CIMMYT provides a maize doubled haploid (DH) production service at cost to maize breeding programs in Africa, Latin America and Asia at its DH facilities in Kenya, Mexico, and India.
Use of DH lines in maize breeding offers several genetic, economic, and logistical advantages over use of conventional inbred lines. This service reduces the time required to develop homozygous maize lines to 8 to 14 months, instead of three to seven years using more traditional inbreeding methods. DH technology also results in 100% homozygous lines best suitable for selection and breeding, compared to traditional inbreeding with varying levels of heterozygosity.
Reduced time and increased precision in selection help breeders increase their rate of genetic gain, i.e., the rate at which the genetic potential of a crop increases in yield over time.
CIMMYT established centralized DH line production facilities for Africa at KALRO-Kiboko, Kenya. Similar facilities are also in operation for Latin America at CIMMYT’s experimental station in Agua Fría, Mexico and for Asia at Agricultural Research station, Kunigal in collaboration with University of Agricultural Sciences (UAS)-Bangalore. Public and private sector organizations involved in maize breeding can access the DH production service by signing a DH service agreement.
Main building of CIMMYT’s maize doubled haploid facility in Kunigal, Karnataka state, India. (Photo: CIMMYT)
On December 3, 2021, the International Maize and Wheat Improvement Center (CIMMYT) and its partners inaugurated a state-of-the-art maize doubled haploid (DH) facility in Kunigal, in India’s Karnataka state. The facility was established by CIMMYT in partnership with the University of Agricultural Sciences, Bangalore (UAS Bangalore), with financial support from the CGIAR Research Program on Maize (MAIZE).
It is the first public sector facility of its kind in Asia, fulfilling a very important need for maize breeding programs in the region. The facility, operated by CIMMYT, will provide DH production services for CIMMYT’s and UAS Bangalore’s breeding programs, as well as for national agricultural research institutions and small- and medium-sized seed companies engaged in maize breeding across tropical Asia. This is expected to result in accelerated development and deployment of a greater number of elite, climate-resilient and nutritionally-enriched maize hybrids in tropical Asia.
DH technology has the potential to enhance genetic gains and breeding efficiency, especially in combination with other modern tools and technologies, such as molecular markers and genomic selection. The facility occupies 12 acres of land at the Agricultural Research Station in Kunigal, in southwestern India. It is expected to produce at least 25,000-30,000 maize DH lines per year.
R.S. Paroda (center) cuts the ribbon to inaugurate the maize doubled haploid facility in Kunigal, Karnataka state, India. He is flanked by S. Rajendra Prasad (left), vice chancellor of UAS Bangalore and B.M. Prasanna (right), director of CIMMYT’s Global Maize Program and the CGIAR Research Program on Maize. (Photo: CIMMYT)
Fast-track maize breeding in Asia
R.S. Paroda, who is a Padma Bhushan awardee in India and the chairman of the Trust for Advancement of Agricultural Sciences (TAAS) in New Delhi, thanked CIMMYT for its role in developing the facility. “The maize DH facility will revolutionize hybrid maize programs in both the public and private sectors in Asia, enabling fast-tracked development of climate-resilient and genetically diverse maize hybrids suitable for the rainfed maize-growing areas.”
S. Rajendra Prasad, vice chancellor of UAS Bangalore, appreciated the partnership between his institution and CIMMYT. “The facility will create opportunities to modernize maize breeding programs in India, besides serving as an educational and training hub for young students at the University,” he said. Members of UAS Bangalore Board of Management also participated in the formal opening of the facility.
B.M. Prasanna, director of CIMMYT’s Global Maize Program and the CGIAR Research Program on Maize (MAIZE), spearheaded the process of establishing this important breeding facility. “Along with similar maize DH facilities in Mexico and Kenya, which respectively serve Latin America and Africa, this third facility for Asia rounds up CIMMYT’s commitment to strengthen tropical maize breeding programs across the globe,” he explained.
Bram Govaerts, CIMMYT’s director general, participated through a recorded video message.
Attending the ceremony were also 150 post-graduate students, faculty from UAS Bangalore, researchers from UAS Raichur and the Indian Institute of Maize Research, CIMMYT maize scientists, and private-sector members of the International Maize Improvement Consortium for Asia (IMIC-Asia).
R.S. Paroda, chairman of the Trust for Advancement of Agricultural Sciences (TAAS) in New Delhi, unveils the inauguration plaque for the maize doubled haploid facility in Kunigal, Karnataka state, India. (Photo: CIMMYT)
Collaboration networks
A technical workshop titled “Transforming India’s Agriculture and Modernizing Maize Breeding Programs” was held the same day. The workshop featured talks by Paroda on the role of youth in Indian agriculture, Prasanna on modernizing maize breeding and enhancing genetic gain, CIMMYT scientist Vijay Chaikam on maize doubled haploid technology, and CIMMYT breeder Sudha Nair on genomic technologies for maize improvement.
IMIC-Asia held a General Body Meeting soon after the technical workshop, at which B.S. Vivek, maize breeder at CIMMYT, introduced the framework for the third phase of IMIC-Asia. Participants included representatives of the Indian Institute of Maize Research, the All-India Coordinated Maize Improvement Program, and private seed companies with membership in the consortium. Meeting participants expressed a keen interest in utilizing the new doubled haploid facility’s services.
Representatives from CIMMYT and UAS-Bangalore signed the collaboration agreement on February 18, 2019.
KARNAKATA, India (CIMMYT) — The International Maize and Wheat Improvement Center (CIMMYT) and the University of Agricultural Sciences-Bangalore (UAS-Bangalore) have signed a collaboration agreement for establishing a maize doubled haploid (DH) facility at the Agricultural Research Station in Kunigal (ARS-Kunigal), Tumkur district, Karnataka state, India.
CIMMYT will establish and operate the maize DH facility, including field activities and the associated laboratory. Occupying 12 acres of land, the facility is estimated to produce at least 30,000 DH lines a year. CIMMYT hopes the facility to be operational by the last quarter of 2019.
The maize DH facility, funded by the CGIAR Research Program on Maize (MAIZE), fulfills a very important requirement of the region. It has the potential to accelerate maize breeding and hybrid development and significantly increase genetic gains through maize breeding in Asia. During the 13th Asian Maize Conference in Ludhiana, India (October 8-10, 2018), several partners — including the Indian Institute of Maize Research (ICAR-IIMR) — emphasized the urgent need for a state-of-the-art maize DH facility that could serve breeding programs across Asia.
“This is indeed a major landmark for maize breeding, especially in the public sector, not only in India, but also in Asia,” said B.M. Prasanna, Director of CIMMYT’s Global Maize Program and the CGIAR Research Program on Maize (MAIZE). “The facility will provide maize DH development services, not only for the maize breeding programs of CIMMYT and UAS-B, but also for national agricultural research system institutions and small and medium-sized seed companies engaged in maize breeding and interested to pursue DH-based advanced maize breeding strategies in Asia. DH technology, in combination with molecular marker-assisted breeding, can significantly increase genetic gains in maize breeding.”
“The maize doubled haploid facility … will be the first of its kind in the public domain in Asia,” said S. Rajendra Prasad, Vice Chancellor of UAS-Bangalore. “The work done at this facility will certainly benefit the farmers of the state, country and the Asian region, by accelerating maize breeding and improving efficiencies.”
The signing of the collaboration agreement took place on February 18, 2019 at UAS-Bangalore’s campus in Bengaluru. CIMMYT was represented by B.M. Prasanna and BS Vivek, Senior Maize Breeder. UAS-Bangalore was represented by S. Rajendra Prasad; Mahabaleshwar Hegde, Registrar, and Y.G. Shadakshari, Director of Research.
The benefits of doubled haploid technology
DH maize lines are highly uniform, genetically pure and stable, and enable significant saving of time and resources in deriving parental lines, which are building blocks of improved maize hybrids.
Over the last 12 years, CIMMYT has worked intensively on optimizing DH technology for the tropics. Researchers released first-generation tropicalized haploid inducers in 2012, and second-generation tropicalized haploid inducers in 2017, in partnership with the University of Hohenheim, Germany. In 2017, CIMMYT developed more than 93,000 maize DH lines from 455 populations, and delivered them to maize breeders in Africa, Asia and Latin America.
INTERVIEW OPPORTUNITIES:
B.M. Prasanna – Director of CIMMYT’s Global Maize Program and the CGIAR Research Program on Maize (MAIZE).
FOR MORE INFORMATION, CONTACT THE MEDIA TEAM:
Jennifer Johnson – Maize Communication Officer, CIMMYT. J.A.JOHNSON@cgiar.org, +52 (55) 5804 2004 ext. 1036.
