Tag: training

DES MOINES, Iowa (CIMMYT) — In her youth, Tunisian Manel Othmeni developed an interest in interacting with plants, a fascination that later grew into a passion for wheat research.

Now, with the help of the Borlaug Training Foundation and Monsanto’s Beachell-Borlaug International Scholars Program, Othmeni is a doctoral student studying abroad with Ian and Julie King, two top global wheat scientists, at Britain’s University of Nottingham.

“If not for the training funds, I wouldn’t be here today,” said Othmeni on the sidelines of the World Food Prize Borlaug Dialogue conference in Des Moines, Iowa.

“Nowadays a Ph.D. costs a lot of money – the training gives more chances to people from developing countries.”

The Borlaug Training Foundation is an independent, non-profit foundation educating scientists from developing countries to improve food production in vulnerable areas. In the short term, the foundation aims to raise $800,000 to support global training at the International Maize and Wheat Improvement Center (CIMMYT). In the long term, the goal is to raise a $30 million endowment to expand training opportunities to other crops.

“We need to provide hope for eliminating poverty – no child should ever have to go to bed hungry,” said Jeanie Borlaug-Laube, vice president of the foundation and the daughter of the late wheat breeder and Nobel Peace Prize laureate Norman Borlaug.

Scientist Borlaug, who died in 2009 at age 95, led efforts in the mid-20^th century to develop high-yielding, disease resistant, semi-dwarf wheat varieties that helped save more than 1 billion lives in Pakistan, India and other areas of the developing world.

“You are the ones who must continue my father’s legacy,” Borlaug-Laube said in an address to conference delegates. “Harness biotechnology, but don’t abandon traditional techniques.”

The foundation also aims to boost training for women scientists, develop partnerships between research institutions and universities in developed nations, provide mentorship opportunities. Wheat studies will focus on plant breeding, genetics, biotechnology, plant pathology, plant physiology and statistics.

“Going out in the field and sweating is one of the best things you can do,” said Jesse Dubin, a plant pathologist who was hired by Borlaug and retired from CIMMYT in 1999 after almost 25 years working with the wheat program.

“This kind of training is critical today and there is no funding for it. The important thing is that we’re working with the whole plant and people, not just the genome.”

Over eight years, Monsanto’s Beachell-Borlaug International Scholars Program has awarded 89 students with rice or wheat breeding fellowships, 52 of them in wheat breeding. The award is named in honor of Borlaug and rice breeder Henry Beachell.

Ethiopia’s loose quarantine system permits the introduction of foreign pests, which attack crops and hurt yields and farmer incomes, making understanding how to identify new pests vital; strengthening the national quarantine system is thus key to protecting crops.

To address these challenges, CIMMYT-Ethiopia hosted a training session on the quarantine of wheat pests in Ethiopia from 13-15 October at Holetta Agricultural Research Center, where seeds of the most commonly introduced germplasm are inspected before they are planted and further evaluated for foreign pests at isolation sites throughout the country. Attending the session were 13 trainees from Holetta and six other research centers, including Sinana, Kulumsa, Adet, Mekele, Werer, and Ambo.

Temesgen Desalegn, Holetta Agricultural Research Center Director, welcomed participants and delivered an orientation session about the center, staff, and the crop and livestock research conducted at the site. The center is the oldest quarantine site to receive and inspect seeds of introduced germplasm for foreign pests by further planting and evaluating at isolated sites, Desalegn said, explaining that his aims for the training included exploring various aspects of regulatory issues.

Bekele Abeyo, wheat breeder and country representative at CIMMYT’s Ethiopia office, highlighted the role of wheat in the Ethiopian economy, describing major growing regions and production trends. He also described the challenge of recurrent rust epidemics that cause significant yield losses, and how such losses affect the country’s growth and transformation plan aimed at achieving food security. Due to the significant yield losses caused by the rust epidemics, CIMMYT and its national counterparts, the Ethiopian Institute of Agricultural Research (EIAR) and Regional Agricultural Research Institutes (RARIs), developed a project, now in its first year, titled “Seed Multiplication and Delivery of High Yielding Rust Resistant Bread and Durum Wheat Varieties to Ethiopian Farmers.”

The project, which targets 51 districts in four regions, has two sub-components, five specific objectives, and several activities under each objective. It supports small-scale farmers with an emphasis on women, encourages private sector partners, and links farmers with industries. It also aims to build the capacity of national programs by acquiring field and laboratory equipment and conducting various types of short-term trainings sponsored by the U.S. Agency for International Development (USAID) and the CIMMYT/EIAR seed project.

Eshetu Derso, Deputy Director of crops research at EIAR, offered praise for such training and the long-lasting relationship and support CIMMYT has provided. He mentioned that CIMMYT staff are forging change by helping Ethiopia identify and bridge gaps. Eshetu detailed various components of phytosanitary/regulatory issues regarding quarantine and pests in Ethiopia, including recent phytosanitary proclamations in the country. Finally, he noted that awareness will be created and vigilant phytosanitary action taken to ensure no new foreign pests are introduced. All plant materials introduced into Ethiopia will be inspected by quarantine officials at international airports or seaports by establishing separate “plant quarantine counters” and a scanning system.

The government is trying to keep out quarantine diseases such as ergot, late potato blight, and Karnal bunt, Eshetu said, mentioning other risky diseases such as the wheat rusts, white rot in garlic, maize lethal necrosis, yellow mosaic virus in papaya, ginger bacterial leaf wilt, and fruit spot of citrus. All these diseases have either been introduced into Ethiopia or have the potential to be introduced, he said.

CIMMYT pathologist Monica Mezzalama conducted an introductory training course on seedborne diseases of wheat, including detection methods, diagnosis, epidemiology, and management of fungi, bacteria, and viruses. She coupled descriptions with hands-on practice observing fungal, bacterial, and viral diseases of wheat in quarantine fields; leaf sampling and sample preparation; and laboratory work on isolation techniques (leaf and seed). She also covered MLN, the major threat to maize production in recent years.

Mohammed Dawd, Head of quarantine at EIAR, and Bekele Kassa, plant pathologist at Holetta Agricultural Research Center, offered insights and conducted training on pests and quarantine diseases in Ethiopia.

Participants raised many concerns related to the skills gap that hinders proper handling of quarantine services, limited training opportunities, and the lack of guidance from senior scientists and management. They emphasized the importance of keeping up expertise on threats and risks posed by quarantine pests and concluded that current weak quarantine enforcement in Ethiopia should be bolstered by strictly implementing rules and regulations to prevent the introduction of unauthorized and uncertified germplasm.

A training course on developing stress-resilient maize for early-/mid-career maize breeders from national programs, agricultural universities and seed companies, especially small and medium enterprises (SMEs), was held at CIMMYT-Hyderabad, India, on 15 May 2015. The course was open to partners in the Heat Tolerant Maize for Asia (HTMA) project and members of the International Maize Improvement Consortium (IMIC-Asia). It covered key aspects of precision phenotyping, including enhancing precision of field trials, managing adequate levels of stress to express available genotypic variability, using advanced tools to capture data efficiently and precision in recording various traits in phenotyping trials.

At the outset, B.S. Vivek, Maize Breeder at CIMMYT-Hyderabad, introduced the course agenda and objectives and mentioned that participants would learn various aspects of stress phenotyping. C. Aditya, System Developer, and M.T. Vinayan, Maize Stress Breeder at CIMMYT-Hyderabad, discussed FIELD-LOG, the new android-based data-capturing software developed by CIMMYT. They explained the details of its software applications and the method used for recording data in the field and transferring them to a computer.

FIELD-LOG is an excellent user-friendly system that increases the efficiency of data capturing and processing, and at the same time significantly reduces the chances of human error. Participants received hands-on training on using FIELD-LOG to install, operate and record data in the field, and then transfer them to a computer. This was followed by a series of presentations by P.H. Zaidi, Senior Maize Physiologist, CIMMYT-Hyderabad, on various aspects of field-based precision phenotyping for abiotic stress, including site selection and characterization.

Seetharam, Project Scientist at CIMMYT-Hyderabad, discussed various plant traits and the proper way of capturing data in field phenotyping trials. Participants practiced recording data on various traits in heat stress phenotyping trials using the FIELD-LOG system. M.T. Vinayan explained the do’s and don’t’s in field phenotyping at various stages.

At the end, participants provided feedback on the course and thanked CIMMYT for organizing it. They also suggested adding other features to further enhance the usefulness of the FIELD-LOG system.

The Wheat Productivity Enhancement Program (WPEP) in Pakistan, led by CIMMYT and funded by the United States Department of Agriculture (USDA), is working to enhance and protect wheat productivity in Pakistan by supporting research leading to the identification, adoption and optimal agronomic management of new, high yielding, disease resistant wheat varieties.

The objective of the first Wheat Improvement Training Course, conducted from 1 March–24 April 2015, was to build the capacities of 20 early- and mid-career scientists and Ph.D. scholars from across Pakistan. Organized in collaboration with the Wheat Research Institute (WRI) and the Ayub Agricultural Research Institute (AARI) in Faisalabad, Punjab province, this unique learning opportunity included lectures, field demonstrations and lab work focusing on conventional and molecular breeding methodologies, plus wheat pathology, physiology and quality.

Another objective was to acquaint participants with new and improved wheat germplasm including both CIMMYT introductions and WRI local germplasm.
Specialists in wheat breeding, pathology, agronomy, physiology, statistics, entomology and quality shared their experiences with the participants, who also received hands-on training on emasculation and pollination procedures in wheat and barley; rust and Karnal bunt inoculation procedures in the field; varietal release procedures; the varietal release program; aphid identification; and rejection and selection criteria used in wheat trials.

The course was followed by a loose smut eradication campaign in AARI fields in Faisalabad, Punjab province. The participants also visited food technology laboratories where they observed various activities and equipment used for assessing protein and starch content, gluten tolerance and baking quality.

The international training workshop “Approaches for integrated analysis of agricultural systems in South Asia: Field, to farm, to landscape scale,” jointly organized by CIMMYT and the Indian Council of Agricultural Research (ICAR)-Central Soil Salinity Research Institute (CSSRI), was held at Karnal, Haryana, India, during 18-23 May. The workshop targeted farming systems and agricultural development researchers in South Asia and provided an overview of the approaches and tools used to assess agricultural systems.

Compared to the rest of the world, South Asia’s natural resources are 3-5 times more stressed due to population and economic pressures. Several agricultural technologies and practices have been developed to address resource management challenges. However, researchers need to conduct specialized analyses of complex farming systems to find out which technologies are appropriate for farmers.

The training workshop allowed participants to share their experiences in the field and create better methods to ensure successful interventions. P.C. Sharma, Head of the Crop Improvement Program, CSSRI, commenced the workshop and greeted the participants, who comprised 30 young researchers from national research institutions and universities in India, Nepal and Bangladesh. Santiago López Ridaura, CIMMYT Global Conservation Agriculture Program Systems Agronomist, presented workshop objectives, which included introducing participants to integrated farming systems analysis as well as to modeling tools and technology designed for specific farming communities.

“This course is the first of its kind in the region,” emphasized M.L. Jat, CIMMYT Cropping Systems Agronomist. “It is unique, demand-driven and organized to strengthen the capacity of young researchers in the region so that they may more effectively help build livelihood security for smallholder farmers.”

D.K. Sharma, CSSRI Director, stressed the need for systems research in the region and how partnerships with centers ike CIMMYT have helped to successfully implement conservation agriculture, sustainable intensification and other practices. Sharma also described CSSRI’s farmer participatory model, which provides farmers with land for cultivation against their annual compensation, thereby improving livelihoods.

Workshop attendees participated in modeling, analysis and participatory exercises that helped them to better understand the challenges of technology adoption in the field. Participants also visited farms, where they learned farmers’ needs first-hand and observed the complexity of different farming systems.

The workshop was supported by the CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS), the Cereal Systems Initiative for South Asia (CSISA) and the Sustainable and Resilient Farming Systems Intensification in the Eastern Gangetic Plains (SRFSI) project of the Australian Centre for International Agricultural Research’s (ACIAR). Other attendees included Mahesh Gathala, CIMMYT Cropping Systems Agronomist and SRFSI Project Leader; Jeroen Groot, Wageningen University Farming Systems Modeling Specialist; David Berre, CIMMYT Farming Systems Agronomist; Timothy Krupnik, CIMMYT Agronomist; and Alison Laing, Cropping Systems Modeler at ACIAR CSIRO Climate Adaptation Flagship.