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Correlation and Regression Analysis for Yield Traits in Wheat (Triticum aestivum L.) Genotypes 被引量:1

Correlation and Regression Analysis for Yield Traits in Wheat (Triticum aestivum L.) Genotypes
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摘要 The present research work was carried out at Southern Wheat Research Station, Tandojam during the growing season 2013-14 in order to work out correlation and regression analysis for yield traits in wheat genotypes. The experiment was laid out in a Randomized Complete Block Design with three replications. Eight bread wheat genotypes such as Mehran, Sarsabz, TJ-83, SKD-1, Inqlab, A. Sattar, Sehar and Sassui were used to examine correlation and regression. Seven traits, viz.;plant height, tillers plant<sup>-1</sup>, spike length, spikelet’s spike<sup>-1</sup>, grains spike<sup>-1</sup>, seed index and grain yield plant<sup>-1</sup> were studied. The analysis of variance revealed significant differences among the genotypes for plant height, tillers plant<sup>-1</sup>, spike length, spikelet’s spike<sup>-1</sup>, grains spike<sup>-1</sup>, seed index and grain yield plant<sup>-1</sup>. Based on mean performance, variety Sarsabz gave maximum plant height (95.46), produced maximum tillers plant<sup>-1</sup> (4.40), gave more grain spike<sup>-1</sup> (63.13), TJ-83 gave highest seed index (47.260), and was next ranker in spike length<sup>-1</sup> (12.07), spikelet’s spike<sup>-1</sup> (19.13), grains spike<sup>-1</sup> (59.86), and grain yield plant<sup>-1</sup> (9.86) among the genotypes. The phenotypic correlations revealed that tillers plant<sup>-1 </sup>and grains spike<sup>-1</sup> were highly positively associated;hence these yield components can be used as reliable selection criteria to improve grain yield in wheat. Thus estimation of correlation and regression analysis among yield and yield components may provide effective selection criteria to improve wheat grain yield. The results from correlation and regression of plant height indicated significantly positive association with spikelet’s spike<sup>-1</sup>, tillers plant<sup>-1</sup> and grains spike<sup>-1</sup> which revealed that increase in plant height will cause corresponding increase in associated traits. The present research work was carried out at Southern Wheat Research Station, Tandojam during the growing season 2013-14 in order to work out correlation and regression analysis for yield traits in wheat genotypes. The experiment was laid out in a Randomized Complete Block Design with three replications. Eight bread wheat genotypes such as Mehran, Sarsabz, TJ-83, SKD-1, Inqlab, A. Sattar, Sehar and Sassui were used to examine correlation and regression. Seven traits, viz.;plant height, tillers plant<sup>-1</sup>, spike length, spikelet’s spike<sup>-1</sup>, grains spike<sup>-1</sup>, seed index and grain yield plant<sup>-1</sup> were studied. The analysis of variance revealed significant differences among the genotypes for plant height, tillers plant<sup>-1</sup>, spike length, spikelet’s spike<sup>-1</sup>, grains spike<sup>-1</sup>, seed index and grain yield plant<sup>-1</sup>. Based on mean performance, variety Sarsabz gave maximum plant height (95.46), produced maximum tillers plant<sup>-1</sup> (4.40), gave more grain spike<sup>-1</sup> (63.13), TJ-83 gave highest seed index (47.260), and was next ranker in spike length<sup>-1</sup> (12.07), spikelet’s spike<sup>-1</sup> (19.13), grains spike<sup>-1</sup> (59.86), and grain yield plant<sup>-1</sup> (9.86) among the genotypes. The phenotypic correlations revealed that tillers plant<sup>-1 </sup>and grains spike<sup>-1</sup> were highly positively associated;hence these yield components can be used as reliable selection criteria to improve grain yield in wheat. Thus estimation of correlation and regression analysis among yield and yield components may provide effective selection criteria to improve wheat grain yield. The results from correlation and regression of plant height indicated significantly positive association with spikelet’s spike<sup>-1</sup>, tillers plant<sup>-1</sup> and grains spike<sup>-1</sup> which revealed that increase in plant height will cause corresponding increase in associated traits.
作者 Athar Hussain Bhutto Asghar Ali Rajpar Shahmir Ali Kalhoro Amjad Ali Fahad Ali Kalhoro Muneer Ahmed Sajjad Raza Niaz Ahmed Kalhoro Athar Hussain Bhutto;Asghar Ali Rajpar;Shahmir Ali Kalhoro;Amjad Ali;Fahad Ali Kalhoro;Muneer Ahmed;Sajjad Raza;Niaz Ahmed Kalhoro(Department of Plant Breeding and Genetics, Sindh Agriculture University, Tando Jam, Pakistan;Faculty of Agriculture, Lasbela University of Agriculture, Water & Marine Sciences, Uthal, Pakistan;College of Natural Resources and Environment, Northwest A&F University, Yangling, China;Soil Survey of Pakistan, Devolution Cell, Cabinet Division, Camp Office, Hyderabad, Pakistan)
出处 《Natural Science》 2016年第3期96-104,共9页 自然科学期刊(英文)
关键词 WHEAT GRAIN YIELD GENOTYPE Analysis Wheat Grain Yield Genotype Analysis
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