Genetic variations in upland cotton (Gossypium hirsutum L.) for yield and fiber quality traits

Horticulture International Journal Pub Date : 2020-06-16 DOI:10.15406/HIJ.2020.04.00163

Iffat Nazir, Hafiz Zaid Mahmood, T. Khan

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Abstract

Cotton ( Gossypium hirsutum L.) is one of the most important fiber and oilseed crop in family Malvaceae. Pakistan is 4th largest cotton producing countries but yield per acre is low with respect to other cotton producing countries. The aim of the study is to examine combining ability effects and gene action of yield and yield contributing traits in upland cotton. Four upland cotton genotypes i.e. MARVI, FH-458, MNH-996 and VH-333 were grown and crossed in full diallel mating design. Joint regression analysis revealed that data of all traits was fit for additive-dominance model and all the characters except fiber length were controlled by non-additive type of gene action following dominance and over dominance. As all the genotypes were significantly different. The genotype FH-458 showed best GCA effects fiber length. MARVI was found best general combiner for number fiber fineness while VH-333 was best general combiner for fiber strength. MNH-996 showed best general combining ability for average fiber strength. Among the F1 hybrids FH-458 × FH-458 showed good specific combining ability effects for fiber fineness, MARVI × FH-458 and FH-458 × MARVI for number of strength, FH-458 × MARVI for fiber length.

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陆地棉产量和纤维品质性状的遗传变异

棉花(Gossypium hirsutum L.)是锦葵科重要的纤维和油料作物之一。巴基斯坦是第四大棉花生产国，但与其他棉花生产国相比，亩产较低。本研究旨在探讨陆地棉产量和产量贡献性状的配合力效应和基因作用。选用MARVI、FH-458、MNH-996和VH-333 4个陆地棉基因型进行全双列杂交。联合回归分析表明，各性状数据均符合加性-显性模型，除纤维长度外，其余性状均受显性和超显性非加性基因作用控制。各基因型差异显著。FH-458基因型对纤维长度的GCA效应最好。MARVI是纤维数细度的最佳综合组合剂，VH-333是纤维强度的最佳综合组合剂。MNH-996的平均纤维强度综合配合力最好。FH-458 × FH-458在纤维细度上表现出较好的特定配合力效应，FH-458和FH-458在纤维数强度上表现为× FH-458, FH-458在纤维长度上表现为× MARVI。

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Horticulture International Journal

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