Strategies for breeding climate change resilient barley, genetically equipped to optimized root-microbiome interactions

HORIZON.2.6HORIZON-RIAID: 101060057
EC Contribution
€79,927
Consortium Size
8 orgs
Summary

BarleyMicroBreed builds on the paradigm that crop resource efficiency and stress resilience can be significantly improved by optimizing the capacity of plant roots to efficiently interact with the existing soil microbiota. We therefore propose to advance our mechanistic understanding of interactions between the crop plant genome, root phenotypic traits, and the root-associated microbiota to identify novel breeding strategies for crops tailored to harness the benefits of the indigenous soil microbial diversity.A holo-omics analysis of functionally annotated barley genomes together with a catalogue of root microbiota assemblages and phenotypic data including drought responses of 600 barley varieties determined in field trials in Austria, Lebanon and Morocco, will enable the identification of barley genome components, microbiota members and root traits important for drought resilience. Barley genome regions putatively important for microbiota assembly and drought resistance will be validated by gene knock-outs and causative effects will be explored using a combination of metabolomics, metagenomics and root phenotyping in pot and rhizobox experiments.To improve root phenotyping, we will develop tools including core break imaging systems, software developments for “gap filling” in rhizobox phenotyping, and models to infer seedling to mature root system architecture.Finally, with the knowledge of the genetic regulation of phenotypic root plasticity of barley lines we will implement strategies to create drought adaptive barley varieties with improved root systems and microbiomes. A selection of lines based on drought responses, microbiome assembly and root systems will be backcrossed into elite European lines and tested in field trials.We argue that breeding for crops tailored to harness the benefits of the indigenous soil microbial diversity rather than inoculating crops with plant-beneficial microorganisms will be a much more feasible and long-lasting strategy.

Consortium (8)

Project Results (15)

Source: CORDIS, the EU research results database.

Publications (8)
Novel CRISPR/Cas9-Derived mlo Alleles in Barley: Resistance to Powdery Mildew and Microbiome Implications
International Journal of Molecular Sciences· 2026DOI
Jovana Eskildsen, Menghui Dong, Tobias Hanak, Claus Krogh Madsen, Inger Holme, Tamás Plaszkó, Mette Vestergård, Mogens Nicolaisen, Hans Thordal-Christensen, Henrik Brinch-Pedersen
Simplex and multiplex CRISPR/Cas9-mediated knockout of grian protease inhibitors in model and commercial barley improves hydrolysis of barley and soy storage proteins
Plant Biotechnology Journal· 2025DOI
Michael Panting, Inger B. Holme, Giuseppe Dionisio, Henrik Brinch-Pedersen
Dynamic Dark Root Chamber – Advancing non-invasive phenotyping of roots kept in darkness using infrared imaging
bioRxiv· 2024
Simon Pree; Ivan Kashkan; Katarzyna Retzer
Harnessing root-soil-microbiota interactions for drought-resilient cererals
Microbiological Research· 2024DOI
Somayeh Gholizadeh; Iman Nemati; Mette Vestergård; Christopher James Barnes; Enoch Narh Kudjordjie; Mogens Nicolaisen
Plant Physiology and Biochemistry
Plant Physiology and Biochemistry· 2024DOI
Hanak, Tobias; Andrzejczak, Olga A.; Hebelstrup, Kim; Brinch-Pedersen, Henrik
Deciphering the biological processes in root hairs required for N-self-fertilizing cereals
Frontiers in Plant Physiology· 2023DOI
Pree, Simon; Malekian, Babak; Sandén, Hans; Nicolaisen, Mogens; Weckwerth, Wolfram; Madsen, Mette Vestergård; Retzer, Katarzyna
Genome editing to re-domesticate and accelerate use of barley crop wild relatives
Frontiers in Sustainable Food Systems· 2023DOI
Tobias Hanak; Jovana Jancic; Fiona R. Hay; Henrik Brinch-Pedersen
Highlights of the 2nd D(ark grown)-root meeting
Frontiers in Plant Science· 2023DOI
Katarzyna Retzer; Verena Ibl
Deliverables (6)
Other Results (1)
Periodic Reporting for period 1 - BarleyMicroBreed (Strategies for breeding climate change resilient barley, genetically equipped to optimized root-microbiome interactions)