funder_partner: Indian Council of Agricultural Research (ICAR)

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Conference participants pose for a group photo at the field visit site during the 13th Asian Maize Conference. (Photo: Manjit Singh/Punjab Agricultural University)

International experts discuss progress and challenges of maize research and development in Asia

Written by Jennifer Johnson on December 17, 2018. Posted in Features.

The importance of maize in Asian cropping systems has grown rapidly in recent years, with several countries registering impressive growth rates in maize production and productivity. However, increasing and competing demands — food, feed, and industry — highlight the continued need to invest in maize research for development in the region. Maize experts from around the world gathered to discuss these challenges and how to solve them at the 13^th Asian Maize Conference and Expert Consultation on Maize for Food, Feed, Nutrition and Environmental Security, held from October 8 to 10, 2018, in Ludhiana, Punjab, India.

More than 280 delegates from 20 countries attended the conference. Technical sessions and panel discussions covered diverse topics such as novel tools and strategies for increasing genetic gains, stress-resilient maize, sustainable intensification of maize-based cropping systems, specialty maize, processing and value addition, and nutritionally enriched maize for Asia.

The international conference was jointly organized by the Indian Council of Agricultural Research (ICAR), the International Maize and Wheat Improvement Center (CIMMYT), the Indian Institute of Maize Research (ICAR-IIMR), Punjab Agricultural University (PAU), the CGIAR Research Program on Maize (MAIZE), and the Borlaug Institute for South Asia (BISA).

In Asia, maize is rapidly growing in its importance, due to high demand. Maize productivity in the region is growing by 5.2 percent annually compared to a global average of 3.5 percent. However, this is not enough. “Asia produces nearly 80 million tons of maize annually, but demand will be double by the year 2050,” said Martin Kropff, CIMMYT director general, in his opening address at the conference. “We need to produce two times more maize in Asia, using two times less inputs, including water and nutrients. Climatic extremes and variability, especially in South and South East Asia, will make this challenge more difficult. Continued funding for maize research is crucial. We need to work together to ensure that appropriate innovations reach the smallholder farmers.”

*Field visit in Ludhiana, India, during the 13th Asian Maize Conference. (Photo: Manjit Singh/Punjab Agricultural University)*

Climate-resilient maize and sustainable intensification

A major theme emphasized at the conference was climate resilience in maize-based systems. South Asia is a hotspot for vulnerability due to climate change and climate variability, which poses great risks to smallholder farmers. “Climate resilience cannot be brought by only a single technology — it has to be through a judicious mix of several approaches,” said B.M. Prasanna, director of CIMMYT’s Global Maize Program and the CGIAR Research Program on Maize.

Great advances have been made in developing climate-resilient maize for Asia since the last Asian Maize Conference, held in 2014. Many new heat- and drought-tolerant maize varieties have been developed through various projects, such as the Heat Stress Tolerant Maize for Asia (HTMA), and Affordable, Accessible, Asian (AAA) maize projects. Through the HTMA project, over 50 CIMMYT-derived elite heat-tolerant maize hybrids have been licensed to public and private sector partners in Asia during the last three years, and nine heat-tolerant maize hybrids have been released so far in Bangladesh, India and Nepal.

Sustainable intensification of maize-based farming systems has also helped farmers to increase yields while reducing environmental impact, through conservation agriculture and scale-appropriate mechanization. Simple technologies are now available to reduce harvest time by up to 80 percent and hired labor costs by up to 60 percent. Researchers across the region are also working to strengthen the maize value chains.

*B.S. Dhillon (center) receives the MAIZE Champion Award for his pioneering work in maize breeding. (Photo: Manjit Singh/Punjab Agricultural University)*

Science and appropriate technologies

CIMMYT has been focusing on developing and deploying new technologies that can enhance the efficiency of maize breeding programs; these include doubled haploid (DH) technology, high-throughput field-based phenotyping, and genomics-assisted breeding. The conference emphasized on the need for Asian institutions to adapt such new tools and technologies in maize breeding programs.

Another topic of interest was the fall armyworm, an invasive insect pest that has spread through 44 countries in Africa and was recently reported in India for the first time. “This pest can migrate very quickly and doesn’t require visas and passports like we do. It will travel, and Asian nations need to be prepared,” Prasanna said. “However, there is no need for alarm. We will be looking at lessons learned from other regions and will work together to control this pest.”

In addition to grain for food and feed, specialty maize varieties can provide beneficial economic alternatives for smallholder maize farmers. Conference participants had the opportunity to hear from Indian farmers Kanwal Singh Chauhan and Yugandar Y, who have effectively adopted specialty maize varieties, such as baby corn, sweet corn and popcorn, into life-changing economic opportunities for farming communities. They hope to inspire other farmers in the region to do the same.

On October 10, conference delegates participated in a maize field day organized at the BISA farm in Ladhowal, Ludhiana. Nearly 100 improved maize varieties developed by CIMMYT, ICAR and public and private sector partners were on display, in addition to scale-appropriate mechanization options, decision support tools, and precision nutrient and water management techniques.

The conference concluded with a ceremony honoring the winners of the 2018 MAIZE-Asia Youth Innovators Award. The awards were launched in collaboration between the CGIAR Research Program on Maize and YPARD (Young Professionals for Agricultural Development) to recognize the contributions of innovative young women and men who can inspire fellow youth to get involved in improving maize-based agri-food systems in Asia. Winners of the first edition of the awards include Dinesh Panday of Nepal, Jie Xu of China, Samjhana Khanal of Nepal, and Vignesh Muthusamy of India.

*Participants listen to a briefing during the field visit of the 13th Asian Maize Conference, in Ludhiana, India. (Photo: Manjit Singh/Punjab Agricultural University)*

Researchers take part in Wheat Blast screening and surveillance course in Bangladesh. (Photo: CIMMYT/Tim Krupnik)

Wheat blast screening and surveillance training in Bangladesh

Written by Mike Listman on May 15, 2018. Posted in News.

Fourteen young wheat researchers from South Asia recently attended a screening and surveillance course to address wheat blast, the mysterious and deadly disease whose surprise 2016 outbreak in southwestern Bangladesh devastated that region’s wheat crop, diminished farmers’ food security and livelihoods, and augured blast’s inexorable spread in South Asia.

Held from 24 February to 4 March 2018 at the Regional Agricultural Research Station (RARS), Jessore, as part of that facility’s precision phenotyping platform to develop resistant wheat varieties, the course emphasized hands-on practice for crucial and challenging aspects of disease control and resistance breeding, including scoring infections on plants and achieving optimal development of the disease on experimental wheat plots.

Cutting-edge approaches tested for the first time in South Asia included use of smartphone-attachable field microscopes together with artificial intelligence processing of images, allowing researchers identify blast lesions not visible to the naked eye.

Workshop participants learned how to use the latest in technology to identify and keep track of the deadly Wheat Blast disease. Photo: CIMMYT archives.

“A disease like wheat blast, which respects no borders, can only be addressed through international collaboration and strengthening South Asia’s human and institutional capacities,” said Hans-Joachim Braun, director of the global wheat program of the International Maize and Wheat Improvement Center (CIMMYT), addressing participants and guests at the course opening ceremony. “Stable funding from CGIAR enabled CIMMYT and partners to react quickly to the 2016 outbreak, screening breeding lines in Bolivia and working with USDA-ARS, Fort Detrick, USA to identify resistance sources, resulting in the rapid release in 2017 of BARI Gom 33, Bangladesh’s first-ever blast resistant and zinc enriched wheat variety.”

Cooler and dryer weather during the 2017-18 wheat season has limited the incidence and severity of blast on Bangladesh’s latest wheat crop, but the disease remains a major threat for the country and its neighbors, according to P.K. Malaker, Chief Scientific Officer, Wheat Research Centre (WRC) of the Bangladesh Agricultural Research Institute (BARI).

“We need to raise awareness of the danger and the need for effective management, through training courses, workshops, and mass media campaigns,” said Malaker, speaking during the course.

The course was organized by CIMMYT, a Mexico-based organization that has collaborated with Bangladeshi research organizations for decades, with support from the Australian Center for International Agricultural Research (ACIAR), Indian Council of Agricultural Research (ICAR), CGIAR Research Program on Wheat (WHEAT), the United States Agency for International Development (USAID), and the Bangladesh Wheat and Maize Research Institute (BWMRI).

Speaking at the closing ceremony, N.C.D. Barma, WRC Director, thanked the participants and the management team and distributed certificates. “The training was very effective. BMWRI and CIMMYT have to work together to mitigate the threat of wheat blast in Bangladesh.”

Offering a very warm welcome to the Australian High Commissioner and team by Arun Joshi. (Photo: Hardeep/CIMMYT)

Innovations for cross-continent collaborations

Written by on March 2, 2018. Posted in News.

Australian High Commissioner to India, Harinder Sidhu, visited the Borlaug Institute for South Asia (BISA) in Ladhowal, Ludhiana, India on February 19.

Arun Joshi, Managing Director for BISA & CIMMYT in India, welcomed her with an introduction about the creation, mission and activities of BISA and the International Maize and Wheat Improvement Center (CIMMYT).

Sidhu also learned about the work CIMMYT and BISA do in conservation agriculture in collaboration with Punjab Agricultural University, machinery manufacturers and farmers. This work focuses on using and scaling the Happy Seeder, which enables direct seeding of wheat into heavy loads of rice residue without burning. This technology has been called “an agricultural solution to air pollution in South Asia,” as the burning of crop residue is a huge contributor to poor air quality in South Asia. Sidhu learned about recent improvements to the technology, such as the addition of a straw management system to add extra functionality, which has led to the large-scale adoption of the Happy Seeder.

The high commissioner showed keen interest in the Happy Seeder machine, and was highly impressed by the test-wheat-crop planted on 400 acres with the Happy Seeder.

Salwinder Atwal showed Sidhu the experiments using Happy Seeder for commercial seed production, and ML Jat, Principal Researcher at CIMMYT, presented on the innovative research BISA and CIMMYT are doing on precision water, nutrient and genotype management.

Happy Australian High Commissioner riding a tractor at BISA Ludhiana. (Photo: Hardeep/CIMMYT)

Sidhu visited fields with trials of climate resilient wheat as Joshi explained the importance and role of germplasm banks and new approaches such as use of genomic selection in wheat breeding in the modern agriculture to address the current challenges of climate change. He also explained the work CIMMYT does on hybrid wheat for increasing yield potential and breeding higher resistance against wheat rusts and other diseases.

ML Jat, who leads the CIMMYT-CCAFS climate smart agriculture project, explained the concept of climate smart villages and led Sidhu on a visit to the climate smart village of Noorpur Bet, which has been adopted under the CGIAR Research Program on Climate Change, Agriculture and Food Security.

During Sidhu’s visit to Noorpur Bet, a stakeholder consultation was organized on scaling happy seeder technology for promoting no-burning farming. In the stakeholder consultation, stakeholders shared experiences with happy seeder as well as other conservation agriculture amd climate smart agriculture technologies. BS Sidhu, Commissioner of Agriculture for the Government of Punjab chaired the stakeholder consultation and shared his experiences as well as Government of Punjab’s plans and policies for the farmers to promote happy seeder and other climate smart technologies.

“I am very impressed to see all these developments and enthusiasm of the farmers and other stakeholders for scaling conservation agriculture practices for sustaining the food bowl,” said Sidhu. She noted that Punjab and Australia have many things in common and could learn from each other’s experiences. Later she also visited the Punjab Agricultural University and had a meeting with the Vice Chancellor.

This visit and interaction was attended by more than 200 key stakeholders including officers from Govt. of Punjab, ICAR, PAU-KVKs, PACS, BISA- CIMMYT-CCAFS, manufacturers, farmers and custom operators of Happy Seeder.

The Borlaug Institute for South Asia (BISA) is a non-profit international research institute dedicated to food, nutrition and livelihood security as well as environmental rehabilitation in South Asia, which is home to more than 300 million undernourished people. BISA is a collaborative effort involving the International Maize and Wheat Improvement Center (CIMMYT) and the Indian Council for Agricultural Research (ICAR).

Success in mainstreaming CSISA-supported agricultural technologies

Written by on January 3, 2018. Posted in News.

Since 2015, the Cereal Systems Initiative for South Asia (CSISA) has been working with Krishi Vigyan Kendras (KVKs) – agricultural extension centers created by the Indian Council for Agricultural Research – to generate evidence on best management practices for improving cropping system productivity in the Eastern Indo-Gangetic Plains.

Lead — Billboard Campaign on early sowing and zero tillage wheat. Photo: CSISA

Technologies and management practices essential to this research include early wheat sowing, zero tillage and the timely transplanting of rice. In response to clear evidence generated through the CSISA–KVK partnership, Bihar Agriculture University (BAU) announced in October 2017 that all KVKs in Bihar would promote early wheat sowing starting November 1. KVKs promoted this intervention by placing notices, which were designed by CSISA, on roadsides.

BAU also directed the KVKs to act as commercial paddy nurseries, supplying healthy rice seedlings in a timely manner to farmers.

Pairing these rice and wheat interventions is designed to optimize system productivity through the on-time rice transplanting of rice during Kharif (monsoon growing season), allowing for the timely seeding of zero-till wheat in Rabi (winter growing season).

Under the CSISA–KVK partnership, KVKs have supported early wheat sowing by introducing local farmers to the practice of sowing zero tillage wheat immediately after rice harvesting.

Evidence has shown that early sowing of wheat increases yields across Bihar and Eastern Uttar Pradesh. KVK scientists have begun to see the importance of breaking the tradition of sowing short duration varieties of wheat late in the season, which exposes the crops to higher temperatures and reduces yields.

Across the annual cropping cycle, monsoon variability threatens the rice phase and terminal heat threatens the wheat phase, with significant potential cumulative effects on system productivity. The combined interventions of early wheat sowing, zero tillage wheat and rice nurseries for timely planting help mitigate the effects of both variable monsoon and high temperatures during the grain-filling stage.

In 2016–17, data collected across seven KVKs (333 sites) indicated that yields declined systematically when wheat was planted after November 10. When planting was done on November 20 — yields declined by 4%, November 30 – 15%, December 10 – 30%, reaching a low when planting was done on December 20 of a 40% reduction in yield.

Rice yields are also reduced significantly if transplanting is delayed beyond July 20. The timing of rice cultivation, therefore, is important in facilitating early sowing in wheat without any yield penalty to rice.

KVKs are working to generate awareness of these important cropping system interventions, as well as others, deep in each district in which they work. CSISA supports their efforts and strives to mainstream sustainable intensification technologies and management practices within a variety of public- and private sector extension systems as capacity building are core to CSISA Phase III’s vision of success.

The Cereal Systems Initiative for South Asia project is led by the International Maize and Wheat Improvement Center with partners the International Rice Research Institute and the International Food Policy Research Institute and funded by the U.S. Agency for International Development and the Bill & Melinda Gates Foundation.

Climate insurance for farmers: a shield that boosts innovation

Written by on November 7, 2017. Posted in Features.

Index insurance is one of the top 10 innovations for climate-proof farming. Photo: P. Lowe/ CIMMYT

What stands between a smallholder farmer and a bag of climate-adapted seeds? In many cases, it’s the hesitation to take a risk. Farmers may want to use improved varieties, invest in new tools, or diversify what they grow, but they need reassurance that their investments and hard work will not be squandered.

Climate change already threatens crops and livestock; one unfortunately-timed dry spell or flash flood can mean losing everything. Today, innovative insurance products are tipping the balance in farmers’ favor. That’s why insurance is featured as one of 10 innovations for climate action in agriculture, in a new report released ahead of next week’s UN Climate Talks. These innovations are drawn from decades of agricultural research for development by CGIAR and its partners and showcase an array of integrated solutions that can transform the food system.

Index insurance is making a difference to farmers at the frontlines of climate change. It is an essential building block for adapting our global food system and helping farmers thrive in a changing climate. Taken together with other innovations like stress-tolerant crop varieties, climate-informed advisories for farmers, and creative business and financial models, index insurance shows tremendous promise.

The concept is simple. To start with, farmers who are covered can recoup their losses if (for example) rainfall or average yield falls above or below a pre-specified threshold or ‘index’. This is a leap forward compared to the costly and slow process of manually verifying the damage and loss in each farmer’s field. In India, scientists from the International Water Management Institute (IWMI) and the Indian Council of Agricultural Research (ICAR), have worked out the water level thresholds that could spell disaster for rice farmers if exceeded. Combining 35 years of observed rainfall and other data, with high-resolution satellite images of actual flooding, scientists and insurers can accurately gauge the extent of flooding and crop loss to quickly determine who gets payouts.

The core feature of index insurance is to offer a lifeline to farmers, so they can shield themselves from the very worst effects of climate change. But that’s not all. Together with my team, we’re investigating how insurance can help farmers adopt new and improved varieties. Scientists are very good at developing technologies but farmers are not always willing to make the leap. This is one of the most important challenges that we grapple with. What we’ve found has amazed us: buying insurance can help farmers overcome uncertainty and give them the confidence to invest in new innovations and approaches. This is critical for climate change adaptation. We’re also finding that creditors are more willing to lend to insured farmers and that insurance can stimulate entrepreneurship and innovation. Ultimately, insurance can help break poverty traps, by encouraging a transformation in farming.

Insurers at the cutting edge are making it easy for farmers to get coverage. In Kenya, insurance is being bundled into bags of maize seeds, in a scheme led by ACRE Africa. Farmers pay a small premium when buying the seeds and each bag contains a scratch card with a code, which farmers text to ACRE at the time of planting. This initiates coverage against drought for the next 21 days; participating farms are monitored using satellite imagery. If there are enough days without rain, a farmer gets paid instantly via their mobile phone.

ACRE makes it easy for Kenyan farmers to get insurance. Source

Farmers everywhere are businesspeople who seek to increase yields and profits while minimizing risk and losses. As such, insurance has widespread appeal. We’ve seen successful initiatives grow rapidly in India, China, Zambia, Kenya and Mexico, which points to significant potential in other countries and contexts. The farmers most likely to benefit from index insurance are emergent and commercial farmers, as they are more likely than subsistence smallholder farmers to purchase insurance on a continual basis.

It’s time for more investment in index insurance and other innovations that can help farmers adapt to climate change. Countries have overwhelmingly prioritized climate actions in the agriculture sector, and sustained support is now needed to help them meet the goals set out in the Paris Climate Agreement.

Jon Hellin leads the project on weather index-based agricultural insurance as part of the CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS). This work is done in collaboration with the International Research Institute for Climate and Society (IRI) at Columbia University, and the CGIAR Research Programs on MAIZE and WHEAT.

Find out more

Report: 10 innovations for climate action in agriculture

Video: Jon Hellin on crop-index insurance for smallholder farmers

Info note: Prospects for scaling up the contribution of index insurance to smallholder adaptation to climate risk

Report: Scaling up index insurance for smallholder farmers: Recent evidence and insights.

Website: Weather-related agricultural insurance products and programs – CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS)

Climate-smart agriculture achievements inspire support for BISA-CIMMYT in Bihar, India

Written by on April 28, 2015. Posted in News.

The Director of Agriculture (3rd from left) and the District Collector (2nd from right) view a demonstration of urea drilling in a standing wheat crop. Photo: Manish Kumar/CIMMYT

The Borlaug Institute for South Asia (BISA), CIMMYT and stakeholders are developing, adapting and spreading climate-smart agriculture technologies throughout Bihar, India. During the 2014-2015 winter season, BISA hosted visits for national and international stakeholders to view the progress of participatory technology adaption modules and climate-smart villages throughout the region.

“It is very encouraging to see the [BISA-CIMMYT’s] trials of new upcoming technology…We will be ready to support this,” wrote Dharmendra Singh, Bihar’s Director of Agriculture, in the visitor book during a state agriculture department visit to one of BISA’s research farms and climate-smart villages in Pusa. BISA, CIMMYT and the CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS), in collaboration with local stakeholders and farmer groups, established 15 Borlaug climate-smart villages in Samastipur district and 20 in Vaishali district, as part of a 2012 research initiative to test various climate-smart tools, approaches and techniques.

Agriculture Production Commissioner (3rd from the left) discussing climate smart practices with farmers in Digambra village. Photo: Deepak/CIMMYT

“I could understand conservation agriculture better than ever after seeing the crop and crop geometry in the field today,” wrote Mangla Rai, former Director General of the Indian Council of Agricultural Research (ICAR) & Agriculture Advisor to the Chief Minister of Bihar. Raj Kumar Jat and M.L. Jat, CIMMYT cropping system agronomist and senior cropping system agronomist, respectively, showcased research trials on zero-tillage potato and maize, early-planted dual-purpose wheat, precision nutrient management in maize-wheat systems under conservation agriculture, genotype -by- environment interaction in wheat and crop intensification in rice-wheat systems through introduction of inter-cropping practices. Raj Kumar Jat also gave a presentation on how to increase cropping intensity in Bihar by 300% through timely planting and direct seeding techniques.

“Technologies like direct-seeded rice and zero-till wheat, which save both time and labor, should be adapted and transferred to Bihar’s farmers,” said Thomas A. Lumpkin, CIMMYT director general, at a meeting of the CIMMYT Board of Trustees with the Chief Minister of Bihar and other government representatives. “BISA is a key partner in building farmer and extension worker capacity, in addition to testing and promoting innovative agriculture technologies.”

The Agriculture Minister of Bihar visiting a zero tillage wheat field in a climate-smart village ( Bhagwatpur) of Samstipur district. Photo: Deepak/CIMMYT

“State agriculture officials should support BISA to hold trainings on direct-seeded rice for fast dissemination across Bihar,” agreed Vijay Chaudhary, Agriculture Minister of Bihar, at a BISA field day. Chaudhary along with 600 farmers and officials visited a climate-smart village where farmers plant wheat using zero tillage. Zero-till wheat is sown directly into soil and residues from previous crops, allowing farmers to plant seed early and to avoid losing yields due to pre-monsoon heat later in the season. Direct-seeded rice is sown and sprouted directly in the field, eliminating labor- and water-intensive seedling nurseries.

During the Bihar Festival, 22-24 March, BISA-CIMMYT showcased conservation agriculture practices and live demonstrations of quality protein maize-based food products, with over 10,000 famers and visitors participating. Vijoy Prakash, Agriculture Production Commissioner of Bihar, and other Bihar government officials discussed with farmers about new BISA-CIMMYT agriculture practices and emphasized the need to “introduce conservation agriculture in the state government’s agricultural technology dissemination program.” Prakash, along with government representatives, has approved two BISA proposals for a training hostel and research.

The perilous life of aphids fascinates South Asian crop scientists

Written by Mike Listman on January 27, 2015. Posted in News.

The wheat plant protection group attend interactive group meeting at IIWBR, Karnal, India. Photo: CIMMYT

Among the world’s most destructive and hated crop pests, the sap-sucking insects known as aphids are engaged in dramatic evolutionary battles with predators that include wasps whose larvae hatch and pupate in aphid bodies, devouring them from inside.

Rather than a new science fiction/horror film, this scenario is actually the basis for innovative pest control, as described by topic experts at two presentations of their interactive program “Aphids and their biological control on wheat, barley and maize” for wheat scientists in India and Nepal on 24 and 26 November 2014.

“The 34 participants, including 26 in Nepal and 8 in India, heard short lectures on maize and wheat aphids and other insect pests, followed by videos on aphid biology and their biological control,” said Arun Joshi, CIMMYT wheat breeder based in Nepal who helped organize the programs, in conjunction with the Indian Institute of Wheat and Barely Research (IIWBR) of the Indian Council of Agricultural Research (ICAR) at Karnal and the Nepal Agricultural Research Council (NARC). “They learned about the special traits of the biological control agents that can be used in South Asia, as well as how to rear and spread them in crop fields, with the idea of training farmers in these skills.”

The main presenter, Prof. Urs Wyss, Institute of Phytopathology, University of Kiel, Germany, has produced over 70 films on insect pest biology and bio-control. Prof. Chandra Prakash Srivastava, Head, Department of Entomology, Banaras Hindu University, India, spoke to both groups about maize and wheat insect pests and their management.

“This is the first program on wheat insect pest management and biological control at IIWBR (former DWR, Karnal) in two decades,” said Dr. Indu Sharma, IIWBR project director. Joshi said that NARC colleagues made similar comments in praise of the program.

The training program was organized in response to mounting evidence of crop damage from aphids in Peninsular and northwestern India and the Terai and Midhills of Nepal. It was conducted at IIWBR, Karnal, through Dr. Indu Sharma and Dr. M.S. Saharan and in Nepal through Dr. Yagya Prasad Giri, Head, Entomology, NARC.

Other institutions represented in India included:

Chandra Shekhar Azad University of Agriculture and
Technology, Kanpu.
Agriculture Research Station, Niphad, Maharashtra.
Agriculture Research Station, Durgapura, Rajasthan.
Centre of Excellence for Research on Wheat, S.D.
Agriculture University, Vijapur, Gujrat.
Punjab Agriculture University, Ludhiana.
G.B. Pant Univ. of Agriculture and Technology,
Pantnagar.
Assam Agricultural University, Shillongani, Nagoan.
Uttar Banga Agriculture University, West Bengal.

In Nepal participants came from:

The Department of Entomology, National Agriculture
Research Institute, Khumaltar.
National Wheat Research Program (NWRP),
Bhairahwa.
National Maize Research Program (NMRP), Rampur.