Diversity and Association Analysis of Physiological and Yield Indices in Rice Germplasm

IF 2.3 Q1 AGRICULTURE, MULTIDISCIPLINARY
Zeeshan Ali, Muhammad Naeem, Hafiz Ghulam Muhu-Din Ahmed, Aqsa Hafeez, Baber Ali, Muhammad Hassan Sarfraz*, Rashid Iqbal*, Allah Ditta*, Islem Abid and Abd El-Zaher M. A. Mustafa, 
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Abstract

Rice is an important staple food crop, but in many countries, average rice yields are much lower than their yield potential. The objective of the present study was to evaluate the phenotypic performance of diverse rice genotypes (310) for yield traits, identify high-yielding early-duration genotypes with greater partitioning efficiency, and classify the best and worst genotypes based on their performance in the 2019–20 growing season under randomized complete block design (RCBD) with three replications. The analysis of variance showed significant differences for all the traits between genotypes (p ≤ 0.001). Correlation analysis revealed a significant correlation between grain yield plant–1 and flag leaf area, panicle grain weight, panicle length, number of spikelets panicle–1, spikelet fertility, number of grains panicle–1, 1000 grain weight, grain length, net photosynthesis, and water use efficiency. Principal component analysis indicated genetic variation between all genotypes. The cumulative genetic variation in the first two principal components (PCs) was 69.18% (PC1: 57.74% and PC2: 11.44%). PC1 added more toward yield and related traits to the separation of rice genotypes and contributed to the variability for 1000 grain weight (7.74%), spikelet fertility (7.56%), number of spikelets panicle–1 (7.54%), flag leaf area (7.41%), and shoot dry weight (7.13%). Projection in biplot analysis confirmed that all the best genotypes were opposite to only the worst genotype G-19 and all others were positively associated with each other. Thus, the selection of these traits which are positively related to grain yield and the selection of best genotypes in rice would be useful for improving yield. Diversity and association of physiological and yield-related traits could be useful to improve the crop through the selection of useful traits to increase productivity and meet the demand of the growing population.

Abstract Image

水稻种质中生理指标和产量指标的多样性与关联分析
水稻是一种重要的主粮作物,但在许多国家,水稻的平均产量远远低于其产量潜力。本研究的目的是评估不同水稻基因型(310个)在产量性状方面的表型表现,识别具有更高分配效率的高产早熟基因型,并根据其在2019-20生长季的表现划分最佳和最差基因型,采用随机完全区组设计(RCBD),三次重复。方差分析显示,基因型之间的所有性状均存在显著差异(p ≤ 0.001)。相关分析表明,粮食单株产量-1 与旗叶面积、圆锥花序粒重、圆锥花序长度、圆锥花序-1 小穗数、小穗结实率、圆锥花序-1 谷粒数、千粒重、谷粒长度、净光合作用和水分利用效率之间存在显著相关。主成分分析表明所有基因型之间存在遗传变异。前两个主成分的累积遗传变异为 69.18%(PC1:57.74%,PC2:11.44%)。PC1 对水稻基因型的产量和相关性状的分离增加了更多的贡献,并对千粒重(7.74%)、小穗结实率(7.56%)、穗粒数-1(7.54%)、旗叶面积(7.41%)和穗干重(7.13%)的变异做出了贡献。双图分析中的投影证实,所有最佳基因型仅与最差基因型 G-19 相反,其他基因型之间均呈正相关。因此,选择这些与谷物产量呈正相关的性状和最佳基因型将有助于提高水稻产量。生理性状和产量相关性状的多样性和关联性有助于通过选择有用的性状来改良作物,从而提高产量,满足日益增长的人口需求。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
2.80
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