10^th Asia-PacificBiotech Congress

Biography

Biography: Philippe Ellul

Abstract

CGIAR’s mission is to design and apply innovative science to convert the 21st century’s grand challenges into prosperous and more equitable opportunities for people of the developing world. Food and nutrition security, biodiversity, climate change, natural resources management are globally identified (G20) as strategic priorities for both developed and developing countries. With its 15 research Centers (IRRI, CIMMYT, CIAT, CIP, etc...) collaborating in 12 CGIAR Research Programs (CRPs) and 3 platforms (Genebank, Big Data & Genetic Gain), CGIAR is involved in a reform process initiated in 2008 and entering in phase 2 for 2017-22 (Strategic Research Framework, 2015). Eight of the new CRPs are Agri-Food System programs involved in the improvement of staple crops (maize, wheat, rice, potato, Sorghum, etc...), livestock and fish. Most of these programs are collaborating in South Asian integration countries for increased impact. These programs are engaged in genomic analysis as maize and wheat with the seed of discovery project, RICE collaborating with CAAS and BGI for re-sequencing 3,000 lines of rice (and very soon 10,000) or RTB (Root Tubers and Banana) re-sequencing 1,200 cassava accessions. Accurate prediction of phenotype from genotype through genomics-assisted breeding is now feasible in crops or livestock. Millions of genotyping data are produced in high throughput genotyping platforms and used by pre-breeders in parallel with the breeding information phenotyping and field trials necessarily compiled in a modern and standardized breeding management system. Innovative computational methods are being designed and shared to support the management, collation, curation, visualization and analysis of multivariate, complex data sets to improve the identification of causative connections between genotype and phenotype and between phenotype and landscape. For rice agro-ecosystems, emerging concepts and technologies will form a key flagship (FP5) of the new RICE AFS full proposal aiming to accelerate genetic gain by capitalizing on breeding material, knowledge, and tools developed from in a first phase (GRiSP 2011-16). Novel biotech approaches including genome editing and blue-sky research such as systems biology and C4 rice project for developing a rice plant switched to C4 photosynthetic engine and adapted anatomical attributes, will be implemented. Analytical pipelines are being developed through Centers and CRP partnerships such as the Genetic Gains platform and the Genomic and Open-source Breeding Informatics Initiative (GOBII) to accelerate genetic gain. An emerging related-issue is the human capacity to design and implement such innovative approaches. Pre-breeders skilled in quantitative genetics, mapping analysis, genomics, biotechnology or breeding populations design are being trained and incorporated into the new AFS programs. We will describe how CGIAR breeding programs are evolving to deliver multiple benefits based on diverse biotech innovations.