Phenotyping Root System Architecture of Cotton (Gossypium barbadense L.) Grown Under Salinity

Agriculture (Pol'nohospodárstvo) Pub Date : 2017-12-01 DOI:10.1515/agri-2017-0014

S. A. Mottaleb, E. Darwish, M. Mostafa, G. Safwat

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引用次数: 4

Abstract

Abstract Soil salinity causes an annual deep negative impact to the global agricultural economy. In this study, the effects of salinity on early seedling physiology of two Egyptian cotton (Gossypium barbadense L.) cultivars differing in their salinity tolerance were examined. Also the potential use of a low cost mini-rhizotron system to measure variation in root system architecture (RSA) traits existing in both cultivars was assessed. Salt tolerant cotton cultivar ‘Giza 90’ produced significantly higher root and shoot biomass, accumulated lower Na+/K+ ratio through a higher Na+ exclusion from both roots and leaves as well as synthesized higher proline contents compared to salt sensitive ‘Giza 45’ cultivar. Measuring RSA in mini-rhizotrons containing solid MS nutrient medium as substrate proved to be more precise and efficient than peat moss/sand mixture. We report superior values of main root growth rate, total root system size, main root length, higher number of lateral roots and average lateral root length in ‘Giza 90’ under salinity. Higher lateral root density and length together with higher root tissue tolerance of Na+ ions in ‘Giza 90’ give it an advantage to be used as donor genotype for desirable root traits to other elite cultivars.

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棉花根系结构的表型分析盐度下生长

土壤盐渍化对全球农业经济产生了深刻的负面影响。以耐盐性不同的2个埃及棉品种为材料，研究了盐胁迫对其早期幼苗生理的影响。此外，还评估了利用低成本的微型根管系统测量两个品种根系结构(RSA)性状变异的潜力。耐盐棉花品种吉萨90根系和地上部生物量显著高于盐敏品种吉萨45，根系和叶片对Na+的排除使其积累的Na+/K+比显著降低，脯氨酸含量显著高于盐敏品种吉萨45。在以固体MS营养培养基为底物的微型根管中测量RSA比泥炭苔藓/沙子混合物更精确和有效。在盐度条件下，吉萨90的主根生长率、总根系大小、主根长、侧根数和平均侧根长均高于其他品种。吉萨90较高的侧根密度和根长以及对Na+离子较强的根组织耐受性使其具有作为其他优良品种所需根系性状的供体基因型的优势。

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Agriculture (Pol'nohospodárstvo)

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