Exploring standing genetic variation for barley leaf rust resistance in Australian breeding panel

Article

Pandit, Madhav, Dracatos, Peter, Periyannan, Sambasivam, Lam, Sambasivam, Brunner, Stephanie M., Honse, Takaaki, Tong, Jingyang, Dinglasan, Eric, Ganesalingam, Dini, Moody, David, Baraibar, Silvina, Hickey, Lee, Alahmad, Samir and Robinson, Hannah. 2026. "Exploring standing genetic variation for barley leaf rust resistance in Australian breeding panel." Theoretical and Applied Genetics: international journal of plant breeding research. 139 (1). https://doi.org/10.1007/s00122-025-05122-4
Article Title

Exploring standing genetic variation for barley leaf rust resistance in Australian breeding panel

ERA Journal ID2411
Article CategoryArticle
AuthorsPandit, Madhav, Dracatos, Peter, Periyannan, Sambasivam, Lam, Sambasivam, Brunner, Stephanie M., Honse, Takaaki, Tong, Jingyang, Dinglasan, Eric, Ganesalingam, Dini, Moody, David, Baraibar, Silvina, Hickey, Lee, Alahmad, Samir and Robinson, Hannah
Journal TitleTheoretical and Applied Genetics: international journal of plant breeding research
Journal Citation139 (1)
Article Number31
Number of Pages16
Year2026
PublisherSpringer
Place of PublicationGermany
ISSN0040-5752
1432-2242
Digital Object Identifier (DOI)https://doi.org/10.1007/s00122-025-05122-4
Web Address (URL)https://link.springer.com/article/10.1007/s00122-025-05122-4
Abstract

Barley (Hordeum vulgare L.) production worldwide is threatened by different rust diseases, particularly barley leaf rust (BLR) caused by fungus Puccinia hordei. Yet, very limited works have explored BLR resistance mechanism across multiple environments. This study explored genotype-by-environment interactions (GEI) in a BLR disease screening dataset collected over multiple years using a multi-environment trial (MET) analysis followed by iClass method. A haplotype-based approach, using local genomic estimated breeding values (LGEBVs), identified five environmentally stable genomic regions (haplo-blocks: 2HS-b000305, 5HS-b001038, 5HS-b001039, 5HS-b001040 and 5HL-b001125) associated with BLR resistance at adult plant stage. While haplo-block co-locating popular adult plant resistance (APR) gene Rph20 was validated as a key genomic region to drive stability in resistance across multiple environments, other haplo-blocks with high-effect haplotypes were also reported as prospective novel sources of stability. Notably, environmentally specific haplo-blocks offered insights into GEI-driven resistance mechanisms. The study also highlighted the potential of haplo-block stacking to improve adult plant resistance as genotypes with multiple favorable haplotypes demonstrated a linear relationship with enhanced BLR resistance. These findings hold practical implications for barley breeders, paving the way for more resilient cultivars and advancing breeding methodologies for complex traits like disease resistance.

Contains Sensitive ContentDoes not contain sensitive content
ANZSRC Field of Research 2020300409. Crop and pasture protection (incl. pests, diseases and weeds)
Byline AffiliationsUniversity of Queensland
La Trobe University
School of Science, Engineering & Digital Technologies- Ag & Env Sciences
Centre for Crop Health
Hochschule Geisenheim University, Germany
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