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Not all maize makes good tortillas

Tortilla dough industry partners evaluating nixtamalized kernels during the workshop “From empirical knowledge to technical tools.” Photo: Natalia Palacios/CIMMYT.
Tortilla dough industry partners evaluating nixtamalized kernels during the workshop “From empirical knowledge to technical tools.” Photo: Natalia Palacios/CIMMYT.

With more than 600 food products derived from maize, Mexico is the fifth largest maize consumer globally, and the only country where more than 70% of the maize produced is used for direct human consumption. Farmers in Mexico grow maize mainly for home consumption, the nixtamalized flour industry, and the tortilla dough industry. The product’s end-use quality is greatly determined by the quality of the maize grain. Therefore, for the Mexican market, as well as for processors and consumers, grain quality is crucial.

Since the beginning of MasAgro, special emphasis has been placed on monitoring the quality of improved maize varieties to ensure that they meet the needs of Mexico’s traditional and industrial nixtamalization processes. Continuous exchanges of scientists with millers and tortilla dough entrepreneurs have been crucial for developing robust and cost-efficient analytical methods that different actors in the maize value chain can use to monitor grain quality. Offering analytical tools to the tortilla dough industry so it can move from empirical to analytical knowledge will help to optimize and professionalize its business.

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SIMLESA review finds many successes and major challenges

Farmers selecting pigeon pea varieties at Msingisi village, Gairo district, through SIMLESA. Photo: CGIAR Research Program on Grain Legumes

On 16-31 October 2015, the Sustainable Intensification of Maize and Legume Systems for Food Security in Eastern and Southern Africa (SIMLESA) project undertook a two-week long Mid-Term Review (MTR) of its agricultural research and development activities on station and on farm. SIMLESA undertook this review to assess project performance and recommend actions to refine activities. The last MTR was carried out in 2012.

To wrap up the review, a two-day meeting was held with the participation of 40 people, including representatives from the Australian Centre for International Agricultural Research (ACIAR), Queensland Alliance for Agriculture and Food Innovation, the International Center for Tropical Agriculture (CIAT), the International Livestock Research Institute (ILRI), the national agricultural research systems (NARS) of Ethiopia, Malawi, Mozambique, Kenya, and Tanzania, and CIMMYT scientists from Ethiopia, Kenya, and Zimbabwe.

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Maintaining a diverse landscape in maize- and wheat-based systems to ensure a nutritious diet

Increasing wheat and maize yields in Arsi Negele (southern Ethiopia) is not enough to guarantee a nutritious diet, but maintaining a diverse landscape appears critical. Photo: F. Baudron
Increasing wheat and maize yields in Arsi Negele (southern Ethiopia) is not enough to guarantee a nutritious diet, but maintaining a diverse landscape appears critical. Photo: F. Baudron

Arsi Negele, in southern Ethiopia, is a paradox: local farmers are blessed with good soils, good and reliable rainfall, relatively large farms, and good market connections, but the local hospital in Gambo admits, on average, one child per day suffering from acute malnutrition (kwashiorkor and marasmus). The main cause? A grain-based diet that lacks proteins, vitamins, and other micronutrients. Biofortified maize and wheat that include some of these missing elements could help. But diet diversification is probably the real answer.

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Agriculture ministers support policies to achieve Africa’s growth potential

Participants in the SIMLESA high level policy forum in Entebbe, Uganda. Photo: Johnson Siamachira/CIMMYT
Participants in the SIMLESA high level policy forum in Entebbe, Uganda.
Photo: Johnson Siamachira/CIMMYT

East and Southern African countries need to formulate and implement appropriate policies to help smallholder farmers access technologies that will enable them to increase farm yields and improve crop resilience and nutrition to address poverty, food security, and economic growth, renowned Zimbabwean agricultural economist and academic Mandivamba Rukuni told a high-level policy forum.

Delivering the keynote address at the SIMLESA policy forum co-organized by CIMMYT and the Association for Strengthening Agricultural Research in Eastern and Central Africa (ASARECA) in Entebbe, Uganda, on 27–28 October, Rukuni said this can only be achieved through a dramatic shift to help smallholder farmers produce sufficient food for themselves, plus generate income. “Such technologies include improved seed varieties and fertilizers, and better infrastructure, such as roads and small-scale irrigation,’’ said Rukuni. SIMLESA is funded by the Australian Centre for International Agricultural Research (ACIAR) and implemented by CIMMYT.

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XXI Latin American Maize Meeting

Bolivia’s National Agricultural, Livestock and Forestry Innovation Institute (INIAF) and the CIMMYT-Colombia office organized the XXI Latin American Maize Meeting (XXIRLM) held in Santa Cruz de la Sierra, Bolivia, on 29-31 October 2015.

The meeting was organized within the agricultural innovation framework around four themes: genetic resources and biotechnology, genetic improvement, special and biofortified maize, and climate change and sustainable agricultural intensification. An expert gave a lecture on each one of the themes, followed by presentations by representatives of the participating institutions, which were reinforced by previously selected posters.

Bolivia has 11 million inhabitants and is self-sufficient in maize, producing 1.1 million tons on 430,000 ha each year. However, maize production could increase sustainably through the use of technologies such as improved seed and adequate crop management practices, including crop rotations (for example, with soybean on the 1.2 million ha sown to this crop). The goal of the XXIRLM was to discuss these and other subjects.

Johnny Cordero, Vice Minister of Rural Development and Lands, opened the meeting, which was attended by Carlos Osinaga, INIAF Director General, and Tito Claure, Coordinator of INIAF’s Maize Program. Juan Rissi, IICA representative in Bolivia, gave the first talk and said that in this age of productivity and competition, innovation is at the core of the agricultural sector’s tasks. Countries should therefore significantly increase their investment in research and development, strengthen the INIAs, and develop regional integration mechanisms to include INIAs, universities, research centers, the private sector, and farmer associations.

In the area of genetic resources, Terrance Molnar, CIMMYT, said that CIMMYT holds the world’s largest collection of maize genetic resources, with more than 27,000 accessions, whose potential is currently being assessed through the Seeds of Discovery project with the aim of providing genetic resources, knowledge, and tools that maize networks can use to accelerate the development of improved varieties that tolerate climate change and contribute to food security and sustainability. Four key objectives now being targeted are: drought tolerance, resistance to tar spot (Phyllachora maydis), resistance to maize lethal necrosis, and developing blue maize germplasm. Álvaro Otondo, INIAF Bolivia, mentioned that the area comprising northwestern Argentina and southwestern Bolivia has been proposed as a possible center of origin of maize based on ceramic artifacts found there that date from 7500-6200 BC.

Researchers at La Molina University evaluated 335 highland maize accessions from Peru’s central highlands and classified them into 22 races. The criteria that best differentiated these accessions were related to the crop’s vegetative stage and yield components. Researchers at CIF Pairumani, Bolivia, talked about the valuable experience they’ve had educating young students on genetic resource conservation using storytelling and the game of dominoes.

Ricardo Sevilla from La Molina University, Peru, proposed forming bulks of maize races using native germplasm and, when necessary, introductions. These bulks are later improved using recurrent selection to increase the frequency of favorable alleles of genes conferring adaptive traits, which are usually present in low numbers in native varieties. Selection gains of 5-10% have been achieved using this approach, depending on the selection criteria and the method used (half sibs, full sibs, self-pollinated families). In the area of biotechnology, researchers from the Universidad Mayor de San Simón and CIF Pairumani indicated they’re using new tools such as molecular markers, genomics, and another culture to develop haploids of some maize populations.

Luis Narro from CIMMYT and Sidney Parentony from EMBRAPA reviewed the history of maize breeding and came to the conclusion that breeding methods should exploit heterosis through the development of simple hybrids whose seed should be accessible to farmers at the right time, in places where they are needed, at a fair price. Hybrid seed use varies greatly in South American countries where double, triple, and simple hybrids are sown. For example, the area sown to hybrid seed covers more than 90% of the maize area in Argentina and Venezuela, 80% in Bolivia, and less than 50% in Colombia.

In Andean countries such as Bolivia, Ecuador, and Peru, farmers plant hybrid seed only of tropical maize (called hard yellow maize) (its use is above 80%). As for the Andean highland maize that is sown at altitudes above 2500 masl, the area sown to hybrid maize is zero, since all of the area is sown to open-pollinated varieties.

The convenience of using new technologies such as molecular markers, genomics, and doubled haploids to accelerate breeding progress was discussed. Molecular markers, genomics, and doubled haploids are being implemented in Argentina and Brazil, and doubled haploids are being produced in Chile. Other countries in the region such as Bolivia and Ecuador are interested in these technologies and have working agreements with CIMMYT.

Talks on genetic improvement were given by representatives from Bolivia, Colombia, and Ecuador, who said that new yellow maize hybrids with at least one CIMMYT parent have been released in their countries. In the case of Andean highland maize, ongoing work in Bolivia aims to increase maize productivity and incorporate resistance to ear rot into “cusco” type maize.

In the area of special and biofortified maize, CIMMYT researchers FĂ©lix San Vicente and Aldo Rosales highlighted the importance of maize varieties that are biofortified with provitamin A and high zinc content. They also reported CIMMYT’s progress in developing and releasing germplasm with high zinc, provitamin A, lysine, and tryptophan contents. They stressed the need to avoid grain losses due to poor storage and maintain the quality of products made from biofortified maize until they reach the consumer. High protein quality hybrids have been released in Bolivia and Ecuador in the past two years, and INTA Argentina is studying the nutritional quality of local maize.

In the area of special maize, representatives from Bolivia, Ecuador, and Peru presented their work on “purple maize,” a type of maize with high anthocyanin content in the grain, cob, and stalk, whose nutraceutical properties are due to powerful antioxidants that help control obesity, diabetes, and high blood pressure, as well as prevent colon cancer and other diseases. Consumption of soft drinks, cookies, and desserts made from this type of maize has increased greatly in countries such as Peru. This type of maize is only grown by smallholder farmers; therefore, linking the purple maize production system to the food industry would be an excellent means of improving the livelihoods of thousands of smallholder farmers who live in the poorest areas where this and other types of special maize are sown.

In the area of climate change and sustainable agricultural intensification, Kai Sonder from CIMMYT described changes in the weather at both the global and regional levels and highlighted the need to develop new varieties that tolerate multiple biotic and abiotic stresses. He also said it is necessary to set up networks that include germplasm evaluation and crop management practices adapted to farmers’ work environments and social conditions and promote sustainable agriculture, including precision agriculture, which means doing the right thing in the right place at the right time. Researchers from INTA Argentina and INIA Peru provided information on conservation agriculture and emphasized pest control, mechanization based on farm size and the type of crop, and recommendations on post-harvest management of maize grain. Argemiro Moreno did a field demonstration of the benefits of using the GreenSeeker to make more efficient use of nitrogen.

During the XXIRLM, replicas of an ear of maize of the “cusco” type were presented to outstanding maize researchers such as Gonzalo Ávila and Tito Claure from Bolivia, and Ricardo Sevilla from Peru. Finally, JosĂ© Luis Zambrano, INIAP Ecuador, announced that the XXIIRLM will be held next year in Ecuador. The XXRLM was held last year in Lima, Peru.

The meeting was attended by representatives of national and international seed companies, NGOs, local governments, an agricultural bank, Bolivian universities such as Francisco Xavier University in Chuquisaca, Gabriel RenĂ© Moreno de Santa Cruz University, Universidad Mayor de San SimĂłn in Cochabamba, Peru’s La Molina National Agricultural University, national research centers such as INTA-Argentina, INIAF-Bolivia, EMBRAPA-Brazil, CORPOICA-Colombia, INIAP-Ecuador, INIA-Peru, and international research organizations such as IICA, JAICA from Japan, KOPIA from Korea, CIAT, and CIMMYT.

WPEP helps farmers produce wheat seed for a food-secure future

Wheat seed distribution in Nankana-Sahib, Punjab province. Photo: Monsif ur Rehman/CIMMYT Pakistan
Wheat seed distribution in Nankana-Sahib, Punjab province.
Photo: Monsif ur Rehman/CIMMYT Pakistan

As part of seed multiplication and distribution, an objective of the Wheat Productivity and Enhancement Program (WPEP), CIMMYT-Pakistan distributed quality wheat seed free of charge to smallholder farmers in Punjab province with the aim of replacing outdated, susceptible wheat varieties.

A distribution ceremony was held at the Wheat Research Institute (WRI) Faisalabad on 3 November 2015. The event was attended by Makhdoom Hussain, WRI-Faisalabad Director, and M. Imtiaz, CIMMYT Country Representative.

In the third round of wheat seed distribution by WPEP, each of 40 farmers received 25 kg of seed of PAKISTAN-2013 and NARC-2011, wheat varieties derived from CIMMYT germplasm that are resistant to rust (especially Ug99).

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Cereal Systems Initiative for South Asia enters Phase III: focus on scalability and strategic partnerships

In eastern India, CSISA increased adoption of early sowing of wheat and zero tillage by demonstrating the benefits in farmers’ fields. Photo: Vinaynath Reddy.
In eastern India, CSISA increased adoption of early sowing of wheat and zero tillage by demonstrating the benefits in farmers’ fields. Photo: Vinaynath Reddy.

Growth rates of staple crop yields in South Asia are insufficient to meet the region’s projected demands. Forty percent of the world’s poor live in South Asia, and the area comprising eastern India, Bangladesh, and Nepal has the world’s largest concentration of impoverished and food insecure people. At the same time, resource degradation, declining labor availability, and climate change (frequent droughts and rising temperatures) pose considerable threats to farming system productivity and rural livelihoods. By 2050, 30% of South Asia’s wheat crop is likely to be lost due to higher temperatures, experts say.

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CIMMYT is recognized for its role in strengthening Malawi’s maize seed system

Kennedy Lweya, Seed Business Development Specialist for East and Southern Africa, receives an award on behalf of CIMMYT during the Seed Trade Association of Malawi Congress and Expo. Photo: CIMMYT
Kennedy Lweya, Seed Business Development Specialist for East and Southern Africa, receives an award on behalf of CIMMYT during the Seed Trade Association of Malawi Congress and Expo. Photo: CIMMYT

CIMMYT recently received an award in recognition of its efforts and contributions towards developing and strengthening Malawi’s maize seed system. Kennedy Lweya, Seed Business Development Specialist for East and Southern Africa, received the award on behalf of CIMMYT, during the Seed Trade Association of Malawi Congress and Expo––the first of its kind––held on 22–23 October 2015 at the Bingu International Conference Centre in Lilongwe.

Many of these accomplishments have been achieved through the Drought Tolerant Maize for Africa (DTMA) project, which has helped farmers withstand the effects of a drought that continues to affect millions of smallholders who depend on maize as their staple food.

Upon receiving the award, Lweya noted, “This signifies recognition of tremendous work undertaken by CIMMYT scientists globally and in Malawi, in particular, to improve maize systems. More importantly, the award is an endorsement of the value that public-private partnerships bring in improving livelihoods and food security in the developing world.”

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Paula Kantor Award nominees must show gender research success in India

A farmer at work weeding in a maize field close to the Pusa site of the Borlaug Institute for South Asia (BISA), in the Indian state of Bihar. CIMMYT/M. DeFreese
A farmer at work weeding in a maize field close to the Pusa site of the Borlaug Institute for South Asia (BISA), in the Indian state of Bihar. CIMMYT/M. DeFreese

EL BATAN, Mexico (CIMMYT) — A new award recognizes contributions to the livelihoods and economic empowerment of women made by a former giant in the field of international gender research.

The inaugural Paula Kantor Award for Excellence in Field Research, to be given to a young female researcher of Indian origin, aims to recognize outstanding achievements in the field of gender and empowerment of women and girls in India.

Kantor, a gender and development specialist working with the International Maize and Wheat Improvement Center (CIMMYT), died tragically on May 13 at age 46, in the aftermath of a Taliban attack on a hotel in Kabul, Afghanistan.

She formerly worked as senior rural development specialist at the International Center for Research on Women (ICRW). The non-profit organization initiated the award to acknowledge Kantor’s 20 years of experience in executing policy research and programmatic work related to integrating gender into agriculture and rural development.

“Dr Kantor’s work was largely driven by her desire and passion to improve lives in the global south, especially those of women and girls,” ICRW said in a statement issued to solicit nominations.

“She was a prolific researcher who participated in and worked with several initiatives to better the lives and improve livelihoods for women in conflict-prone and terrorist-affected areas.”

The award will be presented to the winner at the ICRW’s 40th anniversary celebrations in New Delhi, India in January. In subsequent years, the award will be open to researchers of all origins and honor research throughout the developing world, the statement said, adding that nominations must be received by December 7.

At the time of her death, she was working on a new CIMMYT research project focused on understanding the role of gender in the livelihoods of people in major wheat-growing areas of Afghanistan, Ethiopia and Pakistan.

“Paula’s death was a massive blow to the entire development community,” said Martin Kropff, director general at CIMMYT. “Through her work she was helping to lift up a segment of the global population facing major threats to food security and gender equality. This award serves to recognize the major role she was playing to help empower men and women to determine their own future.”

Although women play a crucial role in farming and food production, they often face greater constraints in agricultural production than men. Rural women are less likely than men to own land or livestock, adopt new technologies, access credit, financial services, or receive education or extension advice, according to the U.N. Food and Agriculture Organization (FAO).

Globally, if women had the same access to agricultural production resources as men, they could increase crop yields by up to 30 percent, which would raise total agricultural output in developing countries by as much as 4 percent, reducing the number of hungry people by up to 150 million or 17 percent, FAO statistics show.

For more information on how to nominate candidates for the award, please visit the ICRW website

Supporting sustainable and scalable changes in cereal systems in South Asia

Srikanth Kolari/CIMMYT
Srikanth Kolari/CIMMYT

The rates of growth of staple crop yields in South Asia are insufficient to meet the projected demands in the region. With 40 percent of the world’s poor living in South Asia, the area composed of eastern India, Bangladesh and Nepal has the largest concentration of impoverished and food insecure people worldwide. At the same time, issues of resource degradation, declining labor availability and climate change (frequent droughts and rising temperatures) pose considerable threats to increasing the productivity of farming systems and rural livelihoods. Thirty percent of South Asia’s wheat crop is likely to be lost due to higher temperatures by 2050, experts say.

“These ecologies are regionally important for several reasons,” said Andrew McDonald, Project Leader, Cereal Systems Initiative for South Asia, CIMMYT. “First, they have a higher density of rural poverty and food insecurity than any other region. Second, yield gaps for cereal staples are higher here than elsewhere in South Asia – highlighting the significant growth potential in agriculture.”

According to McDonald, there has been some successes due to increased investment and focus on intensification in these areas over the past 10 years. A CIMMYT-led initiative, the Cereal Systems Initiative for South Asia (CSISA) has contributed to major outcomes such as rapid uptake of early-planted wheat, the use of zero-tillage seed drills and long-duration, high-yielding wheat varieties in eastern India.

CSISA, in close collaboration with national partners, has been working in this region since 2009 to sustainably enhance the productivity of cereal-based cropping systems, as well as to improve the livelihoods of millions of smallholder farmers.

“Climate-resilient practices are gaining confidence in the areas we are working. More than 500,000 farmers adopted components of the early rice-wheat cropping system in Bihar and eastern Uttar Pradesh last year,” said R.K. Malik, Senior Agronomist, CIMMYT. “Early sowing can protect the crop from late-season heat damage and increase yields. It’s a non-cash input that even smallholders can benefit from and is one of the most important adaptations to climate change in this region.”

To increase the spread of these innovations and increase farmers’ access to modern farming technologies, CSISA is working to strengthen the network of service providers.

“This region has a large number of smallholder farmers and ownership of machines by smallholders is often not economically viable,” highlighted Malik. “In Indian states of Bihar, Odisha and eastern Uttar Pradesh, CSISA has facilitated more than 2,100 progressive farmers to become local entrepreneurs through relevant skills, information and training during the last three years.”

The U.S. Agency for International Development and the Bill & Melinda Gates Foundation have recently approved Phase III of CSISA, running from December 2015 to November 2020. Building on the momentum and achievements of Phase I and II, Phase III will work to scale up innovations, strengthen local capacity and expand markets to support the widespread adoption of climate-resilient agricultural technologies in partnership with the national and developmental partners and key private sector actors.

“CSISA has made its mark as a ‘big tent’ initiative that closes gaps between research and delivery, and takes a systems approach that will continue to be leveraged in Phase III through strategic partnerships with national agricultural systems, extension systems and agricultural departments and with civil society and the private sector,” said McDonald.

Implemented jointly with International Rice Research Institute and International Food Policy Research Institute, the main four outcomes of Phase III focus on technology scaling, mainstreaming innovation into national systems, development of research-based products and reforming policies for faster technology adoption.

Photo Feature: Major Impacts of CSISA

Kenyan delegation visits CIMMYT for collaboration on nixtamalization

Sicily Kariuki presses a perfect tortilla. Photo: Sam Storr/CIMMYT
Sicily Kariuki presses a perfect tortilla. Photo: Sam Storr/CIMMYT

On Thursday, 5 November, a delegation of Kenyan scientists and government officials visited CIMMYT, concluding a fact-finding mission to see if Mexico can help Kenya to find new, and safer, ways to eat maize.

Leading the delegation was Sicily Kariuki, principal secretary of Kenya’s Ministry of Agriculture, Livestock, and Fisheries. “Our objective is to meet with experts who face common challenges in the area of agriculture, in particular, maize, safety, and specifically nixtamalization,” she said.

CIMMYT and INIFAP have been developing a project to improve the traditional process of maize nixtamalization and show that it can dramatically reduce contamination by harmful aflatoxins. At the invitation of Mexico’s Ambassador to Kenya, Erasmo R. Martínez, CIMMYT and Kenya are now exploring the potential for Mexican technologies to improve food security in Kenya.

Maize is the main staple food in Kenya, but the supply chain remains vulnerable to aflatoxin contamination caused by fungal infections. The United Nations Food and Agriculture Organization (FAO) estimates that 25% of global food production is affected by mycotoxins (aflatoxin is a type of mycotoxin), and this contamination is thought to cost Africa US $670 million in lost exports to the European Union alone.

From L-R: Yabesh Monari, Natalia Palacios, Peter Mwangi Njugana, Kevin Pixley, Johnson Irungu, Charles Bett, Martin Kropff, Hans Braun, Sicily Kariuki and Ana Laura Ayala. Photo: CIMMYT
From L-R: Yabesh Monari, Natalia Palacios, Peter Mwangi Njugana, Kevin Pixley, Johnson Irungu, Charles Bett, Martin Kropff, Hans Braun, Sicily Kariuki and Ana Laura Ayala. Photo: CIMMYT

Sicily Kariuki was joined by CIMMYT’s Natalia Palacios and representatives from the Unga Ltd & Chairman Millers Association in Kenya, the Kenya Agriculture and Livestock Research Organization (KALRO), Mexico’s National Institute of Forestry, Agriculture, and Livestock Research (INIFAP), and the Mexican Agency for Development Cooperation (AMEXCID).

The visiting delegation observed the process of nixtamalization at an INIFAP experiment station, visited a tortilla maker, and even tried their hands at making tortillas themselves.

Charles Bett, senior research officer at KALRO Katumani, believes that Mexican methods of eating maize could soon catch on in Kenya. “Right now wheat chapattis are very popular, but as they are expensive they are only for celebrations,” he explained. The next big thing could well be a Mexican taco.

Project Manager

The International Maize and Wheat Improvement Center, known by its Spanish acronym, CIMMYTÂź, is a not-for-profit research and training organization with partners in over 100 countries. Please refer to our website for more information:staging.cimmyt.org

 

We are seeking a dynamic, self-motivated, and service-oriented professional for the position of Project Manager in the Sustainable Intensification Program (SIP).

 

The position will be based at CIMMYT’s Main Campus, located in Texcoco, State of Mexico ( 45 km northeast of Mexico City, Mexico), but will interact with all CIMMYT’s experimental stations and regional offices on a regular basis.

Specific duties:

Perform all project management activities related to planning and design, execution, monitoring/controlling and closing of projects as required.

 

  • Monitor and report on a birdÂŽs-eye view perspective on utilization of budget and commitments to facilitate informed decision making of the project leader.
  • Define strategic planning, procedures, execution, monitoring, control and closing stages of the project.
  • Set and monitor appropriate and measurable performance indicators and targets for different stakeholders.
  • Ensure effective deployment of internal and external resources.
  • Monitor and evaluate human and financial aspects of performance and facilitate performance management and appraisals.
  • Integrate the project reporting, monitoring and evaluation needs into the existing institutional processes and functions.
  • Compile and submit reports on new proposals and technical reports for review in collaboration with team members.
  • Provide administrative and financial follow up of the project and its progress.
  • Coordinate activities and deliverables by scheduling work assignments, setting priorities, and directing the work of project coordination unit.
  • Review and reconcile financial and technical reports.
  • Ensure effective reporting to donors: new proposals, technical and financial reports.
  • Execute subcontracts ensuring full compliance to established policy and process.
  • Close out projects including knowledge capture and lessons learned.
  • Organize project workshops and follow-up on decisions related to Project.
  • Ensure institutional integration through Program Director and Knowledge Manager.
  • Guarantee optimal stakeholder management.
  • Oversee the procurement and management of assets, inventory and other resources.
  • Perform other duties as directed by supervisor.

 

Required academic qualifications, skills and attitudes:

Essential:

  • Master’s Degree in Business Administration, Public Administration, or BBA in Project Management or similar field.
  • Minimum 8 years’ progressive experience in a corporate & non-profit environment.
  • Minimum 5 years’ experience in project management and budget management.
  • Proficiency in English, with excellent written / oral communication, presentation, and negotiation skills.
  • Proficiency in MS Office suite and advanced internet skills.
  • High level of cultural sensitivity.
  • Effective team leadership and high level of responsibility and discretion.
  • Ability to work well under pressure as part of a multidisciplinary and multicultural team.

Desirable:

  • ERP experience and knowledge of Project Management Software (e.g., MS Project); PMP Certification (or similar).
  • Experience in proposal development.
  • Familiarity with SharePoint software.

 

CIMMYT offers an attractive remuneration package and support for continuous professional development. In addition to the provisions of the Mexican Labor Law our package of benefits includes Year-end Bonus (40 days), Vacation Premium (56%), Life Insurance and Medical Insurance, Supermarket Coupons, Savings Fund, Social Mexican Benefits (IMSS, SAR / Infonavit).

Candidates must apply online to M15265 Project Manager no later than Thursday, 12 November 2015.

For further information on the selection process, please contact Ricardo Pérez (r.perez@cgiar.org).

Please note that only short-listed candidates will be contacted. Foreign national candidates must have legal documents to work in Mexico.

Kew visits CIMMYT

Bibiana Espinosa showing CIMMYT’s genetic collection. Photo: Marcelo Ortiz/CIMMYT
Bibiana Espinosa showing CIMMYT’s genetic collection. Photo: Marcelo Ortiz/CIMMYT

Kew is a world-leading botanical and mycological research institution. At Kew there are over 300 scientists, working on the latest scientific developments in plant and fungal research.

On 20 October, Kew’s Director of Science Kathy Willis, Senior Research Leader on Diversity & Livelihoods Tiziana Ulian, and Director of Development Alison Purvis, along with Patricia Dávila, Director of FESI-UNAM, visited CIMMYT Headquarters to discuss possible joint programs between CIMMYT and Kew. The visit also included presentations on CIMMYT and Kew by Marianne Banziger, CIMMYT Deputy Director General, and Willis, as well as a tour of the Wellhausen-Anderson Plant Genetic Resources Center given by Bibiana Espinosa, Principal Research Assistant.  

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Small farmers sow maize with a push row planter in Khyber Pukhtunkhwa Province, Pakistan

Farmer Jalees Ahmed planting maize with a push row planter in Nowshera, Pakistan. Photo: Ansaar Ahmed
Farmer Jalees Ahmed planting maize with a push row planter in Nowshera, Pakistan. Photo: Ansaar Ahmed

In Pakistan, maize is planted on 0.97 million hectares, of which 0.42 million are located in the province of Khyber Pakhtunkhwa (KP). The maize crop in KP is sown predominantly by hand and farmers practice a variety of methods such as broadcast and line sowing. Small farmers broadcast the maize seed and then do a shallow cultivation; however, seed is wasted with this method.

Maize is also line-planted, which involves placing rope or string lengthwise with marks at specific distances. The maize seed is then planted with a hoe in what is known as the Thapa method, which is very labor intensive.

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New paths ahead for agricultural research

CIMMYT contributions are present in more than 26% of all major wheat varieties in China after 2000, according to a 2014 study by the Center for Chinese Agricultural Policy (CCAP) of the Chinese Academy of Science. (Photo: CIMMYT)
CIMMYT contributions are present in more than 26% of all major wheat varieties in China after 2000, according to a 2014 study by the Center for Chinese Agricultural Policy (CCAP) of the Chinese Academy of Science. (Photo: CIMMYT)

Since joining CIMMYT in June 2015, I’ve had the opportunity to learn first-hand the impact of its work around the world, and the appreciation for our work among our peers, partners, and friends.

For example, in China, three decades of partnership with CIMMYT have added $ 3.4 billion to wheat output, and Australia, a donor country, has benefited to the tune of A$ 30 million per year on an in-vestment in CIMMYT of just A$ 1 million. A recent study found that around $33 million invested in CGIAR wheat breeding yields $2-5 billion worldwide. When the devastating maize lethal necrosis disease broke out in eastern Africa in 2011, CIMMYT led a response to get resistant varieties in farmers’ fields within just four years.

Even from such few examples, it is clear that wherever CIMMYT is involved, we have a valuable and unique contribution to make.

There are many challenges to be addressed in the world, from insecurity and population movements to our changing climate. Fundamental to most is the issue of how we practice agriculture to sustainably feed the world, and maize and wheat rank among the most important crops for food security, responsible for 25% of global protein and calorie consumption. What is needed is sustained and increased investment in agricultural research, and organizations such as CIMMYT and its partners to carry it out.

The recently-adopted sustainable development goals respond to this need. Among them are the objectives of ending malnutrition by 2030, doubling the productivity and incomes of small-scale producers, especially women, introducing sustainable and resilient agricultural practices, and ensuring access to the world’s treasure of genetic diversity.

There is a clear consensus between CIMMYT’s work and global priorities identified at the highest level; the question is how we can use our partnerships to effectively mobilize resources in pursuit of these goals.

Traditional donors are rightly concerned about aid dependency, leading a call to move from aid to trade. In practice, this means working more closely with the agrifood sector to ensure that consumers always enjoy access to affordable, appropriate, safe, and nutritious food.
Another answer is that many of the poor no longer live in poor countries. Emerging economies are increasingly important partners in their own development, and in the development of other nations in similar circumstances.

Finally, there is always value in greater coordination and collaboration with new partners. Many development NGOs make extensive use of agricultural research, but too few are closely involved in it.

Agricultural research must be responsive to the needs of society, and can only be scaled out and sus-tained by governments, the private sector, and NGOs. Nonetheless, core funding for agricultural research is essential to the impacts it generates. Funding organizations themselves enable the employment of the brightest minds, development of effective institutional capacities, and the flexibility to engage in overlooked but essential research priorities.

In 2016, CIMMYT will celebrate its 50th anniversary. Fifty years of impact felt in farmers’ fields around the world, of continually expanding our research portfolio and collaboration with partners so that, to-day, CIMMYT is more prepared than ever before to respond to global needs. But it is not enough. New business models, strategies, and partnerships are needed for agricultural research to fulfill its promise to the world. The upcoming CIMMYT strategy for 2016-2030 will set out a framework for our future.