Sara Farokhzadeh - PhD. Student, Department of Plant Breeding and Biotechnology Faculty of Agriculture, University of Zabol,Iran, Zabol,
Barat Ali Fakheri - Full Professor, Department of Plant Breeding and Biotechnology, Faculty of Agriculture, University of Zabol Zabol, Iran
Sirus Tahmasebi - Assistant Professor, Department of Seed and Plant Improvement Research, Fars Agriculture and Natural Resources Research and Education Center, Agricultural Research, Education and Extension Organization (AREEO), Shiraz, Iran
Nafiseh Mahdinejad - Assistant Professor, Department of Plant Breeding and Biotechnology, Faculty of Agriculture, University of Zabol, Zabol, Iran
Abbas Mirsoleimani - Assistant Professor, Department of Plant Production, Shiraz University, Collage of Agriculture and Natural Resources of Darab, Darab, Iran
Kamal Gholamipour fard - Ph.D. Graduated student of Horticultural Science, Ornamental Plants, Department of Plant Production,Shiraz University, Collage of Agriculture and Natural Resources of Darab, Darab, Iran

Genetic improvement of aluminum (Al) tolerance is one of the cost-effective solutions to improve wheat productivity in acidic soils. In this study, QTLs for Al-tolerance were determined in 167 of the Seri/Babax recombinant wheat inbred lines (RIL) grown in control and Al-treated soil in field. This investigation was conducted using alpha lattice design with two replications during 2014-2015 and 2015-2016. In general, 46 QTLs including 22 major and 24 minor QTLs were detected for the traits (25 and 21 QTL under control and aluminum stress condition, respectively). 26 QTLs (56.52%), 19 QTLs (41.31%) and one QTLs (2.17%) were in the A, B and D genomes, respectively. For most identified QTLs, alleles decreasing or increasing traits were derived from Babax parental lines. Phenotypic variations that were explained by these QTLs changed from 5.90% to 12.11%. The highest and the lowest R2 were related to SD and PHT QTLs in normal and stress conditions, respectively. LOD values ranged from 2.51 to 4.88. The lowest and the highest LOD scores were attained for the QTLs of GYLD (QGYLD9H.y2s) and PHT (QPHT18H.y2s) under Al stress. Results showed co-located QTLs for DHE with GSP, CTm with TGW and SPAD with TSN in normal and Al trials, which suggested pleiotropic or linkage gene effects for these traits. QTLs QTGW5H.y2n and QTGW5H.y2s is ranged from 0.00 cM of chromosome 5H, controlling TGW was quite stable. 22 major QTLs controlling traits in this study can be used in breeding programs to improve wheat grain yield.

Aluminum stress, Bread wheat, QTL mapping