棉花(棉)的遗传多样性干旱气候条件下产量和纤维性状的种质资源

Shoaib Liaqat, Abdul Latif Khan Tipu, Ghayour Ahmad, Saeed Ahmed, Saba Merrium, Muhammad Rafiq Shahid, Javed Iqbal, Zahida Noreen, Muhammad Ihsan Ullah, Abrar Ahmed, Wajiha Zafar
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引用次数: 0

摘要

气候变化极大地影响了几种农作物的产量。棉花是近年来受气候变化影响严重的重要纤维作物,种质间的遗传变异是选择产量和纤维相关性状更适应农业气候条件的基因型的重要来源。为此,采用增强型设计和推荐的管理方法播种了180个棉花基因型。记录和分析了形态、产量和纤维性状的数据,即株高(PH)、CLCuD(%)、单株铃数、铃重(g)、单株产量(g)、GOT(%)、短纤维长度(mm)、麦克(ug/inch)、短纤维强度(g/tex)。方差分析结果表明,所有性状的基因型间均存在显著的变异。PCA双标图显示PC1的变异性为26%,PC2的变异性为15.5%。基因型。30株具有较远的产量和纤维特性。通过聚类分析,将180个棉花基因型分为9个不同的聚类。第7组和第8组分别有15和03个基因型。两组的基因型均表现出较高的抗CLCuD能力,单株产量最高,纤维性状较好。对不同形态、产量和纤维性状的棉花基因型进行表型评价,为今后棉花育种计划中最佳基因型的开发提供依据。
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GENETIC DIVERSITY AMONG COTTON (GOSSYPIUM HIRSUTUM L.) GERMPLASM FOR YIELD AND FIBRE TRAITS UNDER ARID CLIMATIC CONDITION
Climate change has drastically affected the performance of several agricultural crops. Cotton is an important fibre crop which is severely influenced by the climate change in recent years Presence of genetic variability among germplasm is a key source for selecting the genotypes that are more adapted to the agro-climatic conditions with respect to yield and fibre related traits. For this purpose, 180 cotton genotypes were sown under augmented design with recommended management practices. Data for the morphological, yield and fibre traits viz plant height (PH), CLCuD(%),bolls per plant, boll weight (g), yield/ plant (g), GOT (%), staple length (mm), mike (ug/inch), staple strength (g/tex) were recorded and analysed. The results of variance analysis revealed that significant variability was observed among genotypes for all the traits under study. PCA biplot showed that 26% variability was observed in PC1 and 15.5% in PC2. Genotypes no. 30 was found with distant yield and fibre characteristics. Through cluster analysis, total 180 cotton genotypes were grouped into nine different clusters. Group 7 and group 8 consist of 15 and 03 genotypes respectively. Genotypes among these two groups represent the higher CLCuD resistance, maximum yield per plant with better fibre traits. Phenotypic evaluation of cotton genotypes for different morphological, yield and fibre traits provide the basis for exploitation of best performing genotypes in the future breeding programme.
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