Análise comparativa dos métodos de avanço por Bulk e SSD na identificação de QTLs para produtividade de grão de arroz no cruzamento Epagri 108 X Irati 122
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2019-11-12
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Universidade Federal de Goiás
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A relevant aspect of all rice breeding programs is the extensive genetic variability available and
stored in germplasm banks. A major challenge is precisely how to select the most appropriate
genotypes to meet the objectives of these programs. An interesting alternative is the assembly of
core collections. Besides the characterization per se, the accessions that stood out for their genetic
variability or productive performance were crossed in a diallel scheme. The resulting hybrids were
self-fertilized to obtain generation F2, which was advanced by Bulk and SSD until F7. Among the
most productive crosses, one in particular was interesting due to the genetic distance between the
parents (RW = 0.91), and the high value of specific combining ability - Epagri 108 (Oryza sativa
spp. Indica) x Irat 122 (Oryza sativa spp. Japonica). This study aimed to perform QTL analysis for
plant yield and height using two populations of Epagri 108 x Irat 122 cross, advanced by SSD
(generation F8) and Bulk (generation F7:8) methods. The 158 recombinant inbred lines of each
method (SSD and Bulk) were evaluated for two years (2016/2017 and 2017/2018 seasons), in a
18x18 double lattice design with two replications, consisting of four-line plots of three meters in
Palmital Farm (Goianira, GO). The RILs were genotyped by the DArTseq® methodology, which
generated about 6,000 SNPs. The statistical model adopted for the grain yield data analysis was
mixed linear model (MLM) through the R program. For the first and second year evaluations
(2016/2017 and 2017/2018 seasons) and joint analysis (two years/seasons), the RILs-Bulk group
presented higher grain yield averages when compared to the RILs-SSD and testers group.
However, regarding the genetic variance component, the SSD group presented the highest estimate
followed by Bulk and testers. Bulk-RIL yields ranged from 4,010.75 kg ha-1 to 5,815.42 kg ha-1,
while SSD-RILs ranged from 3,321.76 kg ha-1 to 8,096.27 kg ha-1, both exceeding the testers
group, which ranged from 2,754.30 kg ha-1 to 3,643.73 kg ha-1.For the plant height trait (ALT), in
the first year, the plants ranged from 116 cm to 165 cm for RILs-Bulk. On the other hand, RILsSSD ranged from 91 cm to 177 cm, while the testers ranged from 100 cm to 104 cm. In the second
year, RILs-Bulk ranged from 101 cm to 130 cm, while RILs-SSD ranged from 81 cm to 132 cm,
while the testers presented heights from 96 cm to 117 cm. In the joint analysis, the testers
presented the lowest heights. For QTL analysis, multiple interval mapping was used, with a total of
2,115 SNPs, and 3 QTLs were identified in the SSIL-RILs for the grain yield (PG) traitr, of which
2 QTLs were located on chromosome 6 (qGYLD6.1 and qGYLD6.2), one for the second year of
experiment, with a phenotypic variation of 23.56%, and the other for the joint analysis, explaining
9.45% of the phenotypic variation. The other QTL was identified on chromosome 9 (qGYLD9) for
the second year, with a phenotypic variation of 7.45%. For the trait height (ALT) a QTL on
chromosome 1 (qPTHT1) was identified, with a phenotypic variation of 14.01%. For RILs-Bulk,
with a total of 2,354 markers, 3 QTLs were identified for the PG character, two QTLs mapped on
chromosomes 6 and 9 (qGYLD6 and qGYLD9), referring to the second year of evaluation,
presenting a phenotypic variation of 21.65. % and 3.71%, respectively. In the joint analysis a QTL
was mapped on chromosome 7 (qGYLD7), with phenotypic variation of 12.9%. For ALT no QTL
was found in the RILs-Bulk. From the identification of these QTLs in haplotypic blocks, the next
step will be the validation of markers in Embrapa germplasm bank accesses before being
incorporated into the assisted selection routine, in order to identify materials with higher grain
yield potential. For the Epagri 108 x Irat 122 cross, the SSD method was the most efficient in the
generation of superior rice lines for grain yield, but at a higher operating cost than the Bulk
method. RILs derived from both Bulk and SSD identified QTLs for the PG character; however,
SSD identified a higher number of QTLs with greater effect on trait variation.
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RAMOS, M. R. F. Análise comparativa dos métodos de avanço por Bulk e SSD na identificação de QTLs para produtividade de grão de arroz no cruzamento Epagri 108 X Irat 122. 2019. 145 f. Tese (Doutorado em Genética e Melhoramento de Plantas) - Universidade Federal de Goiás, Goiânia, 2019.