%0 Journal Article %A Dharmappa, Prathibha %A Doddaraju, Pushpa %A Malagondanahalli, Mohankumar %A Rangappa, Raju %A Mallikarjuna, N. %A Rajendrareddy, Sowmya %A Ramanjinappa, Ramachandra %A Mavinahalli, Rajanna %A Prasad, Trichy %A Udayakumar, Makarla %A Sheshshayee, Sreeman %D 2019 %T Additional file 1: of Introgression of Root and Water Use Efficiency Traits Enhances Water Productivity: An Evidence for Physiological Breeding in Rice (Oryza sativa L.) %U https://springernature.figshare.com/articles/journal_contribution/Additional_file_1_of_Introgression_of_Root_and_Water_Use_Efficiency_Traits_Enhances_Water_Productivity_An_Evidence_for_Physiological_Breeding_in_Rice_Oryza_sativa_L_/7818932 %R 10.6084/m9.figshare.7818932.v1 %2 https://springernature.figshare.com/ndownloader/files/14548547 %K Aerobic Rice %K Roots %K Water-use efficiency %K Quantitative trait loci %K Marker assisted backcross breeding %K Carbon isotope discrimination %K Phenotyping %K Trait introgressed lines %K Grain yield %X Figure S1. Root phenotyping using root structures. Figure S2. Identification of trait introgressed lines for advancing at BC3F2 stage. Figure S3. Frequency distribution of BC3F2 population for various morpho-physiological traits under aerobic condition. # indicates the value for recurrent parent IR-64. Figure S5. Frequency distribution of BC3F3 population for various morpho-physiological traits in root structure. Figure S6. Improved phenotype of the selected TILs along with parents. Table S1. Background markers used in the study for reconstructing IR-64 background. Table S2. Differences in weather parameters between experimental locations (Bengaluru and Mandya). Table S3. Improvement of yield and yield-attributes among selected trait introgressed BC3F1 progenies. Table S6. Morphophysiological characters of TILs under well-watered and water limited condition along with IR-64. (DOCX 4617 kb) %I figshare