Genetic Analysis of Agricultural Traits in Rice Related to Phosphorus Efficiency

GUO Zai-Hua , DING Ping , HE Li-Yuan , XU Cai-Guo
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引用次数: 5

Abstract

Relative tillering ability, available spike, biomass, and grain yield of P1, P2, F1 and F2,3 were used to study the genetic development of rice related to phosphorus efficiency with a quantitative genetic model. The results indicated that under a low-P condition, the relative tillering ability and the relative available spike were apt to the additivity-dominance-epistasis model with two couples of major genes, between which additive, dominant and epistatic effects existed, and with multi-gene modifications. Their maximum major gene effect mostly indicated additivity, but sub-maximum major gene effect mostly indicated dominance. Relative biomass and grain yield were apt to the additivity-dominance-epistasis and multi-genes model. The heritabilities of the major genes were 60.08% and 37.70%, and those of the multi-genes were 32.15% and 58.9%, respectively. This meant that the heritabilities of the relative tillering ability, the relative available spike, and the relative biomass were high, so they were ideal indexes for rice breeding tolerating to low-P stress; whereas, the heritability of the relative grain yield was low, which meant that the grain yield was easily affected by the environment.

水稻磷效率相关农业性状的遗传分析
以P1、P2、F1和F2、3的相对分蘖能力、有效穗数、生物量和籽粒产量为研究材料,采用定量遗传模型研究了水稻磷效率相关的遗传发育。结果表明,在低磷条件下,水稻的相对分蘖能力和相对有效穗倾向于两对主基因的加性-显性-上位性模式,存在加性、显性和上位性效应,并存在多基因修饰。其最大主基因效应多表现为可加性,次最大主基因效应多表现为显性。相对生物量和籽粒产量均符合加性-显性-上位和多基因模式。主基因遗传率分别为60.08%和37.70%,多基因遗传率分别为32.15%和58.9%。说明相对分蘖力、相对有效穗数和相对生物量的遗传力较高,是水稻耐低磷胁迫的理想育种指标;相对产量遗传力较低,易受环境影响。
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