Project: Mining allelic diversity of maize landraces for tolerance to abiotic and biotic stresses
| Acronym | MineLandDiv (Reference Number: 69) |
| Duration | 01/02/2023 - 31/01/2026 |
| Project Topic | Climate change, soil degradation and fertilizer costs threaten food security and agriculture sustainability in Europe. Traditional varieties of crops or landraces are a valuable source of genetic diversity for addressing these challenges. Landraces have been selected for adaptation to local agro-climatic conditions and human uses and could therefore carry favorable alleles for tolerance to abiotic or biotic stresses. However, landraces remain underutilized in modern breeding programs and agriculture because they are poorly characterized, genetically heterogeneous and exhibit limited agronomic performance compared to elite material. Great effort has been recently made to characterize the genotypic variation of thousands of maize landraces but few resources have been mobilized for analyzing their phenotypic variation and genetic diversity for complex traits as tolerance to abiotic and biotic stresses. The project MineLandDiv (Mining Allelic Diversity in Landraces for Tolerance to Abiotic and Biotic stress) proposes to fill this gap by combining different up-to-date genomic approaches, genetic and statistical methods with high throughput phenotyping tools including sensors / metagenomics for fine environmental characterization. MineLandDiv aims at (i) identifying maize landraces and favorable alleles for tolerance to abiotic (heat/drought - cold - nitrogen) and biotic stresses (Corn borer) that could be used to broaden genetic diversity of modern breeding germplasms and (ii) better understanding their resilience to variable environmental conditions. To achieve these objectives, MineLandDiv proposes to: 1. Optimize a collection of 300 maize landraces representative of American and European genetic diversity and adapted to various agroclimatic conditions based on previous knowledge and mid density genotyping data available for more than 1200 landraces. 2. Evaluate, across a large European network, these 300 landraces for different agronomic and physiologic traits with contrasted treatments (well-watered vs water deficit, low vs high nitrogen, early sowing for cold, heat, and corn borer infestation) for studying the effect of these stresses on agronomic performances. We will use high-throughput phenotyping tools (Drones, NIRs), phenotyping platforms and environmental sensors to assess the environmental conditions felt by plants. Because roots and symbiosis with soil microorganisms are essential for nutrient and water uptake, we will phenotype root architecture in an aeroponics platform and characterize soil microorganism content of different trials by metagenomics. 3. Identify genomic regions involved in agronomic performance and tolerance to abiotic stresses by (i) conducting association studies for agronomical, physiological and roots traits as well as environmental variables associated with the landrace collecting sites, by (ii) detecting selective footprints between landraces from contrasting environments. We will genotype DNA pool of 15 plants from each landrace using high density genotyping array (600K). 4. Develop an original DNA pooling targeting sequencing approach to explore allelic diversity in these genomic regions but also candidate genes putatively involved in abiotic tolerance or plant-microorganism interactions for all landraces as well as for a set of inbred lines for comparison. 5. Predict, for a larger number of landraces, agronomic performance and tolerance to abiotic/biotic stresses by calibrating a model based on phenotypic evaluation and deep genomic characterization of these 300 landraces. This project will increase our knowledge about adaptation mechanisms of maize landraces to different agro-climatic conditions. We will identify promising alleles / landraces that could be used to broaden the genetic basis of breeding germplasm for tolerance to abiotic / biotic stresses by releasing new inbred lines or using other bridging/technology approaches. |
| Website | visit project website |
| Network | SusCrop |
| Call | 3rd Transnational Joint Call on Sustainable Crop Production with FACCE JPI |
Project partner
| Number | Name | Role | Country |
|---|---|---|---|
| 1 | Institut National de Recherche Agronomique et de l'Environnement | Coordinator | France |
| 2 | CREA Consiglio per la Ricerca in Agricoltura e l'Analisi dell'Economia Agraria | Partner | Italy |
| 3 | UCLouvain | Partner | Belgium |
| 4 | ALMA MATER STUDIORUM - Università di Bologna | Partner | Italy |
| 5 | Mediterranea University of Reggio Calabria | Partner | Italy |
| 6 | Bati Akdeniz Agricultural Research Institute | Partner | Türkiye |
| 7 | Maize Research Institute | Partner | Türkiye |
| 8 | Consejo Superior de Investigaciones Científicas | Partner | Spain |