General inbreeding coefficient of maize synthetics derived from three-way line hybrids

• Main Authors: Alejandro Ibarra-Sánchez, Juan Enrique Rodríguez-Pérez, Jaime Sahagún-Castellanos
• Format: Article
• Language: English
• Published: Sociedad Mexicana de la Ciencia del Suelo A. C. 2019-10-01
• Series: Terra Latinoamericana
• Subjects: coancestry; genotypic mean; identity by descent; zea mays l
• Online Access: https://www.terralatinoamericana.org.mx/index.php/terra/article/view/545/668
• ISSN: 0187-5779; 2395-8030

The scarcity of pure and unrelated maize inbred lines that possess high combining ability in Mexico has led breeders wishing to form single crosses to develop double-cross or three-way line hybrids (TWLHs) instead. However, some of the farmers who grow these hybrids cultivate their advanced generations later on. Although the resulting populations can be viewed as the synthetics that the random mating of the parental lines (SynL) of these hybrids would produce, there may be differences. The synthetic variety whose parents are t TWLHs (SynT) is interesting because the contributed gene frequencies of the three lines that are parents of a TWLH are not balanced and this may generate a difference between the inbreeding coefficients (ICs) of the SynL and SynT. Since an unbiased and general inbreeding coefficient of the SynT and a prediction formula for the SynT genotypic mean (GM) are not yet known, the objective of this study was to derive formulae for these two important parameters of SynT. To form the t TWLHs, it was assumed that 3t unrelated lines whose IC was F (0 ≤ F ≤ 1) were used. Unbiased and general formulae for FSynT and GM were derived for the first time. In particular, it was found that FSynT = [3(1 + F)]/(16t). Since the inbreeding coefficient of the SynL derived from the same 3t lines is (1 + F)/(6t), then FSynT > FSynL. These findings suggest that the genotypic mean of the SynL grain yield is larger than the SynT’s.