenges in the country’s seed sector.
“Our aim is to strengthen local capacity to produce, multiply and manage adequate quality seeds that will help improve domestic seed production and seed self-sufficiency,” said Mitraraj Dawadi, a representative from the Seed Entrepreneurs Association of Nepal (SEAN). “Therefore, we encourage all graduates to get hands-on experience with private companies and become competent future scientists and researchers.”
AbduRahmann Beshir, Seed Systems Lead for the NSAF project at CIMMYT, shared this sentiment. According to him, most current graduates lack practical experience on hybrid seed development, inbred line maintenance and knowledge on the general requirements of a robust seed industry. “It is important that universities can link their students to private seed companies and work together towards a common goal,” he explained. “This human resource development drive is part of CIMMYT’s efforts to help Nepal on its journey to self-reliance.”
Organizers of the stakeholder consultation workshop to enhance the role of higher learning institutions in the Nepal seed sector at AFU, Chitwan. (Photo: Bandana Pradhan/CIMMYT)
In Nepal, it takes at least a year to collate the demand and supply of a required type and quantity of seed. A new digital seed information system is likely to change that, as it will enable all value chain actors to access information on seed demand and supply in real time. The information system is currently under development, as part of the Nepal Seed and Fertilizer (NSAF) project, funded by the United States Agency for International Development (USAID) and led by the International Maize and Wheat Improvement Center (CIMMYT).
In this system, a national database allows easy access to an online seed catalogue where characteristics and sources of all registered varieties are available. A balance sheet simultaneously gathers and shares real time information on seed demand and supply by all the stakeholders. The digital platform also helps to plan and monitor seed production and distribution over a period of time.
Screenshot of the DESIS portal, still under development.
Challenges to seed access
Over 2,500 seed entrepreneurs engaged in production, processing and marketing of seeds in Nepal rely on public research centers to get early generation seeds of various crops, especially cereals, for subsequent seed multiplication.
“The existing seed information system is cumbersome and the process of collecting information takes a minimum of one year before a seed company knows where to get the required amount and type of seed for multiplication,” said Laxmi Kant Dhakal, Chairperson of the Seed Entrepreneurs Association of Nepal (SEAN) and owner of a seed company in the far west of the country. Similarly, more than 700 rural municipalities and local units in Nepal require seeds to multiply under farmers cooperatives in their area.
One of the critical challenges farmers encounter around the world is timely access to quality seeds, due to unavailability of improved varieties, lack of information about them, and weak planning and supply management. Asmita Shrestha, a farmer in Surkhet district, has been involved in maize farming for the last 20 years. She is unaware of the availability of different types of maize that can be productive in the mid-hill region and therefore loses the opportunity to sow improved maize seeds and produce better harvests.
In Sindhupalchowk district, seed producer Ambika Thapa works in a cooperative and produces hybrid tomato seeds. Her problem is getting access to the right market that can provide a good profit for her efforts. A kilogram of hybrid tomato seed can fetch up to $2,000 in a retail and upscale market. However, she is not getting a quarter of this price due to lack of market information and linkages with buyers. This is the story of many Nepali female farmers, who account for over 60% of the rural farming community, where lack of improved technologies and access to profitable markets challenge farm productivity.
At present, the Seed Quality Control Center (SQCC), Nepal Agriculture Research Council (NARC), the Centre for Crop Development and Agro Bio-diversity Conservation (CCDABC) and the Vegetable Development Directorate (VDD) are using paper-based data collection systems to record and plan seed production every year. Aggregating seed demand and supply data and generating reports takes at least two to three months. Furthermore, individual provinces need to convene meetings to collect and estimate province-level seed demand that must come from rural municipalities and local bodies.
A digital technology solution
CIMMYT and its partners are leveraging digital technologies to create an integrated Digitally Enabled Seed Information System (DESIS) that is efficient, dynamic and scalable. This initiative was the result of collaboration between U.S. Global Development Lab and USAID under the Digital Development for Feed the Future (D2FTF) initiative, which aimed to demonstrate that digital tools and approaches can accelerate progress towards food security and nutrition goals.
FHI 360 talked to relevant stakeholders in Nepal to assess their needs, as part of the Mobile Solutions Technical Assistance and Research (mSTAR) project, funded by USAID. Based on this work, CIMMYT and its partners identified a local IT expert and launched the development of DESIS.
The Digitally Enabled Seed Information System (DESIS) will help to create market and research linkages for Nepal’s seed system.
DESIS will provide an automated version of the seed balance sheet. Using unique logins, agencies will be able to place their requests and seed producers to post their seed supplies. The platform will help to aggregate and manage breeder, foundation and source seed, as well as certified and labelled seed. The system will also include an offline seed catalogue where users can view seed characteristics, compare seeds and select released and registered varieties available in Nepal. Users can also generate seed quality reports on batches of seeds.
“As the main host of this system, the platform is well designed and perfectly applicable to the needs of SQCC,” said Madan Thapa, Chief of SQCC, during the initial user tests held at his office. Thapa also expressed the potential of the platform to adapt to future needs.
The system will also link farmers to seed suppliers and buyers, to build a better internal Nepalese seed market. The larger goal of DESIS is to help farmers grow better yields and improve livelihoods, while contributing to food security nationwide.
DESIS is planned to roll out in Nepal in early 2020. Primary users will be seed companies, agricultural research centers, the Ministry of Agriculture and Livestock Development, agrovets, cooperatives, farmers, development partners, universities, researchers, policy makers, and international institutions. The system is based on an open source software and will be available on a mobile website and Android app.
“It is highly secure, user friendly and easy to update,” said Warren Dally, an IT consultant who currently oversees the technical details of the software and the implementation process.
Farmers in Nepal show their most popular digital tool, a mobile phone, during a training. (Photo: Bandana Pradhan/CIMMYT)
As part of the NSAF project, CIMMYT is also working to roll out digital seed inspection and a QR code-based quality certification system. The higher vision of the system is to create a seed data warehouse that integrates the seed information portal and the seed market information system.
Digital solutions are critical to link the agricultural market with vital information so farmers can make decisions for better production and harvest. It will not be long before farmers like Asmita and Ambika can easily access information using their mobile phones on the type of variety suitable to grow in their region and the best market to sell their products.
In an historical first, during the 2018-19 season Nepal’s National Maize Research Program (NMRP) coordinated the production of 4 tons of seed of a leading maize hybrid, as part of national efforts to boost maize production and meet rising demand for the crop.
NMRP oversaw production of Rampur Hybrid-10 seed, in collaboration with the Heat Tolerant Maize for Asia (HTMA) project funded by the USAID Feed the Future Initiative and led by the International Maize and Wheat Improvement Center (CIMMYT), the Nepal Seed and Fertilizer (NSAF) project, and local seed companies and farmer cooperatives.
“Producing hybrid maize seed and getting quality seed to farmers at a reasonable price involves multiple stakeholders,” said P.H. Zaidi, CIMMYT maize physiologist and HTMA leader. “NMRP is pursuing a public-private partnership model to have key value chain components in place for this. The success this year may encourage other companies to switch from producing seed of open-pollinated maize varieties to that of hybrids, which are higher yielding.”
Lumbini Seed Company alone harvested 2.5 tons of hybrid seed from one hectare of land, helping to debunk the common myth that production of maize hybrid seed was impossible in Nepal, according to Zaidi.
“Lumbini did good groundwork to identify a suitable season and site for seed production, helping them to achieve a good hybrid seed harvest in their first-ever attempt,” said Zaidi. “The NMRP and other seed companies contributed valuable knowledge and advice to improve and scale up hybrid maize seed production.”
Maize is a critical food, feed and fodder crop in Nepal, providing nearly 20% of people’s food energy and accounting for around 33% of all cereal production in the high hills regions, 39% in the mid-hills region, and 9% in the Terai. Over two-thirds of hill-region maize is eaten directly as food on farm homesteads, whereas 80% of maize in the Terai and neighboring regions is used as feed.
Demand for feed maize is skyrocketing, as consumers switch from starch-based foods to animal protein and dairy products. Current national maize production satisfies less than a third of feed industry demand, requiring maize grain imports that reached 4.8 million tons in 2017-18.
Against this backdrop, many smallholder farmers still grow local or open-pollinated maize varieties, which are usually low yielding.
Scientists from CIMMYT and Nepal’s National Maize Research Program (NMRP) talk to Lumbini Seeds staff at their hybrid seed production plot in Bairawah, Nepal. (Photo: Lumbini Seeds)
Based in Rampur, Chitwan, and established in 1972, the NMRP has developed and released 29 open-pollinated and 5 hybrid maize varieties, including Rampur Hybrid-10, with technical support from CIMMYT. Multinational companies have registered 54 other maize hybrids for marketing in Nepal. To date, nearly all hybrid seed is imported.
Other partners in efforts to produce hybrid seed in Nepal include the farmer cooperatives Namuna Sahakari and Jhapa, as well as the companies SEAN Seed in Kathmandu and Unique Seed Company in Dhangadi. NMRP is also developing and registering new high-yielding hybrids. Some nucleus and breeders seed is being produced by the Agricultural Research Station (ARS) and Regional Agricultural Research Station (RARS) of the Nepal Agricultural Research Council (NARC).
The NMRP and participating seed companies expect to meet half of Nepal’s hybrid maize seed requirements through such domestic seed production within five years, with the objective to achieve complete seed self-sufficiency later on.
Access to affordable quality seed is one of the prerequisites to increase agricultural production and improve the livelihoods of Nepali farmers. However, there are significant challenges to boost Nepal’s seed industry and help sustainably feed a growing population.
Six years ago, Nepal launched its National Seed Vision 2013-2025. This strategic plan aims at fostering vibrant, resilient, market-oriented and inclusive seed systems in public-private partnership modalities, to boost crop productivity and enhance food security.
The Nepal Seed and Fertilizer (NSAF) project, led by the International Maize and Wheat Improvement Center (CIMMYT), is supporting the government to enhance national policies and guidelines, and private seed companies to build competitive seed businesses and hybrid seed production.
General view of a hybrid maize field from Lumbini Seed Company, a NSAF project partner, in Nepal’s Bhairahawa district. (Photo: Subhas Sapkota)
Quality seed can increase crop yield by 15-20%. However, there are critical challenges hindering the growth of Nepal’s seed industry. Existing seed replacement rate for major cereals is low, around 15%. About 85% of Nepali farmers are unable to access recently developed improved seeds — instead, they are cultivating decades-old varieties with low yield and low profits. Some of the factors limiting the development of seed systems are the high cost of seed production and processing, the limited reach of mechanization, and the low use of conservation agriculture practices.
The demand for hybrid seeds in Nepal is soaring but research in variety development is limited. Most of the country’s supply comes from imports.
In collaboration with the Nepal Agricultural Research Council (NARC), the NSAF project team is working with seed companies and cooperatives to scale hybrid seed production of maize, tomato and rice. Through this project, CIMMYT collaborated with the Seed Quality Control Center (SQCC) and national commodity programs of the NARC to draft the first hybrid seed production and certification guidelines for Nepal to help private seed companies produce and maintain standards of hybrid seeds.
Extension and promotion activities are essential to bring improved seed varieties to farmers. Standard labelling and packaging also needs to be strengthened.
Yubak Dhoj G.C., Secretary of Nepal’s Ministry of Agriculture and Livestock Development, explained the importance of seed stakeholders’ collaboration to achieve the National Seed Vision targets. (Photo: Bandana Pradhan/CIMMYT)
A joint effort
CIMMYT and its partners organized a two-day workshop to review the progress of the National Seed Vision. The event attracted 111 participants from government institutions, private companies and development organizations engaged in crop variety development, seed research, seed production and dissemination activities.
In the opening remarks, Yubak Dhoj G.C., Secretary of Nepal’s Ministry of Agriculture and Livestock Development, addressed the seed sector scenario and its challenges. He stressed the importance of collaboration among seed stakeholders to meet the targets of the National Seed Vision in the next six years.
During the technical sessions, Madan Thapa, Chief of the SQCC, analyzed the current status of the National Seed Vision and highlighted the challenges as well as the opportunities to realize it.
Laxmi Kant Dhakal, Chairperson of the Seed Entrepreneurs Association of Nepal (SEAN) emphasized the importance of private sector engagement and other support areas to strengthen seed production and marketing of open-pollinated varieties and hybrids.
Seed systems specialist AbduRahman Beshir shares CIMMYT’s experiences in hybrid testing and seed business promotion in Nepal. (Photo: Bandana Pradhan/CIMMYT)
Tara Bahadur Ghimire, Principal Scientist at NARC, gave an overview of the status of NARC varieties, source seed and resource allocation.
Dila Ram Bhandari, former Chief of SQCC, led a discussion around the assumptions and expectations that arose while developing the National Seed Vision.
Technical leads of maize, rice, wheat and vegetables presented a road map on hybrid variety development and seed production in line with the National Seed Vision’s targets for each crop.
“A large quantity of hybrid seeds, worth millions of dollars, is being imported into Nepal each year,” explained AbduRahman Beshir, Seed Systems Lead of CIMMYT’s NSAF project. “However, if stakeholders work together and strengthen the local seed system, there is a huge potential in Nepal not only to become self-sufficient but also to export good quality hybrid seeds in the foreseeable future. Under the NSAF project we are witnessing a few seed companies that have initiated hybrid seed production of maize and tomato.”
In one of the exercises, workshop participants were divided in groups and examined different topics related to the realization of the National Seed Vision. They looked at genetic resources, hybrid and open-pollinated variety development, source seed production and supply, private sector engagement and marketing, seed extension and varietal adoption by farmers, seed quality control services, and roles of research partners and other stakeholders. The groups presented some of the major challenges and opportunities related to these topics, as well as recommendations, which will be documented and shared.
The outcomes of this mid-term review workshop will inform policy and guide the discussions at the upcoming International Seed Conference to be held in early September 2019.
In one of the breakout sessions, a group discusses challenges and recommendation to improve private sector engagement. (Photo: Bandana Pradhan/CIMMYT)
Regulating hybrid seed production
At the workshop, participants thoroughly discussed the draft hybrid seed production and certification guidelines, developed under the NSAF project.
The guidelines are the first of their kind in Nepal and essential to achieve the targets of the National Seed Vision, by engaging the private sector in hybrid seed production.
Hari Kumar Shrestha, CIMMYT’s Seed Systems Officer, and other seed experts from the SQCC presented the main features and regulatory implications of the guidelines.
After the workshop, the guidelines were sent to the National Seed Board for approval.
Finance is a key driver for agricultural development, as it allows farmers and agribusinesses to improve production efficiency and adopt improved technologies. In Nepal, most of the seed in the formal sector is produced by companies and cooperatives which, like any enterprise, need access to finance in order to grow and increase their capacity.
Nepal’s Agricultural Development Strategy 2015-2035 and National Seed Vision 2013-2025 are key policy documents of the government that provide a roadmap for the development of the agricultural and seed sectors in the country.
In 2017, realizing the need to increase investments in the agricultural sector, the central bank of Nepal, Nepal Rastra Bank, adopted the Priority Sector Lending Programme (PSLP). This program mandates banks and financial institutions to allocate 10% of their loan portfolio to the agricultural sector at a subsidized interest rate of 5%.
The Nepal Seed and Fertilizer (NSAF) project is providing an interface between banks and seed enterprises. Commercial banks are improving their knowledge of the seed sector, its needs and growth opportunities, so they can develop loan products and credit modalities that match the requirements of seed producers and agribusinesses.
These enterprises require finances to upgrade their infrastructure, increase production and grow their businesses. The business plans of seed companies which partner with the NSAF project indicate that the average size of loan required is around $50,000 — 60% for infrastructure development and 40% for working capital. About 66% of the working capital is used to procure raw seed from contract seed growers.
A farmer processes a loan through Laxmi Bank’s branchless banking system in Kailali district, Nepal. (Photo: Suman Khanal/CIMMYT)
Barriers to lending
Given the huge requirement for finance for seed procurement, access to loans through the PSLP can provide respite to seed companies. However, unlike in other commercial agribusiness, bank lending under the PSLP is uncommon in the seed business, as financial institutions lack understanding of the sector. Many seed companies have not been able to benefit from these loans due to perceived high risks or the lack of business plans and compliance mechanisms required by banks.
In 2018, the NSAF project team assessed the current status, challenges and opportunities in seed business financing through the PSLP. The project also facilitated a seed growers’ lending model through a tripartite agreement between Laxmi Bank Pvt. Limited, Panchashakti Seed Company and seed growers to access loans under PSLP.
On June 14, 2019, NSAF organized a meeting in collaboration with Seed Entrepreneurs Association of Nepal (SEAN) to present findings of their assessments and experiences. The meeting brought together representatives from the Ministry of Agriculture and Livestock Development, national financial institutions, private sector banks, seed companies, agricultural cooperatives and development organizations, who took part in the deliberations and also contributed to refining policy recommendations to enhance seed sector financing.
The assessments showed that PSLP awareness among farmers is low and seed growers borrowing from the informal sector were paying high interest rates, ranging from 24-36% per year. Lack of adequate business plans and compliance mechanisms for seed companies, limited eligibility criteria for PSLP, complex loan acquisition process and collateral issues were some of the factors that made funds largely inaccessible to smallholder farmers. Moreover, the terms and conditions for loan repayment stipulated by banks do not synchronize with the agricultural crop calendar and farm cash flows.
Navin Hada, AID Project Development Specialist at USAID, discusses the strategic measures to enhance access to seed business financing with relevant stakeholders. (Photo: Bandana Pradhan/CIMMYT)
Tailor-made financing solutions
Participants in the meeting discussed ways to create a conducive environment to access financial services for agricultural producers and agribusinesses. Seed companies suggested to improve banks and financial institutions’ understanding of the agricultural markets and build their capacity to assess business opportunities. They also requested that banks simplify the documentation process for acquiring loans for farmers.
Participants from the Kisanka Lagi Unnat Biu-Bijan Karyakram (KUBK), a Nepal government project located in Rupandehi district Province 5, highlighted their model where farmers, organized into cooperatives, are linked to the Small Farmer Development Bank, which could be worth exploring in other sites.
Branchless banking promoted by NSAF is a workable strategy to provide financial services to seed growers in remote areas.
The action research also highlighted that innovative modalities, such as group guarantees, can be a feasible approach to mitigate risks to fund seed growers who do not have land registration certificates and whose land rights have not been transferred in their names. In the case of female producers, this is especially helpful, as many women are the lead decision-makers on the land registered under the name of their husbands, who are migrant workers abroad.
Utilizing the learning from this event, NSAF and SEAN will share the evidence-based policy recommendations with the Ministry of Agriculture and Livestock Development, the Ministry of Finance, the central bank and the Bankers’ Association of Nepal.
Through the NSAF project’s facilitation, banks have approved loans amounting to $2.5 million for business expansion of seven seed companies in 2018. The project will continue to support its seed partners in developing and strengthening their business plans and will facilitate linkages with commercial banks.
The Nepal Seed and Fertilizer project is funded by the United States Agency for International Development (USAID) and is a flagship project in Nepal. The objective of NSAF is to build competitive and synergistic seed and fertilizer systems for inclusive and sustainable growth in agricultural productivity, business development and income generation in Nepal.
Participants of the results sharing meeting on Access to Finance in Seed Sector in Nepal. (Photo: Bandana Pradhan/CIMMYT)
Push-pull cropping system in maize. (Figure: CIMMYT)
Climate conditions in Nepal are suitable for the establishment of fall armyworm, which could cause considerable crop loss if not managed properly. The fall armyworm is a destructive pest that has a voracious appetite for maize and other crops. Through the Nepal Seed and Fertilizer (NSAF) project, the International Maize and Wheat Improvement Center (CIMMYT) is working with the government of Nepal and other partners to address this imminent threat.
Chemical control of fall armyworm is too expensive and impractical for small-scale farmers, has negative human health effects, and can be a source of soil pollutants with a negative effect on biodiversity.
CIMMYT is currently evaluating the efficacy of push-pull cropping systems to control fall armyworm. Considered one of the most climate-smart technologies, push-pull systems use plant-pest ecology instead of harmful chemical insecticides to control weeds and insects. It is an environmentally friendly pest control method which is also economically viable for maize producers.
Napier grass is planted by farmers to prevent soil erosion in Kenya’s Tana River Basin. (Photo: Georgina Smith/CIAT)
This system involves two types of crops: Napier grass (Pennisetum purpureum) and silverleaf desmodium legume (Desmodium uncinatum).
Desmodium plants are intercropped with the rows of maize and Napier grass surrounds the maize crop. Desmodium produces volatile chemicals that repel fall armyworm moths, while the Napier grass produces chemicals that attract female moths. The resulting push-pull system takes the pest away from the maize field.
An additional benefit is that desmodium improves nitrogen fertility through biological nitrogen fixation, which may reduce nitrogen input in the long-term. Desmodium also provides ground cover for maize, controlling soil erosion and offering protection from extreme heat conditions. Both desmodium and Napier grass are excellent fodder crops for livestock.
Because of all these reasons, push-pull technology is highly beneficial to smallholders who are dependent on locally available inputs for their subsistence farming. It can also have a positive spiral effect on the environment.
Participants in the five-year workshop for the SRFSI project in Kathmandu in May 2019 stand for a group shot. (Photo: CIMMYT)
Over 50 stakeholders from the Sustainable and Resilient Farming Systems Intensification in the Eastern Gangetic Plains (SRFSI) project engaged in three days of reflection and planning in Kathmandu, Nepal, in early May 2019. Partners from four countries focused on identifying key learnings across a range of topics including value chains, business models, agricultural extension, capacity building, innovation platforms and policy convergence. After almost five years of project activities, there was naturally plenty of vibrant discussion.
The cross-cutting themes of gender and climate change were considered within each topic, to capture project outputs beyond participation and farm level impact. Discussions around gender confirmed the benefits of targeted women’s participation and ensuring that women’s availability was accommodated. Working within the SRFSI project, researchers have identified new business opportunities for women, with benefits for individuals and community groups. In terms of business models, it was highlighted that promoting gender-inclusive strategies for all partners, including the private sector, is necessary. Ensuring a wide range of partnership institutions, such as NGOs with women-centric programs, is also beneficial for reaching more women.
In the five-year SRFSI workshop, participants discussed research outputs and planned the year ahead. (Photo: CIMMYT)
Conservation agriculture-based sustainable intensification techniques have been confirmed as contributing to climate-resilient farming systems, both in terms of mitigation and adaptation. Importantly, the project has demonstrated that these systems can be profitable, climate smart business models in the Eastern Gangetic Plains. They were also seen as fitting well with government plans and policies to address climate change, which was demonstrated by convergence with country and NGO programs that are focused on climate change adaptation.
In keeping with the recently approved no-cost extension of the SRFSI project until June 2020, the final sessions identified remaining research questions in each location and scaling component, and project partners nominated small research activities to fill these gaps. The final year of SRFSI is an excellent opportunity to capture valuable lessons and synthesise project outputs for maximum impact.
The Sustainable and Resilient Farming Systems Intensification Project is a collaboration between the International Maize and Wheat Improvement Center (CIMMYT) and the project funder, the Australian Centre for International Agricultural Research (ACIAR).
Written by Mary Donovan on . Posted in Uncategorized.
The Eastern Gangetic Plains region of Bangladesh, India, and Nepal is home to the greatest concentration of rural poor in the world. This region is projected to be one of the areas most affected by climate change. Local farmers are already experiencing the impact of climate change: erratic monsoon rains, floods and other extreme weather events have affected agricultural production for the past decade. The region’s smallholder farming systems have low productivity, and yields are too variable to provide a solid foundation for food security. Inadequate access to irrigation, credit, inputs and extension systems limit capacity to adapt to climate change or invest in innovation. Furthermore, large-scale migration away from agricultural areas has led to labor shortages and increasing numbers of women in agriculture.
The Sustainable and Resilient Farming Systems Intensification (SRFSI) project aims to reduce poverty in the Eastern Gangetic Plains by making smallholder agriculture more productive, profitable and sustainable while safeguarding the environment and involving women. CIMMYT, project partners and farmers are exploring Conservation Agriculture-based Sustainable Intensification (CASI) and efficient water management as foundations for increasing crop productivity and resilience. Technological changes are being complemented by research into institutional innovations that strengthen adaptive capacity and link farmers to markets and support services, enabling both women and men farmers to adapt and thrive in the face of climate and economic change.
In its current phase, the project team is identifying and closing capacity gaps so that stakeholders can scale CASI practices beyond the project lifespan. Priorities include crop diversification and rotation, reduced tillage using machinery, efficient water management practices, and integrated weed management practices. Women farmers are specifically targeted in the scaling project: it is intended that a third of participants will be women and that at least 25% of the households involved will be led by women.
Understand farmer circumstances with respect to cropping systems, natural and economic resources base, livelihood strategies, and capacity to bear risk and undertake technological innovation
Develop with farmers more productive and sustainable technologies that are resilient to climate risks and profitable for smallholders
Catalyze, support and evaluate institutional and policy changes that establish an enabling environment for the adoption of high-impact technologies
Facilitate widespread adoption of sustainable, resilient and more profitable farming systems
Zero-tillage service provision is key to facilitating adoption.
Service provider Azgad Ali and farmer Samaru Das have a fruitful relationship based on technology promoted through CIMMYT’s SRSFI project.
Bablu Modak demonstrates his unpuddled mechanically transplanted rice.
CIMMYT’s SRFSI team and the community walk through the fields during a field visit in Cooch Behar.
