Figure 1
Genetic linkage map (chromosomes 1-6) constructed using the Lemont?Yangdao4 recombinant inbred line population consisting of 219 lines and QTLs responsible for plant height detected using multiple interval mapping in eight environments. The environments are listed in parentheses after the QTL name at the right of the chromosome bars. 2017 Hangzhou-1: sown in May 29, 2017Han Z, Hu W, Tan C and Xing Y (2017) QTLs for heading data and plant height under multiple environments in rice. Genetica 145: 67-77., in Hangzhou; 2017 Hangzhou-2: sown in June 7, 2017, in Hangzhou; 2017 Hangzhou-3: sown in June 30, 2017, in Hangzhou; 2018 Hangzhou-1: sown in May 23, 2018, in Hangzhou; and 2018 Hangzhou-2: sown in June 2, 2018, in Hangzhou.
Figure 2
Genetic linkage map (chromosomes 7-12) constructed using the Lemont?Yangdao4 recombinant inbred line mapping population consisting of 219 lines and QTLs responsible for plant height detected using multiple interval mapping in eight environments. The environments are listed in parentheses after the QTL name at the right of the chromosome bars. 2017 Hangzhou-1: sown in May 29, 2017Han Z, Hu W, Tan C and Xing Y (2017) QTLs for heading data and plant height under multiple environments in rice. Genetica 145: 67-77., in Hangzhou; 2017 Hangzhou-2: sown in June 7, 2017, in Hangzhou; 2017 Hangzhou-3: sown in June 30, 2017, in Hangzhou; 2018 Hangzhou-1: sown in May 23, 2018, in Hangzhou; and 2018 Hangzhou-2: sown in June 2, 2018, in Hangzhou.
Figure 3
Regression analysis between plant height and number of plant height-increasing alleles at 12 loci (qPH1.1, qPH1.2, qPH3.1, qPH3.3, qPH5.2, qPH5.1, qPH8.2, qPH9.1, qPH10.2, PH11.1, qPH12.1, and qPH12.3) using 219 lines of the Lemont ? Yangdao4 RIL population planted in four environments: (1) sown on May 24, 2013, in Hangzhou; (2) sown on November 23, 2016, in Hainan; (3) sown on May 29, 2017, in Hangzhou; and (4) sown on June 7, 2017, in Hangzhou.
Figure 4
Regression analysis between plant height and number of plant height-increasing alleles at 12 loci (qPH1.1, qPH1.2, qPH3.1, qPH3.3, qPH5.2, qPH5.1, qPH8.2, qPH9.1, qPH10.2, PH11.1, qPH12.1, and qPH12.3) using 219 lines of the Lemont ? Yangdao4 RIL population planted in four environments: (1) sown in June 30, 2017, in Hangzhou; (2) sown in November 25, 2017Han Z, Hu W, Tan C and Xing Y (2017) QTLs for heading data and plant height under multiple environments in rice. Genetica 145: 67-77., in Hainan; (3) sown in May 23, 2018, in Hangzhou; and (4) sown in June 2, 2018, in Hangzhou.
Figure 5
Multiple comparison test (Duncan’s, P = 0.05) among different lines carrying different numbers of plant height-increasing alleles at the Lemont?Yangdao4 recombinant inbred line population planted in four different environments: (1) sown on May 24, 2013, in Hangzhou; (2) sown on November 23, 2016, in Hainan; (3) sown on May 29, 2017, in Hangzhou; and (4) sown on June 7, 2017, in Hangzhou. Different lines of the Lemont?Yangdao4 RIL population were classified into 8 different groups based on the number of height-increasing alleles that they carried at 12 loci (qPH1.1, qPH1.2, qPH3.1, qPH3.3, qPH5.2, qPH5.1, qPH8.2, qPH9.1, qPH10.2, PH11.1, qPH12.1, and qPH12.3).
Figure 6
Multiple comparison test (Duncan’s, P = 0.05) among different lines carrying different numbers of plant height-increasing alleles at the Lemont?Yangdao4 recombinant inbred line population planted in four different environments: (1) sown in June 30, 2017, in Hangzhou; (2) sown in November 25, 2017Han Z, Hu W, Tan C and Xing Y (2017) QTLs for heading data and plant height under multiple environments in rice. Genetica 145: 67-77., in Hainan; (3) sown in May 23, 2018, in Hangzhou; and (4) sown in June 2, 2018, in Hangzhou. Different lines of the Lemont?Yangdao4 RIL population were classified into 8 different groups based on the number of height-increasing alleles that they carried at 12 loci (qPH1.1, qPH1.2, qPH3.1, qPH3.3, qPH5.2, qPH5.1, qPH8.2, qPH9.1, qPH10.2, PH11.1, qPH12.1, and qPH12.3).