Principles of Plant Genetics and Breeding. George Acquaah

Principles of Plant Genetics and Breeding - George Acquaah


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market. For example, Monsanto, the developer of Roundup Ready® technology, is also the developer of the Roundup® herbicide that is required for the technology to work.

       Ability to appropriate the returns to research and distribution of benefitsThe degree to which a seed company can appropriate returns to its plant breeding inventions is a key factor in the decision to enter the market. Traditionally, cross‐pollinated species (e.g. corn) that are amenable to hybrid breeding and high profitability have been most attractive to private investors. Public sector breeding develops most of the new cultivars in self‐pollinated species (e.g. wheat, soybean). However, the private sector interest in self‐pollinated species is growing. This shift is occurring for a variety of reasons. Certain crops are associated in certain cropping systems. For example, corn–soybean rotations are widely practiced. Consequently, producers who purchase improved corn are likely to purchase improved soybean seed. In the case of cotton, the shift is for a more practical reason. Processing cotton to obtain seed entails ginning and delinting, which are more readily done by seed companies than farmers.

      image Industry highlights Box 1.1 Training game changers in plant breeding at the West Africa Centre for Crop Improvement (WACCI) in Africa for Africa

      Eric Danquah, Samule Offei, and Ronnie Coffman

      West Africa Centre for Crop Improvement, University of Ghana, PMB 30, Legon, Ghana

       www.wacci.ug.edu.gh

       Genesis of WACCI

       Overall goal and objectives

      The overall goal of WACCI is to improve food and nutrition security in Africa. The approach is to equip plant breeders with the knowledge and skills to develop superior varieties of indigenous crops, using both conventional and modern technologies.

      The specific objectives are to:

       significantly improve the quality of PhD level training in plant breeding offered to students

       create opportunities to develop improved local varieties of the staple crops grown by smallholders in the sub‐regions, using in advances molecular biology, informed by farmers' stated preferences

       provide the necessary skills to direct and manage local plant breeding programs to meet local needs, and to respond to indigenous demands

       develop breeding techniques appropriate to address some of the unique breeding/crop improvement objectives for the sub‐regions

       create a de facto network of functioning plant breeders and their local co‐supervisors from the sub‐regions

       Student recruitment and PhD program structure

      The student recruitment process is rigorous, requiring the assessment of the student's qualifications, employment history or status, the motivation level, and ability to carry out independent research. During the process of student recruitment, advertisements are sent to all alumni, research collaborators, and scientists within the WACCI‐network across the National Agricultural Research Systems (NARS), as well as posted online. Candidates engaged in plant breeding and who are supported by breeding programs are prioritized in the selection process. Averagely, about 120 excellent applications are received and 11 students have enrolled annually since inception. The PhD in Plant Breeding at WACCI is an innovative four‐year program. The students take taught courses and advanced modules in plant breeding, biometry, genomics, biotechnology, and bioinformatics delivered by UG academics and visiting scientists from advanced plant breeding programs the world over at the University of Ghana in the first year. The students return to their home institutions in the second year to conduct theses research over a three‐year period under the supervision of a team of supervisors including an in‐country supervisors. Mentorship of students is also provided by experts in the area of research of the student. WACCI supervisors visit students at least once a year to monitor progress. The students return to WACCI in the last quarter of the fourth year to complete and submit their theses for examination.

       Quality assurance

      The mode of delivery is student centered and quality assurance procedures are followed; feedback from the students is received each semester for the improvement of the curriculum and the mode of delivery. In 2018, WACCI received international accreditation from the Agency for Quality Assurance (AQAS), Germany, following desk and onsite review of WACCI benchmarked against the standards of the European Union for the two programs, PhD in Plant Breeding and MPhil in Seed Science and Technology.

       Funding

      Initial funding for the establishment of WACCI was provided by AGRA to train 53 plant breeders. To date, funding has been received from over 25 organizations to sustain the WACCI program. Notable contributors include the World Bank Africa Centres of Excellence (ACE) Project the German Academic Exchange Programme (DAAD), the West Africa Agricultural Productivity Programme (WAAPP), the United States Agency for International Development (USAID), Syngenta Foundation for Sustainable Agriculture, EU Intra ACP Mobility Project, and Generation Challenge Program (GCP). In total, funding mobilized to date is about USD 30 million to sustain the program. A notable research grant is the African Union Commission‐European Union grant of USD 1 million focused on crop and soil health improvement for sustainable agricultural intensification toward economic transformation in West Africa.

       Student research and breeding programs


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