Evaluation of Oily Sunflower Pure Lines Under Optimum and Phosphorus Deficit Conditions Using Some Physiological Traits and MFDV Multivariate Tolerance Index

Plant Genetic Researches Pub Date : 2021-08-01 DOI:10.52547/pgr.8.1.1

Maryam Rasoulzadeh Aghdam, R. Darvishzadeh, E. Sepehr, H. Alipour

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Abstract

Nutrient deficiencies are important abiotic stresses that can affect plant growth and development. In this study, 76 sunflower pour lines collected from different regions of the world were evaluated in pot using some physiological traits with combined analysis of completely randomized design with three replications under optimal and phosphorus deficit conditions. Phosphorus deficiency decreased the means of all studied traits except canopy temperature. Oilseed sunflower lines were grouped into five and four clusters in each one of optimum and phosphorus deficient conditions, respectively. However in both optimum and phosphorus deficient conditions, lines 19, 21, 27, 44 and 71 were classified into desirable cluster with high yield and yield components. Multivariate tolerance index (MFVD) for each genotype was calculated using the ratio and productivity matrices of the studied traits under optimal and phosphorus deficit conditions using principal component analysis on the resulting matrices. Based on the resulting biplot, lines 71, 74, 65, 21, 39, 7, 18 and 11 were introduced as desirable and phosphorus deficit tolerant lines.

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利用一些生理性状和MFDV多变量耐受性指数评价最佳和缺磷条件下油葵花纯系

营养缺乏是影响植物生长发育的重要非生物胁迫。以采自世界不同地区的76株向日葵为材料，采用3个重复的完全随机设计，在最优和缺磷条件下，对其生理性状进行盆栽评价。除冠层温度外，缺磷降低了各性状平均值。在最适磷和缺磷条件下，油籽向日葵系分别分成5个和4个簇。而在适宜和缺磷条件下，品系19、21、27、44和71均属于高产和高产的理想株系。各基因型的多变量耐受性指数(MFVD)分别在最优和缺磷条件下通过主成分分析计算得到。在此基础上，选育了耐缺磷株系71、74、65、21、39、7、18和11。

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Plant Genetic Researches

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