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Research article2023Peer reviewedOpen access

Development of an Advanced-Generation Multi-Objective Breeding Population for the 4th Cycle of Chinese Fir (Cunninghamia lanceolata (Lamb.) Hook.)

Zhao, Benwen; Bian, Liming; Feng, Qihang; Wu, Jinzhang; Zhang, Xuefeng; Zheng, Renhua; Zheng, Xueyan; Yang, Zhiyuan; Chen, Zhiqiang; Wu, Harry X.; Shi, Jisen

Abstract

Chinese fir (Cunninghamia lanceolata (Lamb.) Hook.) is an important timber species native to southern China. While the single, unstructured breeding strategy was employed in the past three cycles of breeding, it is no longer adequate for managing a more advanced breeding population. In this study, we utilized restriction-site-associated DNA-sequencing (RAD-seq) to estimate the genetic diversity of breeding populations and phenotypic values or breeding values to estimate the genetic gain of hundred-grain weight, diameter at breast height, and wood basic density. To achieve a balance between genetic gain and genetic diversity, we combined the multiple populations and core-main populations methods to construct the fourth cycle breeding population. Finally, the fourth cycle breeding population was made up of a core population of 50 individuals with an inbreeding coefficient of similar to 0, and an additional main population of 183 individuals, with an effective population size of 108. Crossings made within and/or between different trait-targeted subpopulations could facilitate bidirectional gene flow between the core and main populations, depending on the breeding objectives. This structured breeding population of Chinese fir could aim for both short- and long-term genetic gains and has the potential to support the preservation of germplasm resources for future climate change.

Keywords

Chinese fir; breeding population; SNP; genetic diversity; genetic gain

Published in

Forests
2023, Volume: 14, number: 8, article number: 1658
Publisher: MDPI