农科机构知识库联盟

Analysis of decision-making coefficients of three main fiber quality traits for upland cotton (Gossypium hirsutum L.)

文献类型：外文期刊

第一作者： Yongjun Mei;;Wenming Hu

作者： Yongjun Mei;Wenming Hu;Shuli Fan;Meizhen Song;Chaoyou Pang;Shuxun Yu

作者机构：

关键词： Decision-making analysis;fiber traits;Genetic correlation;Upland cotton

期刊名称：EUPHYTICA （影响因子：1.895；五年影响因子：2.181 ）

ISSN：

年卷期：

页码：

收录情况： SCI

摘要： The analysis of genetic correlations between fiber length (Len), strength (Str), micronaire,and 12 other traits was conducted using the additive (A)-dominance (D) genetic model, which considers genotype 9 environment interaction effects, in intraThe analysis of genetic correlationsbetween fiber length (Len), strength (Str), micronaire,and 12 other traits was conducted using the additive(A)-dominance (D) genetic model, which considers genotype 9 environment interaction effects, in intrasis of three fiber traits in cross breeding was beneficial for the improvement of Len by increasing the additive effects of Str and length of boll (LB) and decreasinglint percentage (LP), boll number of the top three fruitbearing branches. The analysis was also beneficial for the improvement of Str and fiber fineness byincreasing or decreasing the additive effects of other traits. Utilizing heterosis in hybrids was beneficial to the heterosis of Len by selecting the high dominance effects of number of nodes of the 1st fruit-bearing branch and LB and decreasing the dominance effects of diameter of boll (DB) and LP and for improvingStr by increasing the dominance effects of DB and decreasing the dominance effects of number of fruitbearing branches and number of nodes of the main stem (NNMS). Utilizing heterosis was also beneficial for improving fineness by increasing the dominanceeffects of LB, Str, and lint yield and decreasing the dominance effects of NNMS and Len.

分类号： S3

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