Gene action for oil content and quality in diverse cytoplasmic sources in sunflower under varied moisture environments

Q3 Agricultural and Biological Sciences Helia Pub Date : 2020-11-30 DOI:10.1515/helia-2020-0020

V. Tyagi, S. K. Dhillon, G. Kaur

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引用次数: 2

Abstract

Abstract Sunflower breeding aims to developing good heterotic hybrids which can be achieved by tapping combining ability of hybrids belongs to diverse parents. Nine diversified CMS lines along with one maintainer lines were hybridized with four male lines in a line × tester manner thereby, developing a total 40 hybrids. The experimental material was grown over two environments i.e. recommended irrigation and other moisture stress environments continuously for two years 2011 and 2012 in randomized complete block design with three replications at Punjab Agricultural University, Ludhiana, Punjab, India. The experiment was design to estimate combining ability of parental lines, gene effects and effect of divers CMS sources on oil content and quality traits. It was observed that the non-additive component of genetic variance played major role in inheritance of these traits as recommended by analysis of variance of combining abilities and analysis of genetic variance components. Further supporting this conclusion was the fact that the GCA/SCA ratio for oil content and quality traits observed in F1 generation was less than one under both the environments. These results indicated the preponderance of dominant gene action and the feasibility of hybrid sunflower development. GCA estimates revealed that CMS analogues CMS-XA (Unknown), ARG-2A (H. argophyllus) and PRUN-29A (H. praecox spp. runyonic) were very good combiner for oil content under both the environments. The pollen parents RCR-8297 and P69R were observed as very good combiners for oil content and stearic acid under moisture stress condition. The male parent P100R was recorded very good combiner for oil content under normal environment while, RCR-8297 and P100R were very good combiners for oleic acid under both the environments. A total seven crosses were identified for oil content and eight crosses for oleic acid as having high SCA effects under both the water regimes.

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不同水分环境下不同细胞质源对向日葵油脂含量和品质的基因作用

摘要向日葵育种的目的是培育优良的杂种优势种，利用不同亲本的杂种配合力可以实现杂种优势。用9个不同类型的不育系和1个保持系与4个雄性不育系进行品系×试验，共育成40个杂交种。实验材料在两种环境中生长，即2011年和2012年的推荐灌溉和其他水分胁迫环境，在印度旁遮普邦卢迪亚纳的旁遮普省农业大学进行了三次重复的随机完全区组设计。本试验旨在估计亲本系的配合力、基因效应以及不同CMS来源对含油量和品质性状的影响。通过配合力方差分析和遗传方差分量分析，发现遗传方差的非加性分量在这些性状的遗传中起着重要作用。进一步支持这一结论的是，在两种环境下，F1代中观察到的油含量和质量性状的GCA/SCA比都小于1。这些结果表明显性基因作用的优势和杂交向日葵发育的可行性。GCA估计表明，CMS类似物CMS-XA（未知）、ARG-2A（银藻）和PRUN-29A（银藻属）在这两种环境下都是很好的含油组合。在水分胁迫条件下，花粉亲本RCR-8297和P69R是油脂含量和硬脂酸含量的良好组合。在正常环境下，雄性亲本P100R对含油量具有很好的组合作用，而RCR-8297和P100R在这两种环境下对油酸具有很好组合作用。在两种水分条件下，共鉴定出7个油含量杂交和8个油酸杂交具有高SCA效应。

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来源期刊

Helia Agricultural and Biological Sciences-Agronomy and Crop Science

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1.00

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0.00%

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