For the sub-Saharan African countries to fully achieve their potential for rice production it is critical to have adequate and reliable information on their rice economies, to help formulate appropriate strategies and policies. AfricaRice launched an initiative in December 2007 as part of the Japan-AfricaRice Emergency Rice Initiative (ERI), which was designed to improve the timely availability, reliability and relevance of rice statistics and information needed for quality rice research, evidence-based policy formulation, and monitoring and evaluation of rice related investments in sub-Saharan Africa (SSA). The initiative was implemented in collaboration with the National Agricultural Research Systems (NARS), the National Agricultural Statistics Services (NASS), the African Development Bank (AfDB), Agriculture, Hydrology, Meteorology (Regional Research Centre) (AGRHYMET) and other regional stakeholders. The project worked with NARS and NASS in 21 member countries of the Coalition for African Rice Development (CARD): Benin, Burkina Faso, Cameroon, Central African Republic, Côte d'Ivoire, Democratic Republic of Congo, The Gambia, Ghana, Guinea, Kenya, Liberia, Madagascar, Mali, Mozambique, Nigeria, Rwanda, Senegal, Sierra Leone, Tanzania, Togo, and Uganda. Building on the success of that project, a new 3-year project has been launched with financial and technical support from Japan's Ministry of Agriculture, Forestry and Fisheries (MAFF) to improve the food security information system in Africa through the generation of quality rice data and information. This will add value to the existing endeavors undertaken so far towards the goal of improving the availability and reliability of rice statistics in support of the objective of the CARD initiative. The project will consist mainly of three main activities relating to: 1) the development of a survey methodology to be used to conduct rice surveys in the participating countries, 2) NARS capacity building to acquire the required skills to implement rice surveys using the method that will be introduced by the project, and 3) conduct surveys in selected countries. For more information, visit www.AfricaRice.org
Cross-breeding between different species of rice can produce new plants
that stand up better to drought, salty soil, diseases, and insect pests. Since
the 1990s, AfricaRice has been crossing African rice (Oryza glaberrima), which is particularly resistant to drought and
diseases, with O. sativa, the
high-yielding Asian rice species most widely grown in the world, to create the
New Rice for Africa (NERICA) varieties.
NERICA rice has been hailed as a major advancement for Africa and could
help Africa achieve much higher rice productivity. Currently, 78 NERICA
varieties are available to rice farmers in sub-Saharan Africa, and, by 2011,
adoption had reached more than 700,000 hectares.
The right gene mix
The initial problem in developing NERICA was that the two different
rice species produced sterile offspring that could not be used to grow crops.
Scientists at AfricaRice overcame this by repeatedly backcrossing into Asian
rice to restore fertility. Although the early NERICA crosses exhibited low susceptibility
to disease and insect attacks, the backcrossing process reduced the proportion
of the African rice genome in the final NERICA varieties, consequently reducing
the desired tolerance of pests.
“What if we were to increase the proportion of O. glaberrima genes—would we get better varieties?” Dr. Mandé
Semon, an upland rice breeder at AfricaRice, wondered. He proposed reversing
the gene route and bringing the desirable genes from Asian rice into African
rice instead. However, sterility was still going to be a problem.
The bridge from sterility to
To solve this problem, the iBridges (interspecific Bridges) project was
launched in 2005 as a close cooperation among IRD, CIAT, AfricaRice, the
Philippine Rice Research Institute, and African national agronomic research
bodies such as the Institute of Rural Economy in Mali and the Institute of
Environment and Agricultural Research in Burkina Faso. Originally supported by
the CGIAR Generation Challenge Program, the second phase of iBridges is now
being advanced under GRiSP.
Cutting-edge research under Mathias Lorieux, IRD director of research
and plant geneticist at CIAT, led to the fine mapping of the S1 gene,
previously identified as a key factor in interspecific sterility. Using the
rice genome maps developed by the Oryza
Map Alignment Project, the researchers identified the portion of the chromosome
responsible for sterility.
“This resulted in the design of a genetic model that explains the
sterility of interbred descendants, and opens the way to further research into
the genetic control of sterility,” said Dr. Lorieux, who is also the iBridges
co-project leader along with Dr. Alain Ghesquière of IRD. “Being able to
identify the few and rare fertile individuals from interspecific crosses early
in the breeding process eliminates many stages previously required for
interspecific breeding and accelerates the development of new and improved
African-Asian varieties that fully embrace the rich diversity of African rice
alongside that of Asian rice.“
Thanks to the partnerships that are being fostered by GRiSP, plant
breeders now have access to the complete genetic diversity available in African
rice. Under GRiSP, the iBridges project aims to develop new and fertile rice
varieties derived from crosses between elite O. sativa and O. glaberrima
“We hope that the iBridges will make a significant breakthrough in
improving African rice varieties,” said Dr. Lorieux. “It is the African rice
farmers who will directly benefit from this technology, and this will certainly
contribute to Africa’s food security.”