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Wheat titan honored posthumously by India

Written by Mike Listman on January 27, 2022. Posted in Features.

India has conferred posthumously upon Sanjaya Rajaram, 2014 World Food Prize laureate and former wheat breeder and Director of the Wheat Program at the International Maize and Wheat Improvement Center (CIMMYT), its prestigious 2022 Padma Bhushan Award in “Science and Engineering” in recognition of “distinguished service of high order.”

Among the most successful crop breeders in history, Rajaram, who passed away in 2021, personally oversaw the development of nearly 500 high-yielding and disease-resistant wheat varieties that were grown on at least 58 million hectares in over 50 countries, increasing global wheat production by more than 200 million tons and especially benefiting hundreds of millions of the resource-poor whose diets and livelihoods depend on this critical crop. In India and the neighboring South Asian nations of Bangladesh, Nepal, and Pakistan, inhabitants consume more than 120 million tons of wheat and wheat-based foods each year.

“Dr. Rajaram was a true titan of wheat breeding and an inspiration for young researchers, training and mentoring more than 700 scientists from developing countries worldwide,” said Bram Govaerts, CIMMYT director general. “He was also a complete gentleman, comporting himself with modesty and grace despite his many honors and accomplishments; his first priority was helping and crediting others. Rajaram is an example today for all of us to keep working with the final stakeholder — the farmer — in mind.”

The rise from rural beginnings

Born on a small farm in District Varanasi, Uttar Pradesh, India, in 1943, Rajaram studied genetics and plant breeding at the Indian Agricultural Research Institute in New Delhi. After receiving his Ph.D. from the University of Sydney, he joined CIMMYT in 1969, working as a wheat breeder alongside Nobel Prize Laureate and CIMMYT scientist Norman Borlaug in Mexico. Recognizing his talent and initiative, Borlaug appointed Rajaram as head of CIMMYT’s wheat breeding program at just 29 years of age.

The Padma Bhushan Award was announced by President Ram Nath Kovind of India on the country’s Republic Day, January 26. In 2015, Rajaram received the Pravasi Bharatiya Samman award, the highest honor conferred on Indians overseas. In 2001 he accepted the Padma Shri award from the government of India and, in 1998, the Friendship Award from the government of China.

Sanjaya Rajaram (Photo: Xochil Fonseca/CIMMYT)

Though a plant breeder and scientist by profession, Rajaram used the platform of his 2014 World Food Prize to promote an expansive, integrated vision for agricultural development. “If we want to make a change, research won’t do it alone; we need to work directly with farmers and to train young agronomists, ensuring they have a broad vision to address the problems in farmers’ fields,” Rajaram said at a news conference in Mexico City in 2014.

Rajaram also served as Director of the Integrated Gene Management Program at the International Center for Agricultural Research in the Dry Areas (ICARDA) before formally retiring in 2008. In his retirement, he continued as a special scientific advisor to CIMMYT and ICARDA.

Longstanding partners pushing forward for farmers

“India’s agricultural research community is proud of the distinguished achievements of Dr. Rajaram,” said Trilochan Mohapatra, Director General of the Indian Council of Agricultural Research (ICAR) and Secretary of the Department of Agricultural Research and Education (DARE), of India’s Ministry of Agriculture and Farmers’ Welfare. “ICAR greatly appreciates its valuable collaborations with CIMMYT to help farmers grow better crops and conserve resources under increasingly challenging conditions.”

The partnership of India with CIMMYT harks back to the 1960s-70s, when Indian farmers tripled national wheat yields in a few years by growing Borlaug’s high-yield wheat varieties and adopting improved farming practices.

In 2011, India and CIMMYT jointly launched the Borlaug Institute for South Asia (BISA) to improve cropping systems and food security, helping farmers to confront climate change and natural resource scarcities, among other challenges.

S. Ayyappan, former ICAR Director General who signed the joint declaration of intent for BISA’s establishment in India, has been honored with the 2022 Padma Shri Award.

CIMMYT is a non-profit international agricultural research and training organization focusing on two of the world’s most important cereal grains, maize and wheat, and related cropping systems and livelihoods. Wheat varieties derived from CIMMYT and ICARDA research cover more than 100 million hectares — nearly two-thirds of the area sown to improved wheat worldwide — and bring benefits in added grain worth as much as $3.8 billion each year.

BISA Jabalpur team gathers for a celebration

Celebrating 10 years of the Borlaug Institute for South Asia

Written by Richa Sharma Puri on October 10, 2021. Posted in News.

BISA and CIMMYT gather for a virtual 10 year celebration.

A decade ago, a foundation was laid with a vision to secure food, nutrition, livelihoods, and the environment in South Asia. The Borlaug Institute of South Asia (BISA) was formed and the principles were set following the path of Norman Borlaug to translate the agrarian challenges into opportunities by collaborating with the International Maize and Wheat Improvement Center (CIMMYT) and the Indian Council of Agricultural Research (ICAR). BISA was established as an independent, non-profit research organization.

To commemorate the 10^th anniversary of BISA, Bram Govaerts, Director General, CIMMYT-BISA, gathered BISA staff for a virtual celebration on 5 October 2021. He congratulated BISA colleagues and said “[…] BISA has continued to expand Norman Borlaug’s vision and legacy. It has […] been committed and achieved excellence in science, seeds and partnerships by touching lives of millions of farmers and consumers.”

“Perhaps one of the most impactful outcomes of BISA’s work has been its contribution to build a strong and wide network for evaluating and disseminating new high yielding and climate-resilient wheat varieties for southern Asia in close partnership with ICAR and national agricultural research systems. CIMMYT-BISA has not only contributed towards this but will also make sure that India’s farmers are the happiest. Efforts will and have been made towards their income generation, livelihood for families, a clean environment and building of future agricultural resilience,” he added.

Pramod Aggarwal, Regional Program Leader, BISA and CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS), gave suggestions for the way forward and BISA’s future collaborations. He said, “It’s time to strengthen BISA and further expand it to other South Asian countries.”

Arun Joshi, Managing Director, BISA, spoke about the achievements of BISA throughout the last decade and about the establishment of the ‘Farms of the Future’. “BISA farms are equipped with state-of-the-art technology. BISA’s no residue burning, efficient resource management, precision phenotyping, climate resilient germplasm, quality seed and capacity development activities are just a few examples of BISA’s successful programs,” he said.

“BISA has been scaling climate smart agriculture technologies not only in Indian villages but to other countries of South Asia, as well, and has supported African colleagues in capacity development.” Joshi recalled the support provided by numerous funding partners, by ICAR (Government of India), state governments (Punjab, Bihar, Madhya Pradesh, Maharashtra), other governmental institutions, CIMMYT’s Board of Trustees and Management Committee team members and different research programs to strengthen BISA.

BISA Ludhiana team gathers for a celebration — BISA’s Ludhiana team gathers for a celebration

Celebrations galore

In addition to the virtual celebration with the leadership of BISA and CIMMYT, numerous teams scattered across India celebrated the success and fruitful journey of BISA. The teams at BISA farms in Jabalpur (Madhya Pradesh), Pusa (Bihar), and Ludhiana (Punjab) marked the occasion by gathering at a COVID-19-appropriate distance and paid regards to Norman Borlaug and spoke about the objectives and vision of BISA.

The New Delhi team celebrated by garlanding the statue of Borlaug, that stands in front of the office of BISA based at the National Agriculture Science Complex (NASC).

Capturing the decade-long journey

The ten-year journey of BISA is captured in “A Decade of Research in Borlaug Institute for South Asia (BISA) 2011-2021,” a research highlights report that was unveiled during the virtual celebration and that will soon be available online. Arun Joshi explained that the document encapsulates the spirit of BISA and its achievements throughout the last ten years. Its sixteen themes define the work of BISA and its reach across South Asia.

The report also informs of BISA’s outreach activities throughout the last decade and its impact on climate resilient agriculture. Themes such as ‘Managing Rice Residue Burning’, ‘Climate Smart Village Approach’, ‘Precision Phenotyping in Wheat Breeding’, ‘Developing Improved Crop Insurance Products’, ‘Mainstreaming Gender in Climate-Resilient Agriculture’ reveal how BISA scaled up these approaches with its advanced technology mechanisms. In addition, every theme captures information related to funding and research partners.

Overall, the ten-year report is a robust document which showcases how millions of farmers in South Asia have benefitted from the strong scientific partnership of BISA and national programs.

Australia’s High Commissioner to India, Barry O’ Farrell (left), observes the use of drone technology at the BISA experimental station in Ludhiana, India. (Photo: Uttam Kumar/CIMMYT).

Australia’s High Commissioner visits Borlaug Institute for South Asia to witness sustainable intensification of agriculture

Written by Rodrigo Ordóñez on February 5, 2021. Posted in News.

Australia’s High Commissioner to India, Barry O’Farrell, visited the Borlaug Institute for South Asia (BISA) in Ludhiana, India, on January 20, 2021 along with his delegation.

O’Farrell acknowledged the historic role of the International Maize and Wheat Improvement Center (CIMMYT) sharing the seeds of the most recent, climate-resilient, high-yielding, and disease-resistant wheat genotypes. He also appreciated that this work is being continued with even greater vigor by BISA for the benefit of India and the whole of South Asia.

The High Commissioner was happy to note that wheat germplasm is freely shared with public and private sector national partners under constant guidance and collaboration with the Indian Council of Agricultural Research (ICAR) and the Department of Agriculture Research and Education (DARE).

O’Farrell emphasized the strong collaboration between Indian and Australian research institutes. He called for even more cross-learning between scientists and other stakeholders for research, policy and capacity development in the areas of land, water, climatic resilience, environmental sustainability and germplasm enhancement for the benefit of farmers of both countries.

Witnessing science in action

Arun Kumar Joshi, CIMMYT Regional Representative for Asia and Managing Director of BISA, welcomed the group and briefed the visitors on CIMMYT and BISA’s collaboration with ICAR and DARE.

H.S. Sidhu, Principal Research Engineer at BISA, and M.L. Jat, Principal Scientist and Systems Agronomist at CIMMYT, presented the major challenges and research outputs related to climate change, the food-energy-water nexus and the overall agricultural sustainability challenges faced by India.

One of the successful examples of collaboration between Australia and India is the Happy Seeder, which addresses these challenges through conservation agriculture and sustainable intensification. O’Farrell saw the expansive wheat fields sown with the Happy Seeder and was impressed by the technology.

The group also discussed the evidence-based policy changes that have taken place, as well as future strategies for accelerated impact through new approaches, like carbon farming. A detailed discussion took place on climate-smart agriculture research, with a focus on precision water and nutrient management using digital agriculture technologies and their complementarity for boosting Happy Seeder uptake.

The High Commissioner and his delegation also visited the wheat breeding program, where CIMMYT researcher Uttam Kumar explained the development of wheat genotypes — in collaboration with ICAR-DARE and the national agriculture research system — for a range of environments, management conditions, and against various stresses, with the ultimate objective of serving the needs of smallholder farmers.

O’Farrell also appreciated the BISA-designed Phenocart for high-throughput precision phenotyping in wheat improvement. O’Farrell highlighted and appreciated that this season, BISA is conducting the largest wheat breeding trial in South Asia: currently more than 60,000 plots are planted at the BISA station in Ludhiana alone.

Improving rainfed (Kharif) maize productivity

Written by Emma Orchardson on November 6, 2020. Posted in Uncategorized.

India’s maize production area currently covers over 10 million hectares, with an annual production of about 25 million tons. Most of this crop is rainfed and therefore vulnerable to climatic shocks such as monsoon rains and associated abiotic and biotic constraints. Moisture availability is seldom adequate for rainfed maize, as the erratic or un-even distribution patterns of monsoon rains often causes intermittent drought, heat or excessive moisture/waterlogging at different crop growth stage(s). This is the main factor responsible for the relatively low productivity of rainfed maize – locally known as Kharif. Additionally, due to un-assured return, farmers often hesitate to invest in improved seed, fertilizers and inputs, which further contributes to poor yields.

In recent years the country’s tropical regions have experienced frequent and widespread drought, coupled with increased (day and night) temperatures during the main maize growing season, in addition to the scattered drought, heat and/or waterlogging that occur almost every year. The compound effects of multiple stresses during monsoon season is reflected in the low productivity of Kharif maize, which is usually less than half compared to irrigated (Rabi) maize.

In response to this, the “Improving rainfed (Kharif) maize productivity” project was established in collaboration with the All-India Coordinated Maize Improvement Program (AICMIP), with the aim of developing maize varieties with tolerance to drought, heat stress and waterlogging. This can play in important role in enhancing maize productivity in rainfed, stress-prone ecologies, and ultimately help boost national maize productivity and production.

Objectives:

Breed commercially viable, stress-resilient hybrids for rainfed cultivation in stress-prone, dry lowland ecologies;
Implement stress phenotyping for target traits at precision phenotyping sites and take forward selected best-bet, stress-resilient hybrids for large-scale evaluation in target environments through the AICMIP network;
Assess genomic diversity among AICMIP, CIMMYT, and ICAR-IIMR germplasm for abiotic stress tolerance;
Heterotic classification of AICMIP and ICAR-IIMR inbred lines through delineation of combining abilities.

During a conservation agriculture course, a young trainee operates a Happy Seeder mounted on a two-wheel tractor, for direct seeding of wheat in smallholder systems. (Photo: CIMMYT)

Conservation agriculture key in meeting UN Sustainable Development Goals

Written by Alison Doody on April 16, 2020. Posted in Press releases. 2 Comments on Conservation agriculture key in meeting UN Sustainable Development Goals

An international team of scientists has provided a sweeping new analysis of the benefits of conservation agriculture for crop performance, water use efficiency, farmers’ incomes and climate action across a variety of cropping systems and environments in South Asia.

The analysis, published today in Nature Sustainability, is the first of its kind to synthesize existing studies on conservation agriculture in South Asia and allows policy makers to prioritize where and which cropping systems to deploy conservation agriculture techniques. The study uses data from over 9,500 site-year comparisons across South Asia.

According to M.L. Jat, a principal scientist at the International Maize and Wheat Improvement Center (CIMMYT) and first author of the study, conservation agriculture also offers positive contributions to the Sustainable Development Goals of no poverty, zero hunger, good health and wellbeing, climate action and clean water.

“Conservation agriculture is going to be key to meet the United Nations Sustainable Development Goals,” echoed JK Ladha, adjunct professor at the University of California, Davis, and co-author of the study.

Scientists from CIMMYT, the Indian Council of Agricultural Research (ICAR), the University of California, Davis, the International Rice Research Institute (IRRI) and Cornell University looked at a variety of agricultural, economic and environmental performance indicators — including crop yields, water use efficiency, economic return, greenhouse gas emissions and global warming potential — and compared how they correlated with conservation agriculture conditions in smallholder farms and field stations across South Asia.

A combine harvester equipped with the Super SMS (left) harvests rice while a tractor equipped with the Happy Seeder is used for direct seeding of wheat. (Photo: Sonalika Tractors)

Results and impact on policy

Researchers found that many conservation agriculture practices had significant benefits for agricultural, economic and environmental performance indicators, whether implemented separately or together. Zero tillage with residue retention, for example, had a mean yield advantage of around 6%, provided farmers almost 25% more income, and increased water use efficiency by about 13% compared to conventional agricultural practices. This combination of practices also was shown to cut global warming potential by up to 33%.

This comes as good news for national governments in South Asia, which have been actively promoting conservation agriculture to increase crop productivity while conserving natural resources. South Asian agriculture is known as a global “hotspot” for climate vulnerability.

“Smallholder farmers in South Asia will be impacted most by climate change and natural resource degradation,” said Trilochan Mohapatra, Director General of ICAR and Secretary of India’s Department of Agricultural Research and Education (DARE). “Protecting our natural resources for future generations while producing enough quality food to feed everyone is our top priority.”

“ICAR, in collaboration with CIMMYT and other stakeholders, has been working intensively over the past decades to develop and deploy conservation agriculture in India. The country has been very successful in addressing residue burning and air pollution issues using conservation agriculture principles,” he added.

With the region’s population expected to rise to 2.4 billion, demand for cereals is expected to grow by about 43% between 2010 and 2050. This presents a major challenge for food producers who need to produce more while minimizing greenhouse gas emissions and damage to the environment and other natural resources.

“The collaborative effort behind this study epitomizes how researchers, policy-makers, and development practitioners can and should work together to find solutions to the many challenges facing agricultural development, not only in South Asia but worldwide,” said Jon Hellin, leader of the Sustainable Impact Platform at IRRI.

Related publications:

Conservation agriculture for sustainable intensification in South Asia.

Interview opportunities:

M.L. Jat, Principal Scientist and Cropping Systems Agronomist, International Maize and Wheat Improvement Center (CIMMYT)

For more information, or to arrange interviews, contact:

Rodrigo Ordóñez, Communications Manager, CIMMYT. r.ordonez@cgiar.org

Acknowledgements:

Funders of this work include the Indian Council of Agricultural Research (ICAR), the Government of India and the CGIAR Research Programs on Wheat Agri-Food Systems (CRP WHEAT) and Climate Change, Agriculture and Food Security (CCAFS).

About CIMMYT:

The International Maize and Wheat Improvement Center (CIMMYT) is the global leader in publicly-funded maize and wheat research and related farming systems. Headquartered near Mexico City, CIMMYT works with hundreds of partners throughout the developing world to sustainably increase the productivity of maize and wheat cropping systems, thus improving global food security and reducing poverty. CIMMYT is a member of the CGIAR System and leads the CGIAR Research Programs on Maize and Wheat and the Excellence in Breeding Platform. The Center receives support from national governments, foundations, development banks and other public and private agencies. For more information, visit staging.cimmyt.org.

CIMMYT scientist M.L. Jat (third from left) receives the Rafi Ahmed Kidwai Award.

India honors CIMMYT climate-smart farming expert

Written by Mike Listman on July 22, 2019. Posted in News.

The Indian Council of Agricultural Research (ICAR) honored a cropping systems agronomist from the International Maize and Wheat Improvement Center (CIMMYT) with its prestigious Rafi Ahmed Kidwai Award for outstanding and impact-oriented research contributions in natural resource management and agricultural engineering.

M.L. Jat, a native of India and a CIMMYT principal scientist, received the award from Narender Singh Tomar, India’s Union Minister of Agriculture, in New Delhi, as part of ceremonies celebrating ICAR’s 91st Foundation Day on July 16.

The award is given every other year to Indian scientists engaged in research relevant for Indian agriculture. It includes a cash prize of half a million Rupees, about $7,250.

Dedication and achievement making a difference

Jat has worked for more than two decades to benefit farmers and the environment in South Asia’s vast rice-wheat farm belt through the study and promotion of conservation agriculture and better natural resource management practices. These have included reduced or zero-tillage, keeping crop residues on the soil instead of burning or removing them, more precise fertilizer and water use, scale-appropriate mechanization, and the intelligent diversification of crops.

“I’m extremely honored and grateful for this recognition,” said Jat. “With a rising population of 1.6 billion people, South Asia hosts 40% of the world’s poor and malnourished on just 2.4% of its land. Better practices can help farmers adapt to the warmer winters and extreme, erratic weather events such as droughts and floods, which are having a terrible impact.”

The science of Jat and his associates aims to boost the efficiency of use of water, nutrients, and energy, while improving soil health, raising farmers’ profits, and reducing agriculture’s environmental footprint.

Among other contributions, Jat’s efforts have fostered the adoption of precision land levelling for better irrigation and conservation agriculture practices on more than 6 million hectares in India. Research and policy advice by Jat and colleagues helped foster a recent shift in national policy to avoid rice residue burning and mitigate the region’s severe seasonal smog.

Evidence from studies of Jat and co-workers suggests that India could cut nearly 18% of its agricultural greenhouse gas emissions through sustainable and cost-saving farming practices, while helping to achieve the Sustainable Development Goals of reducing poverty and hunger.

Jat has authored or co-authored more than 100 peer-reviewed, widely-cited articles in high impact journals. One recent innovation studied and promoted by Jat and partners involves precision delivery of fertilizer through sub-soil drip irrigation.

“Climate change has complex and local impacts, requiring scalable solutions likewise to be locally-adapted,” explained Jat, who in 2016 received India’s National Academy of Agricultural Sciences fellowship in Natural Resource Management and has been at the forefront of training farmers and young researchers in conservation agriculture and climate-smart practices.

ICAR Foundation Day draws large attendance

The ICAR ceremonies were attended by more than 1,500 stakeholders, including representatives of CGIAR centers and other international agencies; Shri Kailash Choudhary and Shri Purshottam Rupala, Ministers of State for Agriculture and Farmer Welfare; Trilochan Mohapatra, Director General of ICAR and Secretary of India’s Department of Agricultural Research and Education (DARE); along with vice chancellors of state agriculture universities and other senior officers of ICAR, the Ministry of Agriculture, and state governments.

A long-time partner and funder of CIMMYT and one of the world’s largest national agricultural research systems, ICAR is an autonomous organization under DARE in India’s Ministry of Agriculture and Farmers Welfare that encompasses more than 100 institutes and 70 agricultural universities spread across the country.

Borlaug Institute for South Asia (BISA)

Written by Courtney Brantley on April 12, 2019. Posted in Uncategorized.

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 CIMMYT and the Indian Council for Agricultural Research. The objective of BISA is to harness the latest technology in agriculture to improve farm productivity and sustainably meet the demands of the future. BISA is more than an institute. It is a commitment to the people of South Asia, particularly to the farmers, and a concerted effort to catalyze a second Green Revolution.

BISA was established on October 5, 2011, through an agreement between the Government of India (GoI) and CIMMYT and was bolstered by the globally credible name of Nobel Laureate Norman Ernest Borlaug. The institution draws on the decades of experience and success by CIMMYT, the Consultative Group on International Agricultural Research (CGIAR), and a global network of partners in using research to generate tangible benefits for farmers internationally. BISA is supported by a growing number of national stakeholders in South Asia. It is committed to stronger collaborations for accelerated impact, most prominently with the Indian Council of Agricultural Research (ICAR) and the three state governments (Punjab, Bihar, and Madhya Pradesh) where BISA farms are located.

Objectives

Ensure access to the latest in research and technologies that are currently not available in the region
Strategize research aimed at doubling food production in South Asia while using less water, land and energy
Strengthen cutting-edge research that validates and tests new technologies to significantly increase yield potential
Develop technologies for higher productivity in rice, maize and wheat based farming systems
Design research outputs targeted to small and marginal farmers across the region
Build on CIMMYT’s vast germplasm resources, and make research products and know-how developed by BISA freely available to stakeholders
Create a new generation of scientists to work with new technologies through training programs that will retain them in South Asia
Enable researchers to pursue multiple strategies and research possibilities while simultaneously allowing for more meaningful collaboration with national institutions
Build a forum with partners from all sectors – research centers, governments, science community, businesses and farmers – to transform farmers’ lives and improve food security in the region
Develop a policy environment that embraces new technologies and encourages investments in agricultural research
Develop and utilize BISA as a regional platform that focuses on agricultural research in the whole of South Asia

Download the BISA Annual Report 2022.

For more information:

Meenakshi Chandiramani
Office Manager
CIMMYT-BISA
m.chandiramani@cgiar.org

Richa Sharma Puri
Communication Specialist
CIMMYT-BISA
r.puri@cgiar.org