Germplasm will be stored in a specialised and accessible bio-repository and associated data in knowledge bases that will represent a valuable legacy to the community.
Whole genome association scans will be conducted for several traits, signatures of adaptive selection will be explored, and allele mining of candidate genes will reveal new variation associated with specific phenotypes. Pre-breeding tools and pipelines will be developed to optimize the efficiency of allele transfer from unadapted germplasm into elite breeding lines. New methodologies will explore how to optimally exploit the large amount of new genotypic and phenotypic data available. They will focus on the design of ideotypes with improved yield stability and tolerance to biotic and climatic stresses and provide proof of concept of the efficiency of genome and phenome assisted selection. Ideotypes and reference varieties will be evaluated in innovative cropping systems, particularly organic farming and no-till agriculture, and an economic evaluation of these approaches will be conducted. The results will be disseminated to a broad user community, highlighting the benefits and issues associated with the adoption of what is considered sustainable and environmentally friendly wheat and barley crop production in a European context. WHEALBI aims to help the EU remain a major actor in world small grain cereal production while addressing the pressing global priorities of increasing and stabilising primary production, improving food quality and safety, and reducing environmental impact.
Exome sequences and multi-environment field trials elucidate the genetic basis of adaptation in barleyThe Plant Journal 99 (2019)6. - ISSN 0960-7412 - p. 1172 - 1191.
Modelling strategies for assessing and increasing the effectiveness of new phenotyping techniques in plant breedingPlant Science 282 (2019). - ISSN 0168-9452 - p. 23 - 39.